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Patent 2501342 Summary

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Claims and Abstract availability

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  • At the time the application is open to public inspection;
  • At the time of issue of the patent (grant).
(12) Patent: (11) CA 2501342
(54) English Title: APPLIANCE FOR VACUUM SEALING FOOD CONTAINERS
(54) French Title: APPAREIL DE FERMETURE SOUS VIDE DE CONTENANTS ALIMENTAIRES
Status: Term Expired - Post Grant Beyond Limit
Bibliographic Data
(51) International Patent Classification (IPC):
  • B65B 31/00 (2006.01)
  • B65B 31/02 (2006.01)
  • B65B 31/06 (2006.01)
(72) Inventors :
  • PATTERSON, JUSTIN C. (United States of America)
  • SIANO, SALVATORE R. (United States of America)
  • MAK, CHI KIN JOHN (China)
  • JONES, HEATHER (United States of America)
  • MARINO, FRANCIS E. (United States of America)
  • BOSSA, DAVE (United States of America)
  • OFFIR, YIGAL (United States of America)
(73) Owners :
  • SUNBEAM PRODUCTS, INC.
(71) Applicants :
  • SUNBEAM PRODUCTS, INC. (United States of America)
(74) Agent: OSLER, HOSKIN & HARCOURT LLP
(74) Associate agent:
(45) Issued: 2013-02-26
(86) PCT Filing Date: 2003-10-03
(87) Open to Public Inspection: 2004-04-22
Examination requested: 2008-09-10
Availability of licence: N/A
Dedicated to the Public: N/A
(25) Language of filing: English

Patent Cooperation Treaty (PCT): Yes
(86) PCT Filing Number: PCT/US2003/031506
(87) International Publication Number: WO 2004033315
(85) National Entry: 2005-04-04

(30) Application Priority Data:
Application No. Country/Territory Date
10/371,610 (United States of America) 2003-02-21
10/675,284 (United States of America) 2003-09-30
60/416,036 (United States of America) 2002-10-04

Abstracts

English Abstract


A system for evacuating containers (1). The system includes a base housing (2)
defining a recess (16) having a vacuum inlet port (14) in communication with a
vacuum source (15). An inner door (6) is hinged to the base housing (2) and is
sized to cover the recess (16) when in a closed position, and an outer door
(10) having a sealing member (5) is hinged to close over the inner door (6). A
vacuum nozzle (8) extends at least partially between the inner and outer doors
and is in communication with the recess (16). The inner and outer doors
cooperate to retain a flexible container therebetween and around the nozzle
(8) so that the nozzle (8) is positioned for fluid communication with an
inside of the container. A removable drip pan (4) is positioned to retain
fluids drawn by the nozzle (8).


French Abstract

Cette invention concerne un système visant à faire le vide dans des contenants (1). Ce système comprend un logement de base (2) définissant une cavité (16) comportant un orifice d'admission pour le vide (14) communiquant avec une source de vide (15). Une porte intérieure (6), montée de manière qu'elle soit articulée sur le logement de base (2), est dimensionnée de façon qu'elle recouvre la cavité (16) lorsqu'elle est en position fermée. Une porte extérieure (10), comportant un élément d'étanchéité (5), est montée de manière qu'elle soit articulée sur la porte intérieure (6). Une buse d'aspiration (8), s'étendant au moins partiellement entre la porte intérieure et la porte extérieure, communique avec la cavité (16). La porte intérieure et la porte extérieure coopèrent de façon qu'elles retiennent un contenant souple entre elles et autour de la buse (8) de manière que celle-ci soit positionnée en communication fluidique avec l'intérieur du contenant. Un bac récepteur amovible (4) est positionné de façon qu'il recueille les fluides aspirés par la buse (8).

Claims

Note: Claims are shown in the official language in which they were submitted.


26
CLAIMS:
1. An apparatus for evacuating and sealing a plastic bag, said apparatus
comprising
a base housing;
a vacuum source mounted within said housing,
a removable drip pan resting in said base and in communication with
said vacuum source,
a nozzle extending at least partially over said pan in communication with
said vacuum source;
a pair of doors hingeably mounted to said base housing and surrounding
said nozzle for engaging said bag when an opening of said bag is positioned
around said nozzle; and
a heating element mounted on one of said doors for heat-sealing said
bag.
2. The apparatus of claim 1 further comprising an elongated vacuum
recess defined in a top surface of said base housing, said vacuum recess
having fluid connection to said vacuum source
3. The apparatus of claim 2, wherein said vacuum recess further comprises
a vacuum intake opening.
4 The apparatus of claim 2, wherein said vacuum recess is sized to
accommodate said drip pan, and said drip pan further comprises a coupling
extending downwardly therefrom for removable, sealed engagement with said
vacuum intake opening.
The apparatus of claim 4, wherein said pair of doors further comprises a
first door adapted to sealably cover said vacuum recess and drip pan
6. The apparatus of claim 5, wherein said nozzle further comprises a
flexible plastic, and said nozzle is mounted to an upper side of said first
door,

27
said nozzle communicating with an underside of said door and extending
forwardly from said door.
7. The apparatus of claim 6, wherein said pair of doors further comprises a
second door adapted to cover said first door and said nozzle, said second door
configured to press said nozzle toward said first door and to downwardly press
said first door over said recess.
8. The apparatus of claim 1, wherein said nozzle further comprises at least
one reinforcing member extending from a side of said nozzle to reinforce said
nozzle structure.
9. The apparatus of claim 7 further comprising a plurality of elastomeric
seals attached to said doors to engage said flexible container around said
nozzle.
10. The apparatus of claim 9, wherein said drip pan defines an upper
vacuum port upstanding from the bottom of said pan, and said drip pan defines
an annular wall surrounding said pan.
11. The apparatus of claim 10, wherein the vertical height of said upper
vacuum port is less than the vertical height of said annular wall.
12. The apparatus of claim 1, wherein said base housing further comprises
a plastic bag roll and cutting assembly comprising:
a removable rod fixably attached to said base housing for holding a
plastic bag roll; and
a cutting tool slidably attached to said base housing for cutting a plastic
bag from said plastic bag roll.
13. The apparatus of claim 12, wherein said cutting tool is removable from
said base housing.

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14. The apparatus of claim 1, wherein said base housing further comprises
a status display consisting of a series of lights informing a user of current
said
system operations.
15. The apparatus of claim 1 further comprising a wall mounting assembly
for fixably attaching said base housing to a fixed object.
16. The apparatus of claim 1, wherein the vacuum source further comprises:
an electric motor having a shaft;
a cylinder member mounted to said motor, said cylinder defining a
cylindrical chamber;
a motor eccentric wheel connected to the shaft of said electric motor;
a pump piston, pivotally connected at a first end of said pump piston to
said motor eccentric wheel;
a pump piston passageway defined within said pump piston to allow air
flow into a bottom side of said pump piston and out a side of said pump
piston;
and
means for directing air flow into said cavity chamber and through said
pump piston passageway.
17. The apparatus of claim 16, wherein said means for directing air flow
further comprises at least one air break mounted to an end of said pump
piston.
18. The apparatus of claim 1 further comprising a pressure sensor mounted
within said base and fluidly connected to said vacuum inlet port in said
recess,
said pressure sensor also in electrical communication with circuitry for
controlling said motor and said heat sealing means.
19. The apparatus of claim 18, wherein said pressure sensor further
comprises:
a sensor housing forming a sensor chamber and defining an airflow inlet;
a pressure piston slidably mounted within said sensor chamber, a
portion of said pressure piston carrying electrically conductive material;
a spring biasing said pressure piston toward said airflow inlet;

29
at least one terminal pin including conductive material extending into
said chamber adjacent said airflow inlet; and
wherein said pressure piston is movable against said spring upon a
preset level of airflow received through said airflow inlet.
20. The apparatus of claim 1 further comprising an interface for providing
fluid communication between said vacuum source and a container located
remotely from said base housing.
21. A method for evacuating a flexible container, said method comprising
the steps of:
providing a vacuum sealing appliance comprising.
a base housing;
a recess defined within said base housing, said recess defining a
vacuum inlet port;
a drip pan positioned within said recess and over said vacuum
inlet port for preventing liquid from entering said port;
a vacuum source located within said base housing and in fluid
communication with said inlet port;
a pair of clamping doors hingeably mounted to said base housing,
said doors configured to cover said recess and retain a flexible container
therebetween;
vacuum nozzle means in communication with said vacuum
source; and
heat sealing means mounted to at least one of said clamping
doors;
placing an open end of said flexible container over a portion of said
vacuum nozzle means, said container holding an amount of liquid;
closing said pair of clamping doors over said recess to engage said
container around said nozzle and cover said recess;
activating said vacuum source to evacuate said container and draw a
portion of said liquid into said nozzle;
collecting said portion of said liquid in said drip pan; and
activating said heat sealing means to seal said container;

