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Sommaire du brevet 2176335 

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Disponibilité de l'Abrégé et des Revendications

L'apparition de différences dans le texte et l'image des Revendications et de l'Abrégé dépend du moment auquel le document est publié. Les textes des Revendications et de l'Abrégé sont affichés :

  • lorsque la demande peut être examinée par le public;
  • lorsque le brevet est émis (délivrance).
(12) Demande de brevet: (11) CA 2176335
(54) Titre français: PULVERISATEUR A FLEAUX MULTIPLES, POUR LE VERRE
(54) Titre anglais: MULTI-FLAIL GLASS PULVERIZER
Statut: Réputée abandonnée et au-delà du délai pour le rétablissement - en attente de la réponse à l’avis de communication rejetée
Données bibliographiques
Abrégés

Abrégé français

L'invention concerne un pulvérisateur pour le verre (6) où deux agencements rotatifs de fléaux (39 et 46) sont logés dans deux logements contigus en forme de tambours, respectivement (8 et 16). Un logement (8) a une entrée (10) à une extrémité et l'autre logement (16) a une sortie (20) située à l'autre extrémité, la plus éloignée de l'extrémité adjacente à l'entrée. Le logement (8) ayant une sortie (20) est plus long que l'autre logement (16), ce qui permet au verre pulvérisé de sortir du dispositif à une vitesse relativement basse et d'une manière contrôlée. Les fléaux (42) des agencements (39 et 46) de fléaux sont flexibles et ils sont fixés dans des fentes à fond plat (72) ou des faces ponctuelles se trouvant à l'extérieur de l'arbre (32).


Abrégé anglais


The invention is a glass pul-
verizer (6) in which two rotat-
able flail assemblies (39 and 46)
are housed within two contiguous
drum-like housings (8 and 16), re-
spectively. One housing (g) has
an inlet (10) on one end and the
other housing (16) has an outlet
(20) located on an end furthest
from the end adjacent the inlet.
The housing (8) having an out-
let (20) is longer than the other
housing (16) thereby allowing the
pulverized glass to exit the device
in a relatively low speed and con-
trolled manner. The flails (42) of
the flail assemblies (39 and 46) are
flexible and are secured to flat-bottomed slots (72) or spot faces located on the exterior of the shaft (32).

Revendications

Note : Les revendications sont présentées dans la langue officielle dans laquelle elles ont été soumises.


17
CLAIMS
1. An improved glass pulverizer of the type having a
hollow first housing, an inlet means leading to the
interior of the housing, a first rotatable flail assembly
located within said housing wherein said flail assembly
comprises a rotatable shaft and a plurality of flexible
flails that are mounted at one end to said shaft, and a
rotator means connected to said shaft to rotate said shaft
and wherein the improvement comprises:
a plurality of shaped slots located on the surface of
the shaft, said slots having a flat, substantially planar
bottom surface and having first and second parallel
sidewalls and wherein a plurality of said flails each have
an end member that has a predetermined shape with a bottom
surface and a longitudinal axis whereby said end member is
adapted to fit within one of said slots located on said
shaft and wherein when an end member is located in one of
said slots, said end member lies flat in said slot with the
bottom surface of the end member contacting the bottom
surface of the slot and the longitudinal axis of the end
member being substantially parallel to the sidewalls of the
slot; and
fastening means that function to fasten the flails to
the shaft.
2. The glass pulverizer of Claim 1 further comprising:
a second hollow housing operatively connected to the

18
first housing and having a second flail assembly located
within its interior, said second flail assembly comprising
a rotatable shaft that has a plurality of flat-bottomed
slots located on its surface and a plurality of flexible
flails that are attached to said shaft, whereby end members
of said flails are secured within said slots by securing
means;
a rotator means connected to said shaft of said second
flail assembly to rotate said shaft; and
a side opening located in each of said first and
second housings, said side openings being contiguous and
allowing material to travel back and forth between said
housings via the side openings.
3. The pulverizer of claim 1 wherein the flexible flails
are in the form of chains having a plurality of connected
links and wherein the end member of each of said chains is
a link having a center opening.
4. The pulverizer of Claim 3 wherein the fastening means
is adapted to extend through the center opening of the end
member of the flails.
5. The pulverizer of Claim 1 further comprising a flexible
cover located about an exterior surface of at least one of
said flails.