30
22. An apparatus for evacuating a plastic bag, said apparatus comprising:
a base housing;
a vacuum source mounted within said base housing;
a recess defined in said base housing and in communication with said
vacuum source;
a removable drip pan resting in said recess and configured to align with
at least a portion of an open end of said bag; and
at least one door hingeably mounted to said base housing and closable
over said drip pan.
23. The apparatus of claim 22, wherein said drip pan defines a fluid-
retaining area on a top portion thereof.
24. The apparatus of claim 22, wherein said at least one door is configured
to engage said bag when an opening of said bag is aligned with said drip pan.
25. The apparatus of claim 22 further comprising a vacuum port in
communication with said vacuum source.
26. The apparatus of claim 25, wherein said vacuum port upstands from a
bottom of said recess.
27. The apparatus of claim 25, wherein said drip pan further defines a
vacuum opening, said vacuum opening being engageable with said vacuum
port.
28. The apparatus of claim 22, wherein said drip pan is in fluid
communication with a vacuum inlet.
29. The apparatus of claim 22 further comprising a heating element
mounted to said at least one door to interface with said base housing for heat-
sealing said bag.

31
30. The apparatus of claim 22, wherein said recess is elongated in shape.
31. The apparatus of claim 30, wherein said drip pan comprises an outer
periphery that is configured to closely fit within said recess.
32. The apparatus of claim 31, wherein said fluid-retaining area of said drip
pan has an outline shape closely corresponding to that of said outer
periphery.
33. The apparatus of claim 22, wherein said removable drip pan is made of
a cleanable material.
34. The apparatus of claim 22, wherein said removable drip pan is
replaceable.
35. The apparatus of claim 22, wherein said at least one door comprises a
first door hinged to said base housing to cover said recess and to cooperate
with said base housing to retain said bag therebetween when in a closed
position, and a second door containing a heat sealing means thereon, said
second door covering said first door when in a closed position.
36. A method of evacuating a flexible plastic container, said method
comprising the steps of:
providing an appliance comprising a base housing, a vacuum source
mounted within said housing, at least one door hingeably mounted to said
base, and a recess defined in said base housing and in communication with
said vacuum source;
placing a removable drip pan into said recess;
placing an open end of said plastic container at least partially into said
removable drip pan;
closing said at least one door to engage a portion of said plastic
container between said door and said base;
operating said vacuum source to remove air from said container; and
removing said drip pan from said recess.

32
37. The method of claim 36 further comprising the step of heat sealing said
container after said step of operating said vacuum source.
38. The method of claim 37 further comprising the step of retaining liquid
from said container within said drip pan.
39. The method of claim 36, wherein said drip pan further comprises a liquid
retaining area defined thereon.
40. The method of claim 36 further comprising the step of cleaning said drip
pan after removing said drip pan from said recess.
41. The method of claim 36 further comprising the step of placing said drip
pan back into said recess.
42. A system for evacuating containers comprising:
a base housing;
a recess defined within said base housing, said recess defining a
vacuum inlet;
a vacuum source located within said base housing and in fluid
communication with said inlet;
at least one door hinged to said base housing, said at least one door
sized to cover said recess and to cooperate with said base housing to retain a
flexible container therebetween when in a closed position, said at least one
door containing a heat sealing means mounted thereon; and
a removable drip pan resting in said recess and in communication with
said vacuum source wherein said drip pan is configured to receive fluids and
particles withdrawn from said flexible container.
43. The system of claim 42, wherein said at least one door comprises a first
door hinged to said base housing to cover said recess and to cooperate with
said base housing to retain said flexible container therebetween when in a
closed position, and a second door containing a heat sealing means thereon,
said second door covering said first door when in a closed position.

33
44. The system of claim 42, wherein said drip pan is sized to closely fit
within the contours of said recess.
45. The system of claim 44, wherein said drip pan defines an upper vacuum
port upstanding from the bottom of said pan, and said drip pan defines an
annular wall.
46. The system of claim 45, wherein said pan further defines a lower
connection to said vacuum inlet.
47. The system of claim 46 further comprising a sealing member on one of
said lower connection port and said vacuum inlet for ensuring a sealed
connection between said connection port and said inlet.
48. The system of claim 47, wherein the vertical height of said upper
vacuum port is less than the vertical height of said annular wall.
49. The system of claim 42, wherein said drip pan is replaceable.
50. The system of claim 42, wherein said drip pan is made of a cleanable
material.
51. An apparatus for evacuating and sealing a plastic bag, said apparatus
comprising:
a base housing;
a vacuum source mounted within said housing;
a removable drip pan resting in an upper portion of said base housing
and in communication with said vacuum source; and
at least one door hingeably mounted to said base housing wherein said
at least one door cooperates with said base housing to retain said plastic bag
when said at least one door is in a closed position.
52. The apparatus of claim 51, wherein said drip pan is replaceable.

34
53. The apparatus of claim 51, wherein said drip pan is made of a cleanable
material.
54. The apparatus of claim 51, wherein the at least one door comprises an
inner door hingeably mounted to said base to cooperate with said base housing
to retain said plastic bag and to cover said removable drip pan when in a
closed position, and an outer door hingeably attached to said base housing to
cover said inner door when in a closed position.
55. An apparatus for evacuating a plastic bag, said apparatus comprising:
a base housing;
a vacuum source mounted within said base housing;
a recess defined in said base housing and in communication with said
vacuum source;
a removable drip pan resting in said recess; and
at least one door hingeably mounted to said base housing and closable
over said drip pan.
56. The apparatus of claim 55, wherein the at least one door comprises an
inner door hingeably mounted to said base to cover said removable drip pan
when in a closed position, and an outer door hingeably attached to said base
housing to cover said inner door when in a closed position.
57. The apparatus of claim 56 further comprising a vacuum nozzle
extending at least partially between said inner and outer doors, said nozzle
in
communication with said recess.
58. An appliance for evacuating a flexible container, said appliance
comprising:
a base housing;
a vacuum source mounted within said base housing;
a recess defined in said base housing and in communication with said
vacuum source;

35
a removable drip pan resting in said recess wherein said drip pan is
made of a cleanable material; and
at least one door hingeably mounted to said base housing and closable
over said drip pan.
59. The appliance of claim 58, wherein said drip pan is replaceable.
60. An apparatus for evacuating and sealing a plastic bag, said apparatus
comprising:
a base housing;
a vacuum source mounted within said base housing;
a removable, cleanable drip pan resting in said base and in
communication with said vacuum source;
a nozzle extending at least partially over said drip pan in communication
with said vacuum source;
a pair of doors hingeably mounted to said base housing and surrounding
said nozzle for engaging said bag when an opening of said bag is positioned
around said nozzle; and
a heating element mounted on one of said doors for heat-sealing said
bag.

Description

Note: Descriptions are shown in the official language in which they were submitted.


CA 02501342 2012-01-18
APPLIANCE FOR VACUUM SEALING FOOD CONTAINERS
FIELD OF INVENTION
[0002] This invention relates to packaging systems. More specifically, this
invention relates to an appliance for vacuum sealing various types of
containers.
BACKGROUND OF THE INVENTION
[0003] Vacuum sealing appliances are used domestically and
commercially to evacuate air from various containers such as plastic bags,
reusable rigid plastic containers, or mason jars. These containers are often
used for storing food. Vacuum sealing food packaging provides many
benefits with a particular advantage of preserving the freshness and nutrients
of food for a longer period of time than if food is stored while exposed to
ambient air.
[0004] Typically, these appliances operate by receiving a bag, isolating the
interior of the bag from ambient air, and drawing air from the interior of the
bag before sealing it. One such appliance is a "Seat-A-Meal" product
marketed by the Rival Company since at least 1982. This device utilized a
simple nozzle to evacuate air from bags, while a single sealing door operated
in conjunction with a heat-sealer to seal the bag closed. Other appliances
have also been available to evacuate rigid containers such as jars.
[0005] A problem with many of these appliances is that as air is being
removed from the bag or other suitable container, liquids or other particles
in
the container may be ingested into the vacuum source of the appliance.
Ingesting liquids or other particles into the vacuum source, which is
typically
an electric device, may damage the vacuum source, creating less efficient

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drawing power or a breakdown. This is especially a problem when evacuating
air from flexible containers containing liquidous food. It is therefore
desirable
to have a system that prevents liquids or excess particles from being ingested
into the vacuum source and that is more easily cleaned.
[0006] Another problem with many of these appliances is a lack of
sufficient vacuum pressure within the appliance. Prior art systems have
lacked a vacuum source with enough power to draw a significant amount of
air from a container.
[0007] An additional problem with many appliances is the inability to seal a
container independently from the vacuuming process. A user may want to
seal a container without evacuating air from the container, or a user may wish
to seal a container that is not isolated from ambient air.
BRIEF SUMMARY OF THE INVENTION
[0008] The above shortcomings and others are addressed in one or more
preferred embodiments of the invention described herein. In one aspect of
the invention, a system for evacuating containers is provided comprising a
base housing and a recess defined within the base housing. A vacuum inlet
port is within the recess and is in communication with a vacuum source
located within the base housing. An inner door is hinged to the base housing
and sized to cover the recess when in a closed position. An outer door having
a heat sealing means mounted thereon is hinged to close over the inner door.
A vacuum nozzle extends at least partially between the inner and outer doors
and is in communication with the recess. The inner and outer doors
cooperate to retain a flexible container therebetween and around the nozzle
so that the nozzle is positioned for fluid communication with an inside of the
container.
[0009] In another aspect of the invention, an apparatus for sealing a plastic
bag is provided. The apparatus comprises a base housing, a vacuum source
mounted within the housing and a removable drip pan resting in the base and
in communication with the vacuum source. A nozzle extends at least partially
over the pan in communication with the vacuum source. A pair of doors is

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hingeably mounted to the base housing surrounding the nozzle for engaging
the bag when an opening of the bag is positioned around the nozzle. A
heating element mounted on one of the doors for heat-sealing the bag.
[0010] In yet another aspect of the invention, an evacuable lid and
container combination is provided for use with the appliance and/or system of
the present invention. The lid and container combination comprises a
container having an open mouth and a lid adapted to cover the open mouth to
define an enclosable chamber. The lid defines a central recess, and at least
one central recess passageway located within the central recess able to
sustain an air flow from an upper side of the canister lid to a lower side of
the
canister lid. A piston assembly is mounted for reciprocal movement within the
central recess, with at least one piston passageway defined within the piston
assembly capable of sustaining air flow through the piston assembly. A piston
pipe is configured to retain the piston within the central recess, and a knob
is
configured to rotate the piston assembly via the piston pipe to align the at
least one central recess passageway and the at least one piston passageway.
[0011] Various other aspects of the present invention are described and
claimed herein.
[0012] Advantages of the present invention will become more apparent to
those skilled in the art from the following description of the preferred
embodiments of the invention which have been shown and described by way
of illustration. As will be realized, the invention is capable of other and
different embodiments, and its details are capable of modification in various
respects. Accordingly, the drawings and description are to be regarded as
illustrative in nature and not as restrictive.
BRIEF DESCRIPTION OF SEVERAL VIEWS OF THE DRAWINGS
[0013] FIG. 1 is a perspective view of a vacuum sealing system in
accordance with the present invention;
[0014] FIG. 2 is a perspective view of a vacuum sealing appliance in
accordance with the present invention;

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[0015] FIG. 2b is a perspective view showing the interior of the base
housing;
[0016] FIG. 3 is a perspective view of a pump motor used as a vacuum
source within the vacuum sealing appliance;
[0017] FIG. 4 is an exploded view of the pump motor;
[0018] FIG. 5a is a schematic view of a pressure sensor used within the
vacuum sealing appliance in a first position;
[0019] FIG. 5b is a schematic view of a pressure sensor used within the
vacuum sealing appliance in a second position;
[0020] FIG. 6 is a perspective view of a drip pan used within the vacuum
sealing appliance;
[0021] FIG. 6a is an enlarged perspective view of a portion of the drip pan;
[0022] FIG. 7 is a partial view of the vacuum sealing appliance showing a
plastic bag placed over a nozzle on an inner door for vacuuming;
[0023] FIG. 8 is a perspective view of a second embodiment of a vacuum
sealing appliance in accordance with the present invention;
[0024] FIG. 9 is a perspective view of the second embodiment of the
vacuum sealing appliance showing an open end of a plastic bag placed over a
vacuum recess;
[0025] FIG. 10 is a perspective view of the second embodiment of the
vacuum sealing appliance showing an inner door closed against a plastic bag
to hold the plastic bag in position for vacuuming;
[0026] FIG. 11 is a perspective view of the second embodiment of the
vacuum sealing appliance showing an outer door closed against the inner
door to isolate the plastic bag from ambient air;
[0027] FIG. 12 is a side view of an adaptor of the vacuum sealing system
above a mason jar;
[0028] FIG. 12a is an enlarged view of an end of the vacuum post within
the adaptor;
[0029] FIG. 13 is a top view of the adaptor of the vacuum sealing system;
[0030] FIG. 14 is a side view showing the adaptor resting on a mason jar;

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[0031] FIG. 15 is a perspective view of a canister of the vacuum sealing
system having an exploded view of a canister lid valve assembly;
[0032] FIG. 16 is a bottom view of the canister lid valve assembly showing
the central recess passageways and the piston passageways not aligned; and
[0033] FIG. 17 is a bottom view of the canister lid valve assembly showing
the central recess passageways and the piston passageways aligned.
DETAILED DESCRIPTION OF THE INVENTION
[0034] As shown in FIG. 1, this invention relates to a system for vacuum
packaging or vacuum sealing containers. The basic components of the
system are a vacuum sealing appliance 1, an adaptor 901, and canister lids
implementing a canister lid valve assembly 1001. As shown in FIG 2b, the
vacuum sealing appliance 1 contains a vacuum source 15 and a control
system 17 for the system implementing a pump 301 and a pressure sensor
501. As shown in FIG. 1, the vacuum sealing appliance 1 uses the vacuum
source 15 to extract air from plastic bags and the adaptor 901 uses the
vacuum source 15 to extract air from separate rigid containers such as mason
jars or canisters using a canister lid valve assembly 1001.
[0035] The vacuum sealing appliance 1, shown in FIG. 2, generally
consists of a base housing 2; a bag-engaging assembly 3 having a pair of
clamping doors; a sealing assembly 5; a power assembly 7; a plastic bag roll
and cutting assembly 9; a status display 13; and a wall mounting assembly 21
for mounting the base housing 2 to a wall. As shown in FIG. 2b, the base
housing 2 is designed to contain a vacuum source 15, a control system 17,
and the status display 13 for the entire vacuum sealing system, which is
powered by the power assembly 7. As shown in FIG. 2, the power assembly
7 consists of an AC power cord leading from the base housing 2 and is
connectable to an AC outlet.
[0036] The status display 13 is a series of lights on the base housing 2 that
illuminate to indicate the current status of the vacuum sealing appliance 1.
Preferably, the status display includes a light to indicate the vacuum source
is operating and a light to indicate that the sealing assembly 5 is operating.

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[0037] The bag-engaging assembly 3 is mounted to the base housing 2
such that when the bag-engaging assembly 3 engages a plastic bag obtained
from the plastic bag roll and cutting assembly 9, the vacuum source within the
base housing 2 is in communication with the interior of the plastic bag to
efficiently draw air from the interior of the plastic bag. Additionally, the
sealing
assembly 5 is partially mounted on the bag-engaging assembly 3 to form a
seal in the plastic bag being evacuated.
[0038] As shown in FIG. 1, a remote canister adaptor assembly 11 is
designed to communicate with the base housing 2 via hollow tubing 906 to
evacuate air from a rigid container. The vacuum source within the base
housing 2 may be used to create a vacuum within the rigid container. Once
the adaptor 901 of the remote canister assembly 11 is removed, the canister
lid valve assembly 1001 may be used to seal the interior of certain rigid
containers from ambient air.
[0039] The base housing 2, as shown in FIG_ 2b, contains a vacuum
source 15, a control system 17 implementing a pressure sensor 501, and
tubing 19. The vacuum source 15, pressure sensor 501, and exterior of the
base housing 2 are in fluid communication via the tubing 19 such that the
vacuum source draws air from the exterior of the base housing 2 and directs
the flow of air to the pressure sensor 501. The pressure sensor 501 is
triggered when the airflow is above a predetermined level. When the
pressure sensor 501 is triggered, the control system 17 controls the vacuum
source 15 and the sealing assembly 9.
[0040] The vacuum source 15 located within the base housing 2 is
preferably a vacuum pump such as the pump 301 shown in FIGS. 3 and 4,
but many types of pumps can effectively be used as a vacuum source 15.
The pump 301 shown in FIGS. 3 and 4 generally consists of an electric motor
302, a motor shaft 324, a motor fan blade 304, a motor eccentric wheel 306, a
motor eccentric shaft 308, a pump piston rod 310, a pump piston air brake
312, a pump piston ring 314, a pump piston lock 316, a pump cavity air brake
318, a pump cylinder 320, and a pump cavity body 322.