19
6. The pulverizer of claim 1 wherein the first housing has
an elongated cylindrical shape and a removable end portion.
7. The pulverizer of Claim 6 further comprising a
removable liner that is shaped to cover the interior
surface of the housing and wherein said liner can be
removed from the housing through an opening that is formed
when the end portion of the housing is removed.
8. The pulverizer of Claim 7 wherein the removable liner
is made from a polyurethane material.
9. The pulverizer of Claim 1 wherein a plurality of the
flexible flails include an elongated link that is pivotally
engaged at one end to the end member and wherein a hammer
member is pivotally engaged to a second end of the rod.
10. The pulverizer of claim 1 wherein the flails of the
first flail assembly are mounted on the shaft in a spiral
configuration whereby when the shaft is spinning, the
flails assume a spiral shape and function in a manner
similar to an auger.
11. The pulverizer of claim 2 further comprising a
removable liner made of a plastic material located within
each of said housings.

12. A glass pulverizing apparatus comprising:
a first drum-shaped hollow housing having a first end,
a second end, an inlet and an outlet;
a first flail assembly operatively mounted within said
first housing, said flail assembly comprising a central
rotatable shaft supported at first and second ends by said
housing and further comprising a plurality of flexible
flails releasably secured to an exterior surface of said
shaft;
a motor means operatively connected to said first
flail assembly wherein said motor means functions to cause
said flail assembly to rotate; and
wherein at least one of said flexible flails of the
first flail assembly includes an end member releasably
secured to the shaft, an elongated rod pivotally attached
at a first end to the end member, and a hammer portion
pivotally attached to a second end of the rod.
13. The apparatus of Claim 12 further comprising:
a second drum-shaped hollow housing, said second
housing having a first end, a second end, a side opening
and a bottom-located outlet;
a second flail assembly operatively mounted within
said second housing;
wherein the inlet of the first housing is located
proximate a first end of said first housing and functions
to allow glass material to enter an interior area of said
first housing;

21
wherein the second housing has a first end adjacent
the first end of the first housing and wherein the outlet
of the second housing is located proximate a second end of
said second housing wherein said outlet functions to allow
glass material to exit from an interior area of said second
housing;
wherein said first and second housings are contiguous
and each have a longitudinal axis;
wherein said housings are oriented so that their
longitudinal axes are substantially parallel;
wherein the outlet of the first housing is connected
to the side opening of the second housing to thereby allow
material to travel between the interior areas of the first
and second housings; and
wherein the second housing is longer than the first
housing with the second end of the second housing extending
outwardly past a second end of the first housing.
14. The apparatus of claim 12 further comprising a flexible
cover located on and surrounding each flexible flail.
15. The apparatus of Claim 12 wherein the first housing
has a removable end portion.
16. The apparatus of Claim 15 further comprising a
removable liner located within the first housing and
substantially surrounding the interior area bounded by the
first housing.

22
17. The apparatus of Claim 16 wherein the removable liner
is made of a polyurethane material.
18. A glass pulverizing apparatus comprising:
a drum-shaped hollow housing having a first end, a
second end, an inlet and an outlet;
a flail assembly operatively mounted within said
housing, said flail assembly comprising a central rotatable
shaft supported at first and second ends by said housing
and further comprising a plurality of flexible flails
releasably secured to an exterior surface of said shaft;
a motor means operatively connected to said flail
assembly wherein said motor means functions to cause said
flail assembly to rotate; and
wherein at least one of said flexible flails of the
flail assembly is enclosed within a flexible cover.
19. The assembly of Claim 18 wherein at least one of said
flexible flails of the flail assembly includes a hammer
portion that is rotatably connected to a body portion of
said flail.
20. The assembly of Claim 18 wherein the housing has a
removable end portion and a removable interior liner.

Description

Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.