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[0041] The pump cylinder 320 attaches to the pump cavity body 322 to
define a cavity chamber 334 having a slightly larger diameter than a lower
portion of the pump piston rod 328. The cavity chamber 334 is designed to
form seal between the pump piston rod 310 and the walls of the cavity
chamber 334 and to guide the movement of the lower portion of the pump
piston rod 328 as the pump piston rod head 326 moves in a circular direction
during the circular rotation of the motor eccentric wheel 306.
[0042] When the vacuum pump 301 is activated, the electric motor 302
turns the motor fan blade 304 and the motor eccentric wheel 306 via the
motor shaft 324, which extends out a first side 325 and a second side 327 of
the electric motor 302. The motor fan blade 304 is connected to the first side
325 of the motor shaft 324 and the motor eccentric wheel 306 is connected to
the second side 327 of the motor shaft 324.
[0043] The motor eccentric shaft 308 preferably extends from the motor
eccentric wheel 306. The pump piston rod 310 is pivotally connected to the
motor eccentric shaft 308 to allow a pump piston rod head 326 to move
upwardly and downwardly within the pump cylinder 320, thus drawing air into
the cavity chamber 334 and pushing air out of the cavity chamber 334 and
into tubing 19 leading to the pressure sensor 501. To gate the airflow, the
pump piston rod 310 itself defines a piston passageway 327 that incorporates
valve assemblies to allow air to pass between a lower intake of the pump
piston rod 328 and a side output of the pump piston rod 330.
[0044] At the lower portion of the pump piston rod 328, the pump piston
rod 310 is in communication with the pump piston air brake 312, the pump
piston ring 314, and the pump piston lock 316. The pump piston air brake 312
is specifically in communication with the piston passageway 327, allowing air
to enter the piston passageway 327 at the lower portion of the pump piston
rod 328, but preventing air flow in the opposite direction, from the piston
passageway 327 to outside the lower portion of the pump piston rod 328.
[0045] The pump piston ring 314 consists of a rubber elastomeric material
extending a sufficient distance from the lower portion of the pump piston rod
328 to allow the pump piston ring 314 to engage the walls of the cavity

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chamber 334 and form a seal. The pump piston lock 316 covers the pump
piston ring 314 and pump piston air brake 312, and attaches to the pump
piston rod 310 to hold the pump piston ring 314 and pump piston air brake
312 in place during movement of the pump piston rod 310.
[0046] An air inlet 336 is in communication with the cavity chamber 334 of
the pump cylinder 320 to allow air to flow into the cavity chamber 324 at a
lower side of the pump cavity body 322. The air inlet 336 is covered by the
pump cavity air brake 318, which is positioned within the cavity chamber 334.
The pump cavity air brake 318 allows air to flow into the pump cylinder 320 at
the air inlet 336, but prevents air to flow in the opposite direction, from
the
pump cylinder 320 to the air inlet 336.
[0047] Air evacuated by the pump 301 is directed towards the pressure
sensor 501, which is shown in FIGS. 5a and 5b. The sensor 501 generally
consists of a switch housing 505, a pressure switch piston 502, a coil spring
504, a set of terminal pins 508, and a pressure switch chamber 510. The
pressure switch chamber 510 is in the shape of an elongated cylinder allowing
the pressure switch piston 502, which is slidably mounted within the hollow
housing 505, to travel longitudinally within the pressure switch chamber 510.
To guide the movement of the pressure switch piston 502, the pressure switch
chamber 510 has a slightly larger diameter than the disk-like pressure switch
piston 502.
[0048] The set of terminal pins 508 consists of at least two posts 516
having electrically conductive tips 518. The terminal pins 508 are located on
the same interior side of the pressure switch chamber 510 as the inlet 503,
spaced a distance 520 from each other so that an electric current cannot pass
from the tip of one terminal pin 522 to the tip of another terminal pin 524.
Additionally, each post 516 is long enough to allow the electrically
conductive
material at the tip 518 of each post 508 to engage the electrically conductive
segment 512 of the piston 502 when no air pressure is applied to the pressure
switch piston 502 and the coil spring 504 biases the piston 502 against them.
[0049] The outlet of the pump 301 is connected to the same side of the
pressure switch chamber 510 as the set of terminal pins 508 such that the air

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flow leaving an air outlet side 534 of the pump 301, the side outlet 330 of
the
pump piston rod 310 in the preferred embodiment, is concentrated into the
pressure switch chamber 510, directing air flow pressure on the pressure
switch piston 502 in a direction of force against the force of the coil spring
504.
[0050] In general, the pressure sensor 501 receives at least a portion of air
flow exhausted from the vacuum source 15 through an inlet 503 of the sensor
501. When air begins to flow into the pressure sensor 501, the pressure
switch piston 502, which is slidably mounted within the hollow housing 505,
changes position within the housing 505 depending on the amount of air
flowing into the sensor 501. The pressure switch piston 502 is preferably
disk-shaped to register with the internal contour of the housing 505, and
consists of a disk of electrically conductive material 512 attached to a disk
of
electrically insulating material 514. The coil spring 504 engages the pressure
switch piston 502 at the electrically insulating material 514 with the
opposite
end of the coil spring 504 engaging an interior side of the pressure switch
chamber 510. The spring is mounted to bias the piston towards the inlet 503.
[0051] A micro-chip controller 506 is electrically connected to the tip 518 of
each terminal pin 508 such that when the electrically conductive segment 512
of the pressure switch piston 502 is in contact with the terminal pins 508, an
electric current passes from the micro-chip controller 506, through the
terminal pins 508 and piston 502, and then back to the micro-chip controller
506, thus creating a constant signal. This allows the micro-chip controller
506
to detect when the pressure switch piston 502 is in a first position 530 shown
in FIG. 5a or a second position 532 shown in FIG. 5b. In the first position
530
shown in FIG. 5a, the electrically conductive segment 512 of the pressure
switch piston 502 is in contact with the terminal pins 508 creating a closed
circuit and the constant signal to the micro-chip controller 506. In the
second
position 532 shown in FIG. 5b, the electrically conductive segment 512 of the
pressure switch piston 502 is pushed away from the terminal pins 508 by
incoming air pressure a distance such that the spring 504 is compressed. In
this position, electric current cannot pass from one terminal pin 522 to
another

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terminal pin 524 through the electrically conductive segment 512 of the
pressure switch piston 502. This position of the pressure switch piston 502
creates an open circuit resulting in the constant signal to the micro-chip
controller 506 ceasing.
[0052] The outlet of the pump 301 is connected to the same side of the
pressure switch chamber 510 as the terminal pins 508 such that the air flow
leaving the air outlet side 534 of the pump 301, the side 330 of the pump
piston rod 310 in the preferred embodiment, is concentrated into the pressure
switch chamber 510, placing pressure on the pressure switch piston 502 in a
direction of force against the force of the coil spring 504.
[0053] During operation, before the pump 301 is activated, the pressure
switch piston 502 is in the first position 530 with the electrically
conductive
segment 512 in contact with the terminal pins 508. This causes a closed
circuit and a constant signal to the micro-chip controller 506. Once the pump
301 is activated, air flows from the pump 301 into the pressure switch
chamber 510. This air flow creates a force that pushes the pressure switch
piston 502 into the second position 532 where the electrically conductive
segment 512 is not in contact with the terminal pins 508. This creates an
open circuit and stops current flow into the micro-chip controller 506
resulting
in the constant signal to the micro-chip controller 506 ceasing, effectively
informing the micro-chip controller 506 that air is being evacuated by the
pump 301.
[0054] Once sufficient air is evacuated by the pump 301, the air flow from
the pump 301 significantly decreases and the force on the pressure switch
piston 502 is less than the force of the coil spring 504. The coil spring 504
biases the pressure switch piston 502 back into the first position 530.
[0055] The micro-chip controller 508 operates differently when receiving
the new constant signal of the first position 530 depending on how the
vacuum sealing apparatus 1 is being used. For example, when the pump 301
is being used to seal plastic bags, an outer door 10 of the bag-engaging
assembly 3 actuates a microswitch 536, effectively causing the micro-chip
controller 506 to activate a heating wire 538 and to not deactivate the pump

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301 in response to a decrease in pressure within the sensor 501. When the
vacuum sealing appliance 1 and the pump 301 are used in communication
with the adaptor assembly 11 as discussed further below, the outer door 10 of
the bag-engaging assembly 3 does not actuate the microswitch 536, thus
causing the micro-chip controller 506 to deactivate the pump 301 and to not
activate the heating wire 538 upon the decrease in pressure within the sensor
501.
[0056] The vacuum inlet 14 is located within a recess 16 defined on the top
of the base housing 2. A removable drip pan 4 rests in the recess 16 and is in
communication with the vacuum inlet 14. The removable drip pan 4 is
designed to collect excess food, liquid, or other particles to avoid clogging
the
vacuum source 15 when extracting air from a plastic bag. As shown in FIG. 6,
the removable drip pan 4 generally consists of a lower side 600 and an upper
side 608 which define an oval shape. An annular wall 623 defines a vacuum
recess 612. The vacuum recess 612 is shaped as a concave region on the
upper side of the drip pan 610 designed to collect food and liquids that
accompany the evacuation of a plastic bag by the appliance 1 before such
contaminants can enter the pump 301. The lower side 600 defines a lower-
side vacuum port 602 and the upper side 608 defines an upper-side vacuum
port 610 defining a hollow vacuum channel 606.
[0057] The lower-side vacuum port 602 forms a sealable fluid coupling with
the port 610 on the upper side 608, positioned within the recess 612. The
lower-side vacuum port 602 is surrounded by an O-ring 604, and is alignable
with and insertable into the vacuum inlet 14. The O-ring 604 seals the
connection between the vacuum inlet 14 and the port 602. The airtight seal
allows the vacuum source 15 within the base housing 2 to efficiently draw air
from the recess 612 through the lower-side vacuum port 602. Thus the
vacuum source 15 is in communication with the upper-side vacuum port 610
through the vacuum channel 606 such that the vacuum source 15 efficiently
draws air from the upper-side vacuum port 610 of the drip pan 4.
[0058] The upper-side vacuum port 610 extends to a height 614 above a
lowermost point 615 of the vacuum recess 612 that allows a top 616 of the

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upper-side vacuum port 610 to sit above any liquids or food particles that may
collect in the vacuum recess 612. This height 614 assists in avoiding the
ingestion of any liquids or food particles into the vacuum source within the
base housing 2.
[0059] After sufficient accumulation of waste, the removable drip pan 4 can
be removed and the vacuum recess 612 cleaned to avoid further
accumulation that could obstruct the upper-side vacuum port 610 during
operation. To aid in removal, a thumb flange 603 extends from a side of the
drip pan 4 with sufficient relief to allow a user to lift upwardly and easily
free
the drip pan 4 from the base housing 2.
[0060] To aid in the collection of excess food and liquids, the vacuum
recess 612 preferably extends from approximately the center of the drip pan 4
to a first side 621 of the drip pan 4. A strip 622 made of a resilient and
water-
resistant elastomeric material such as rubber further defines the vacuum
recess 612 by surrounding the perimeter of the vacuum recess 612 within an
annular channel 624 defined by the annular wall 623. The rubber strip 622 is
more pronounced in height than the annular wall 623, thus creating an airtight
seal around the vacuum recess 612 when it is covered by the bag-engaging
assembly 3. This seal allows the vacuum source 15 within the base housing
2 to evacuate air at the bag-engaging assembly 3 via the vacuum recess 612
and the upper-side vacuum port 610.
[0061] In order to draw air through the vacuum recess 612, the bag-
engaging assembly 3 must cover the removable drip pan 4. As shown in FIG.
2, the bag-engaging assembly 3 is attached to the base housing 2.
Preferably, the bag-engaging assembly 3 comprises two separately movable
doors hinged to the base housing 2 such that when closed, the two doors lay
against the base housing 2, each of which is configured to cover the above-
described drip pan 4.
[0062] In one embodiment, the bag-engaging assembly 3 consists of a
rigid inner door 6, a nozzle 8, and an outer door 10. In general, the nozzle 8
is positioned so that a plastic bag may be positioned around the nozzle 8 and
the bag-engaging assembly 3 may isolate the interior of the plastic bag from

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ambient air so that the vacuum source 15 within the base housing 2 can draw
air from the plastic bag by drawing air through the nozzle 8 on the inner door
6. The inner door 6 and outer door 10 forma clamping arrangement for
engagement of the plastic bag around the nozzle 8.
[0063] The inner door 6, when closed, completely covers the drip pan 4
and the vacuum recess 16. When closed, the lower side 18 of the inner door
6 contacts and engages the rubber strip 622 surrounding the perimeter of the
vacuum recess 612. To aid in forming an airtight seal with the rubber strip
622 on the removable drip pan 4, the underside 18 of the inner door 6 is
overlayed by a layer of cushioned elastomeric material. Therefore, when
pressure is applied to the top surface 22 of the inner door 6, the inner door
6
is compressed against the rubber strip 622 of the drip pan 4, causing the
elastomeric material to engage the rubber seal and form an airtight seal
between the vacuum recess 612 and the underside 18 of the inner door 4.
[0064] The nozzle 8 is preferably a one-piece hollow structure with
reinforcing members 23 extending from its sides. The nozzle 8 is preferably a
squared-off, tubular member defining a free flowpath between the top surface
22 of the inner door 6 and the underside 18 of the inner door 4. The nozzle 8
passes through and is attached to the inner door 6 with a lower end 24 of the
nozzle 8 opening into the vacuum recess 612. In this position, the upper
portion of the nozzle extends horizontally and the lower end extends
vertically
through an opening in the inner door 4. The lower end of the nozzle 24 is
generally aligned with the vacuum recess 612 so that when an airtight seal is
formed between the underside 18 of the inner door 6 and the vacuum recess
612, the nozzle 8 is in communication with the vacuum recess 612.
Preferably, the lower end of the nozzle 24 is offset longitudinally from the
upper-side vacuum port 610 within the vacuum recess 612. This assists the
collection of liquids or excess particles in the bottom of the vacuum recess
612 instead of allowing the liquids or excess particles to pass directly to
the
upper-side vacuum port 610, possibly obstructing airflow. Thus, air may
continuously flow towards the vacuum source 15 through the recess 612, drip

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pan 4, and nozzle 8 on the top surface 22 of the inner door 6. The forward
end of the nozzle 8A extends forwardly from the inner door 6.
[0065] Due to the communication between the vacuum source 15 within
the base housing 2 and the vacuum recess 612, the vacuum source 15 is in
fluid communication with the nozzle 8 such that the vacuum source 15 can
efficiently draw air from the nozzle 8. Therefore, when a flexible container,
such as a plastic bag, is placed around the nozzle 8 and isolated from
ambient air, the vacuum source can evacuate air from the interior of the
plastic bag via the nozzle 8.
[0066] As noted above, the outer door 10 is configured to isolate an open
end of a plastic bag from ambient air while the nozzle 8 on the inner door 6
is
in communication with the interior of the plastic bag. An underside of the
outer door 26 defines an outer door recess 28 which is slightly concave and
covered with flexible, cushioned elastomeric material. When the outer door
is closed, the outer door recess 28 contacts and presses down on the top
surface of the inner door 22, which, as noted above, includes the elastomeric
material and the nozzle 8. Therefore, when the top surface of the inner door
22 and the underside of the outer door 26 are compressed over a bag placed
around the nozzle 8, a generally airtight seal is formed between the two
layers
of cushioned elastomeric material and generally around the head of the
nozzle 8 positioned between the two layers. The remainder of the edges of
the open end of the plastic bag are held together tightly between the inner
and
outer doors 22 and 26.
[0067] To seal the plastic bag closed, a sealing assembly 5 is forwardly
mounted on the underside of the outer door 26. As shown in FIG. 2, the
sealing assembly 5 preferably includes a heating wire 12 mounted forwardly
on the underside of the outer door 26. When closed, the heating wire 12
aligns with and overlays a rubber strip 32 mounted forwardly along the base
housing 2. The heating wire 12 is mounted such that when the outer door 26
is closed, the heating wire 12 engages the plastic bag laying across the
rubber strip 32 being evacuated through the nozzle 8. The heating wire 12

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and rubber strip 32 are mounted forwardly to prevent the nozzle 8 from
interfering with the seal.
[0068] The heating wire 12 is in communication with the pressure sensor
501 and a timing circuit such that when the micro-chip controller 506
energizes the heating wire 12 due to the pressure sensor 501 detecting a
significant decrease in the amount of air leaving the vacuum source 15, the
timing circuit activates the heating wire 12 for a predetermined time that is
sufficient for sealing to occur. A step-down transformer 7 in the base housing
2 steps down the voltage supplied the heating wire 12.
[0069] Preferably, two openings 36 on the base housing 2 are located on
either side of the rubber strip 32 to receive latches 34 on the outer door 10
to
assure that the heating wire 12 evenly engages the plastic bag laying across
the rubber strip 32. The latches 34 also provide hands-free operation so that
once the outer door 10 latches to the base housing 2, the plastic bag is
secure in the vacuum appliance 1 and no further action is needed by the user
to hold the bag in place. Preferably, two release buttons 37 are located on
the base housing 2 to release the latches 34 from the base housing 2.
[0070] During operation of this embodiment of the vacuum-sealing
appliance 1, a plastic bag 700 is preferably first removed from the plastic
bag
roll and cutting assembly 9 mounted on the base housing 2. The plastic bag
roll and cutting assembly 9 generally comprises a removable cutting tool 42
and a removable rod 40 fixed at both ends within a concave recess 38 defined
in the base housing 2. To remove the cutting tool 42 for replacement or
cleaning, a user may remove a plate 44 on the front of the base housing 2
which secures the cutting tool 42 in a track 46 running parallel to the front
of
the base housing 2. The track 46 allows the cutting tool 42 to slide from left
to
right, or from right to left along the front of the base housing 2.
[0071] The rod 40 holds a roll containing a continuous plastic sheet from
which a user can unroll a desired length of plastic bag 700. The cutting tool
42 then cuts the plastic bag from the remaining roll by sliding the cutting
tool
42 across the plastic bag 700 in a continuous left to right, or right to left
motion.

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[0072] Once removed from the plastic bag roll, the plastic bag 700 is
unsealed on two ends. To seal one of the unsealed ends of the plastic bag
700, an unsealed end is placed over the rubber strip 32 of the base housing 2
and the outer door 10 is closed so that the heating wire 12 engages the
rubber strip 32. No engagement with the nozzle 8 is necessary. To activate
the heating wire 12, a user may momentarily depress and releases a sealing
switch 48. This action activates the heating wire 12 without activating the
vacuum source 15, resulting in the activated heating wire 12 fusing layers of
the plastic bag 700 together, causing them to form an airtight seal. The
heating wire 12 continues to fuse the layers of the plastic bag 700 until a
predetermined amount of time passes and the timing circuit deactivates the
heating wire 12. The plastic bag 700 is removed, resulting in a plastic bag
with airtight seals on three sides.
[0073] As shown in FIG. 7, after being filled with appropriate material, the
inner door 6 is closed over the recess and the drip pan 4, and the plastic bag
700 is placed around the nozzle 8. It should be noted that any type of plastic
bag 700 that is sealed on three sides, partially filled with appropriate
material,
is gas impermeable, and consists of suitable material for heat-sealing, is
appropriate for use with the system.
[0074] The outer door 10 is then closed against the inner door 6 and the
base housing 2. As discussed above, pressure creates an airtight seal
between the drip pan 4 and the inner door 6. Additionally, pressure creates a
generally airtight seal between the inner door 6 and the outer door 10 when
compressed over the plastic bag 700 placed around the nozzle 8. The latch
34 engage the hole 36 on the base housing 2 to hold the outer door 10
against the base housing 2 and sustain the pressure between the outer door
and the inner door 6. To activate the vacuum source, a user may
momentarily depress and release a vacuum switch 50. Once activated, the
vacuum source 15 draws air from the interior of the plastic bag 700 through
the nozzle 8 and into the vacuum recess 612. Any liquids or other food
particles evacuated from the plastic bag 700 through the nozzle 8 fall into
the

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vacuum recess 612 of the drip pan 4 while the vacuum source 15 continues to
draw air.
[0075] Once sufficient air is evacuated from the plastic bag 700, the
pressure sensor 501 detects a significant decrease in the amount of air flow
from the plastic bag 700. The heating wire 12 is then activated for a set
period of time. The vacuum source 15 continues to draw air from the interior
of the plastic bag 700 while the activated heating wire 12 fuses layers of the
plastic bag 700 together, causing them to form an airtight seal. The heating
wire 12 continues to fuse the layers of the plastic bag 700 until a
predetermined amount of time passes and the timing circuit deactivates the
heating wire 12.
[0076] After operation, the outer door 10 may be lifted and the sealed
plastic bag 700 removed from the nozzle 8. Additionally, after the plastic bag
700 is removed, the inner door 6 can be easily lifted to expose the recess and
the drip pan 4 removed for cleaning.
[0077] In another embodiment of the vacuum sealing appliance 1, shown
in FIG. 8, the configuration of the rigid inner door 802 and the configuration
of
the removable drip pan 804 are modified. In the drip pan 804, the vacuum
recess 806 whose perimeter is lined by the rubber strip 808 spans the entire
length of the drip pan 804. As in the previous embodiment, the top-side
vacuum inlet 810 is preferably located within the removable drip pan 804 such
that extraneous liquid and food particles evacuated from a plastic bag are not
easily drawn into the top-side vacuum inlet 810, but rather fall to the bottom
of
the vacuum recess 806.
[0078] In this embodiment, the inner door 802 does not contain a nozzle.
The inner door 802 instead contains an air vent 812 that allows air to pass
through the inner door 802. When the air vent 812 is open, it prevents the
vacuum source 15 within the base housing 2 from creating a vacuum within
the vacuum recess 806. To close the air vent 812, and thereby allow the
vacuum source 15 within the base housing 2 to efficiently draw air from the
vacuum recess 806, the outer door 814 must be closed. By closing the outer
door 814, a rubber pad 815 seals the air vent 812 by embracing the air vent

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812 and covering it. Sealing the air vent 812 seals the vacuum recess 806
from ambient air and allows the vacuum source 15 within the base 2 to
efficiently draw air from the vacuum recess 806.
[0079] As shown in FIG. 9, during operation of this embodiment, the open
end 817 of a plastic bag 813 that is sealed on three sides is placed within
the
vacuum recess 806. The inner door 802 is closed, engaging the outer panels
of the bag between the inner door 802 and the drip pan 804 as shown in FIG.
10. At this point, the plastic bag 813 is not isolated from the ambient air
due
to the air vent 812.
[0080] Once the plastic bag 813 is secured in the vacuum recess 806, the
outer door 814 is closed, as shown in FIG. 11, sealing the air vent 812 and
isolating the plastic bag 813 from ambient air. A user may momentarily
depress and release a vacuum switch 50 to activate the vacuum source 15
within the base housing 2. Once activated, the vacuum draws air from the
interior of the plastic bag 813 and into the vacuum recess 806. As the
vacuum source draws air from the interior of the plastic bag 813, excess
liquids and food particles are collected in the bottom of the vacuum recess
806 after which the vacuum continues to draw air into the upper-side vacuum
inlet 810.
[0081] Once sufficient air is evacuated from the plastic bag 813, the
pressure sensor 501 detects a significant decrease in the amount of air flow
from the plastic bag 813. The heating wire 816 is then activated. When the
heating wire 816 is activated, the vacuum source 15 continues to draw air
from the interior of the plastic bag 813 while the heating wire 816 fuses
layers
of the plastic bag 813 together, causing them to form an airtight seal. The
heating wire 816 continues to fuse layers of the plastic bag 813 until a
predetermined amount of time passes and the timing circuit deactivates the
heating wire 816. Once sealed, the outer door 814 and inner door 802 are
lifted. The sealed plastic bag 813 is removed and the removable drip pan 804
can be removed for cleaning.
[0082] An adaptor assembly 11 may be used in conjunction with the base
housing 2 as shown in FIG. 1 to evacuate separately provided storage

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containers. An adaptor 901, shown in FIGS. 12 and 13, generally includes an
adaptor casing 902, a rubber gasket 904, an adaptor tube 906, and a vacuum
post 908. The adaptor 901 is in communication with the vacuum source 15 of
the base housing 2 to create a vacuum within an interior space 916 defined
within the adaptor 901. The adaptor 901 can be placed over the open end of
a jar-like container to be evacuated, such as a mason jar. The adaptor 901
uses the vacuum source 15 to draw air from the attached container.
[0083] Preferably, the adaptor casing 902 is generally dome-shaped or
semispherical, thereby defining the cup-like interior 916 to the adaptor
casing
902. A lower area 910 of the adaptor casing 902 is surrounded on its
perimeter by the circular rubber gasket 904 having an upper portion 912 and a
lower portion 914. The upper portion 912 of the rubber gasket is attached to
the interior 916 of the adaptor casing 902 to allow the lower portion 914 of
the
rubber gasket 904 to form a flange. The flange portion of the rubber gasket
904 cooperates with the portion 912 of the gasket and the lip 902A of the
casing to form an annular gasket recess 904A. The flange is movable
inwardly toward the center of the adaptor casing 902 and away from the lip
902A of the casing. This inward movement allows the gasket recess 904A
and the rubber gasket 904 to embrace and seal a container mouth on which
the adaptor casing 902 is placed as shown in FIG. 14, forming a virtually
airtight, substantially hermetic seal between the interior 916 of the adaptor
casing 902 and a mouth or opening of the container.
[0084] The vacuum post 908 extends from a center point in the interior 916
of the adaptor casing 902 toward the lower area 914 of the adaptor casing
902. The post 908 is of sufficient length to allow the adaptor casing 902 to
rest on the top of a container. The vacuum post 908 defines an air
passageway 922 running from an end 924 of the vacuum post 908 in the
interior 916 of the adaptor casing 902 to an air valve 920 on the exterior of
the
adaptor casing 902. The end 924 of the vacuum post 908 additionally defines
slits 922 allowing air to be drawn into the sides of the vacuum post 908 if
the
end 924 is obstructed.

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[0085] The adaptor tube 906 includes two ends, one attached to the
vacuum source 15 at the upper-side vacuum port 610 on the drip pan 4 and
one attached to the exterior of the adaptor casing 902 at the air valve 920.
The end of the adaptor tube 906 which connects to the upper-side vacuum
port 610 includes an adaptor that allows the adaptor tube 906 to insert inside
the vacuum channel 606 defined by the upper-side vacuum port 610. The
end of the adaptor tube 906 which connects to the adaptor casing 902 at the
air valve 920 is connected to an L-shaped adaptor that fits over and embraces
the exterior of the air valve 920.
[0086] During operation, the adaptor tube 906 is attached to the vacuum
source 15 and the adaptor 901 is placed over a canister or a mason jar 928
with a disk-like lid 930. The mason jar or canister 928 is preferably inserted
until the vacuum post 908 rests against the lid 930 and the rubber gasket 904
of the adaptor 901 surrounds or contacts the sides of the mason jar or
canister 928. To activate the vacuum source 15, a user may momentarily
depress and release a vacuum switch 50 on the base housing 2. Once
activated, the vacuum source 15 draws air from the end 924 of the vacuum
post 908 by drawing air through the adaptor tube 906 and the air passage
way 922.
[0087] In the case of a mason jar 928, drawing air from the end 924 of the
vacuum post 908 creates a vacuum within the interior 916 of the adaptor
casing 902, which forces the lower portion 914 of the rubber gasket 904 to
move inward and embrace the sides of the mason jar 928 to form a seal.
Drawing air from the interior 916 of the adaptor also causes portions of the
outer edges 931 of the disk-like lid 930 to bend upwardly around the centrally
located vacuum post 908 due to the air pressure in the mason jar 928 while
the center of the lid 930 stays in place due to the vacuum post 908. The
bending of the outer edges 931 allows the vacuum source to draw air from the
interior of the mason jar 928 to equalize pressure with the interior 916.
[0088] Once the air pressure above and below the lid 930 equalize, the
outer edges 931 of the lid 930 flex back to their normal position and the lid
930
rests flat against the top of the mason jar 928. At this time, the pressure

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sensor 501 detects a significant decrease in the amount of air leaving the
vacuum source 15 and a signal is sent to the micro-chip controller 506. The
micro-chip controller 506 deactivates the vacuum source 15 and the adaptor
casing 902 may be removed from the vacuum source 15, allowing air to return
into the interior 916 of the adaptor casing 902. Ambient air pressure pushes
the lid 930 securely on the mason jar 928 and effectively seals the mason jar
928 from ambient air. The adaptor casing 902 is removed and a metal
retaining ring 932 can be placed around the lid 930 of the jar to secure the
disk-like lid 930.
[0089] The adaptor 901 is additionally compatible with a canister 1038
implementing a canister lid valve assembly 1001. As shown in FIG. 15, the
canister 1038 is shaped with a complementary lid 1012 including the canister
lid valve assembly 1001. The canister lid valve assembly 1001 allows a user
to easily seal an interior of the canister 1038 from ambient air after a
vacuum
source extracts sufficient air from the interior of the canister 1038. The
canister lid valve assembly 1001 additionally allows a user to easily allow
ambient air back into the interior of the canister 1038 by simply turning a
knob
on the canister.
[0090] The canister lid valve assembly 1001 generally includes a knob
1002, a plate spring 1004, a piston pipe 1006, a piston ring 1008, and a
rubber piston 1010. These components are positioned within an opening
defined in the canister lid 1012.
[0091] The piston ring 1008 mounted on one end of the rubber piston 1010
create a piston assembly 1013, which is mounted to move upwardly and
downwardly based on relative air pressure above and below the canister lid
valve assembly 1001. When the piston assembly 1013 moves upwardly, the
vacuum source 15 can draw air from the interior of the canister 1038. Once
sufficient air is drawn from the interior, the piston assembly 1038 moves
downwards to seal the interior from ambient air and effectively seal the
evacuated interior. To allow ambient air back into the interior of the
canister
1038, the knob 1002 may be turned, which in turn rotates the piston assembly
1013 to vent air from the canister 1038.

CA 02501342 2005-04-04
WO 2004/033315 PCT/US2003/031506
22
[0092] The rubber piston 1010 is preferably cylindrical with at least one,
preferably two passageways 1014 extending longitudinally along the length of
the rubber piston 1010 that are large enough to sustain air flow between a
lower side of the rubber piston 1016 and an upper side of the rubber piston
1018.
[0093] The piston ring 1008 is preferably disk-shaped, having an annular
lip 1019 extending downwardly to embrace the rubber piston 1010. As with
the rubber piston 1010, the piston ring 1008 defines matching passageways
1020 large enough to sustain air flow between a lower side 1022 of the piston
ring 1008 and an upper side 1024 of the piston ring 1008. The piston ring
passageways 1020 are spaced to align with the rubber piston passageways
1014. During assembly, the rubber piston 1010 is inserted into the piston ring
1008 with their respective passageways aligned so that air can flow between
the top of the piston ring 1024 and the lower side of the rubber piston 1016.
[0094] The piston assembly 1013 rests in a central recess 1026 defined in
the canister lid 1012. The central recess 1026 further defines matching
passageways 1027 to sustain air flow between an upper portion 1028 of the
lid 1012 and a lower portion 1030 of the lid 1012 when the passageways are
unobstructed. The central recess passageways 1027 are alignable with the
rubber piston passageways 1014 so that when the two sets of passageways
are aligned, they are in direct communication with a corresponding pair of
passageways in the piston assembly 1013.
[0095] The piston assembly 1013 is designed to obstruct and seal the
central recess passageways 1027 when the central recess passageways
1027 are not rotatably aligned with the rubber piston passageways 1014. The
piston assembly 1013 and central recess 1026 are also designed to allow the
piston assembly 1013 to move upwardly and downwardly a distance 1031
within the central recess 1026 depending on whether a vacuum is present.
The distance 1031 is sufficient enough to sustain an air flow from the
interior
of the canister through the central recess passageway 1027.
[0096] To prevent the piston assembly 1013 from exiting the central recess
1026 when a vacuum force is applied to the piston assembly 1013, the piston

CA 02501342 2005-04-04
WO 2004/033315 PCT/US2003/031506
23
pipe 1006 is inserted into the central e ess 1026 over the piston assembly
1013. The piston pipe 1006 frictionally embraces the walls of the central
recess 1026 so that the piston pipe 1006 is generally fixed. It may also be
affixed with an adhesive compound.
[0097] The knob 1002 may be positioned over the pipe 1006, and consists
of a circular disk 1033 attached to a set of downwardly extending fingers
1032. The fingers 1032 pass through a hollow area in the center of the piston
pipe 1006 and rotationally engage the piston ring 1008. Each finger 1032
defines at least one slot 1034 with a size corresponding to a tab 1036
extending upwards from the piston ring 1008. Each finger 1032 captures at
least one tab 1036 so that the knob 1002 and piston assembly 1013 are in
direct communication.
[0098] Due to the communication between the knob 1002 and the piston
assembly 1013, when the knob 1002 is rotated the entire piston assembly
1013 rotates. This movement changes whether the rubber piston
passageways 1014 are aligned with the central recess passageways 1027,
thereby changing whether air can flow between the upper portion 1028 of the
lid 1012 and the lower portion 1030 of the lid 1012, or whether the piston
assembly 1013 effectively forms a seal over the central recess 1026 due to
the rubber piston passageways 1014 being offset from the central recess
passageways 1027.
[0099] The plate spring 1004, which is a torsion-type spring, rests within
the piston pipe 1006 having one end embracing the knob 1002 and another
end embracing the piston pipe 1006. The plate spring 1004 places a rotary
bias on the knob 1002 in a counterclockwise direction such that for the piston
assembly 1013 to rotate in a clockwise direction, the knob 1002 must rotate in
a clockwise direction against the bias of the plate spring 1004. The piston
assembly 1013, knob 1002, and plate spring 1004 are designed to operate
with the piston pipe 1006 such that when the plate spring 1004 is in a normal
position as shown in FIG. 16, the knob 1002 is prevented from moving too far
in a counterclockwise direction by a stop member (not shown) within the
piston pipe 1006. In this normal position, the central recess passageways

CA 02501342 2005-04-04
WO 2004/033315 PCT/US2003/031506
24
1027 and rubber piston passageways 1014 are not aligned. Therefore, the
central recess passageways 1027 are sealed so that air cannot pass from the
lower side of the lid 1030 to the upper side of the lid 1028.
[00100] During operation, the lid 1012 is placed on a canister 1038 filled
with appropriate material. A rubber gasket between the lid 1012 and the
canister 1038 forms an airtight seal between the canister 1038 and the lid
1012 containing the canister lid valve assembly 1001 so that the only source
of ambient air is the top of the lid 1012. A vacuum source is applied to the
upper portion of the lid 1028 creating a vacuum within the central recess
1026. In one embodiment, the vacuum source 15 is applied using the adaptor
901 previously described, but other vacuum sources or adaptors may be
used.
[00101] The force of the vacuum within the central recess 1026 pulls the
piston assembly 1013 upwards allowing the vacuum source 15 to draw air
from the interior of the canister 1038. More specifically, when a vacuum
exists within the central recess 1026, the piston assembly 1013 lifts upwardly
due to the air pressure within the canister 1038. Due to the upward position
of the piston assembly 1013, the central recess passageways 1027 are no
longer obstructed, allowing the vacuum source 15 to be in communication
with the interior of the canister 1038.
[00102] After sufficient air exits the canister 1038, the air pressure between
the upper portion 1028 of the lid 1012 and the lower portion 1030 of the lid
1012 equalizes, causing the piston assembly 1013 to descend to its original
position- The vacuum source 15 can then be removed causing ambient air to
surround the piston assembly 1013, forcing the piston assembly 1013
securely against the central recess passageways 1027 to seal the central
recess passageway 1027 and the interior of the canister 1038 from ambient
air.
[00103] When the user desires to open the canister 1038 and allow ambient
air back into the canister 1038, the knob 1002 is rotated in a clockwise
direction causing the piston assembly 1013 to rotate. The knob is only
capable of rotating approximately 45 due to tabs or similar means to stop

CA 02501342 2005-04-04
WO 2004/033315 PCT/US2003/031506
rotation- This rotation aligns the central recess passageways 1027 with the
rubber piston passageways 1014 as shown in FIG. 17. The alignment allows
ambient air to rush into the interior of the canister 1038. After the interior
of
the canister 1038 is equalized with the ambient air pressure, the lid 1012 can
be easily removed for access to the contents of the canister 1038.
[00104] While preferred embodiments of the invention have been described,
it should be understood that the invention is not so limited and modifications
may be made without departing from the invention. The scope of the
invention is defined by the appended claims, and all devices that come within
the meaning of the claims, either literally or by equivalence, are intended to
be
embraced therein.

Representative Drawing

Sorry, the representative drawing for patent document number 2501342 was not found.

Administrative Status

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Please note that "Inactive:" events refers to events no longer in use in our new back-office solution.

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Event History

Description Date
Inactive: Expired (new Act pat) 2023-10-03
Common Representative Appointed 2019-10-30
Common Representative Appointed 2019-10-30
Maintenance Request Received 2016-09-20
Maintenance Request Received 2015-09-02
Letter Sent 2015-02-09
Inactive: Single transfer 2015-01-26
Maintenance Request Received 2014-10-02
Maintenance Request Received 2013-09-26
Grant by Issuance 2013-02-26
Inactive: Cover page published 2013-02-25
Pre-grant 2012-12-13
Inactive: Final fee received 2012-12-13
Notice of Allowance is Issued 2012-09-07
Letter Sent 2012-09-07
Notice of Allowance is Issued 2012-09-07
Inactive: Approved for allowance (AFA) 2012-09-05
Amendment Received - Voluntary Amendment 2012-01-18
Inactive: S.30(2) Rules - Examiner requisition 2011-08-09
Amendment Received - Voluntary Amendment 2009-07-21
Letter Sent 2008-11-07
Request for Examination Requirements Determined Compliant 2008-09-10
Request for Examination Received 2008-09-10
All Requirements for Examination Determined Compliant 2008-09-10
Letter Sent 2006-08-14
Letter Sent 2006-08-14
Letter Sent 2006-08-14
Letter Sent 2006-08-14
Letter Sent 2006-08-14
Letter Sent 2006-08-14
Inactive: Correspondence - Transfer 2006-06-27
Inactive: Transfer information requested 2006-06-16
Correct Applicant Request Received 2006-05-04
Inactive: Single transfer 2006-05-04
Inactive: IPC from MCD 2006-03-12
Inactive: IPC from MCD 2006-03-12
Inactive: Courtesy letter - Evidence 2005-06-28
Inactive: Cover page published 2005-06-27
Inactive: First IPC assigned 2005-06-22
Inactive: Notice - National entry - No RFE 2005-06-22
Application Received - PCT 2005-04-25
National Entry Requirements Determined Compliant 2005-04-04
Amendment Received - Voluntary Amendment 2005-04-04
Application Published (Open to Public Inspection) 2004-04-22

Abandonment History

There is no abandonment history.

Maintenance Fee

The last payment was received on 2012-10-01

Note : If the full payment has not been received on or before the date indicated, a further fee may be required which may be one of the following

  • the reinstatement fee;
  • the late payment fee; or
  • additional fee to reverse deemed expiry.

Please refer to the CIPO Patent Fees web page to see all current fee amounts.

Owners on Record

Note: Records showing the ownership history in alphabetical order.

Current Owners on Record
SUNBEAM PRODUCTS, INC.
Past Owners on Record
CHI KIN JOHN MAK
DAVE BOSSA
FRANCIS E. MARINO
HEATHER JONES
JUSTIN C. PATTERSON
SALVATORE R. SIANO
YIGAL OFFIR
Past Owners that do not appear in the "Owners on Record" listing will appear in other documentation within the application.
Documents

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Document
Description 
Date
(yyyy-mm-dd) 
Number of pages   Size of Image (KB) 
Claims 2005-04-04 23 893
Drawings 2005-04-04 16 748
Description 2005-04-04 25 1,302
Abstract 2005-04-04 1 58
Cover Page 2005-06-27 1 36
Claims 2005-04-05 23 801
Description 2012-01-18 25 1,315
Claims 2012-01-18 10 332
Cover Page 2013-01-30 1 38
Reminder of maintenance fee due 2005-06-22 1 109
Notice of National Entry 2005-06-22 1 191
Request for evidence or missing transfer 2006-04-05 1 103
Courtesy - Certificate of registration (related document(s)) 2006-08-14 1 105
Courtesy - Certificate of registration (related document(s)) 2006-08-14 1 105
Courtesy - Certificate of registration (related document(s)) 2006-08-14 1 105
Courtesy - Certificate of registration (related document(s)) 2006-08-14 1 105
Courtesy - Certificate of registration (related document(s)) 2006-08-14 1 105
Courtesy - Certificate of registration (related document(s)) 2006-08-14 1 105
Reminder - Request for Examination 2008-06-04 1 119
Acknowledgement of Request for Examination 2008-11-07 1 190
Commissioner's Notice - Application Found Allowable 2012-09-07 1 163
Courtesy - Certificate of registration (related document(s)) 2015-02-09 1 125
PCT 2005-04-04 21 862
Correspondence 2005-06-22 1 26
Fees 2005-09-30 1 43
Correspondence 2006-05-04 3 124
Correspondence 2006-06-16 1 20
Fees 2006-09-08 1 48
Fees 2007-09-28 1 59
Fees 2008-09-10 1 46
Fees 2009-08-31 1 51
Fees 2010-09-21 1 54
Fees 2011-08-29 1 48
Fees 2012-10-01 1 49
Correspondence 2012-12-13 1 53
Fees 2013-09-26 1 48
Fees 2014-10-02 1 44
Maintenance fee payment 2015-09-02 1 44
Maintenance fee payment 2016-09-20 1 44