Wo 95/13875 ~ PCTIUS93111223
2~ 7633~
MULTI-FLAIL GLASS PUIVERIZEl~
Field of the Invention
The invention is in the field of apparatus for
comminuting materials. More spf~c;flr~lly, the invention is
a glass pulverizer that employs two drum-shaped ho~1c; n~q
oriented in a side-by-side contiguous fashion. Within each
housing is a rotatable flail assembly comprising a central
rotor to which a plurality of fl~o~ihl~ flail members are
attached in a spiral configuration.
Backqround of the Invçntion
Numerous r~^h;n~,c have been developed specifically for
comminuting empty glass containers. By breaking the
containers into fragments, the recycling or disposal of the
glass material is facilitated. Machines developed for this
purpose typically include an inlet opening through which
the glass containers are inserted and an outlet opening
through which the broken glass fragments and glass dust are
ejected. To accomplish the breaking of the glass, these
~-rhin~q usually employ either a crushing apparatus or a
h -rm; 11 form of breaker apparatus.
A significant problem with prior art r~h;nf.c that
employ a crusher-type apparatus is a susceptibility of the
machine to jamming when metal or plastic is inadvertently
dropped into the machine ' s inlet . To UV~lUI '' this
difficulty, the machine will either have the ability to
crush the metal, or it will include an automatic dump

~ Wo gS/l387s ~ i7 ~ 3 3 5 PC~IUS93111223 ~
apparatus that allows the machine to purge its contents
when the anvil of the crushing ---h;ln; Fm meets an unusual
resistance. Both of these solutions add an undesirable
measure of ~ 1 ~Y; ty and expense to the device.
In r ~r~h; n~R that employ a h: ; 11 type of breaking
apparatus, frequent and expensive maintenance is often
required. The h: ' 1 l is usually comprised of a number
of rigid me~ al "ham.mers" that are mounted on the exterior
surface of a central rotatable shaf t . Each hammer must be
sharp and straight for the machine to operate efficiently.
However, during use the individual hammers rapidly become
dulled. In addition, when metal objects are inadvertently
fed into the device, these objects can bend or break some
of the hammers, which would necessitate the machine being
placed out of service until the damaged hammers can be
repaired or replaced.
One m~dification that has been used somewhat
successfull~ in vveLl ; n~ the failings of the prior art
h: ; 11 q is the use of flexible hammers in lieu of rigid
hammers. The fl~;hl~ hammers are typically in the form of
movable chains that are attached to the machine ' s central
shaf t in a spaced-apart conf iguration . The chains break
the glass and allow any metal fragments or metal containers
to rapidly pass through the device without causing any
damage .
The chain-type of flexible hammermills, while
providing a number of advantages over the prior art rigid
breaker bar h: ~~ ;llq, still suffer a number of failings.

=
~ WO 9S/13875 ~ 7 6 3 3 5
Firstly, the degree of comminution is uncontrolled, and as
a result relatively large diameter fragments of glass are
often ejected from the device's outlet. Since the
outputted material ; nr~ ri~q these large glass shards or
fr~,; LS mixed with the smaller glass particles, the
material cannot be easily recycled and is difficult to
handle. For example, a major use of pulverized glass is in
road construction where the pulverized glass is mixed with
asphalt or similar materials. The large glass fr~3 ~~ Ls
would make the mixture unsuitable for this application.
A second problem with prior art chain-type hammermills
is that the layout of the device normally required either
a gravity or blower induced flow of material through the
device in order to prevent the material from clogging the
unit. As a result, the machine would require a large
foundation. In addition, when a blower is used to enhance
flow through the device, a significant increase in
operating and maintenance costs is produced.
A third problem with prior art devices is that the
flowpath of the material within the machine is inefficient
and uncontrolled. This results in the high speed ejection
Of minir~lly broken material from the device's outlet.
This high speed material can cause damage to whatever
container or surf ace is being used to receive the broken
glass .
Lastly, the present methods of fastening the
chain-type of flail hammers to the rotatable shaft can
cause premature wear in both the attachment end of each

PCr/US93/11223 ~
flail and in the shaft itself. This can necessitate early
rPrlAC t of the flails and/or replA~ t or ~ hin;nrJ
of the shaf .
$ummarv of the Invention
The in~ention is a glass pulverizer that employs
two multi-f_ail ~c- ~l;es. Each assembly is located in a
separate drlm-shaped housing with the two housings having
contiguous side edges. The unit has a feed inlet situated
on a top surface of one of the housings and an outlet
located on a bottom surface of the other housing. Each
multi-flail assembly comprises a rotatable shaft that is
oriented along the associated housing ' s longitudinal axis .
In the area where the two hollc;n~c are joined together,
complementary orr~n;nr~c in the two housings form a conduit
to allow the initially broken glass to pass back and forth
between the two hr llc; n~C and their associated flail
as..~ c.
Each of the two housings are supported on a common
foundation and are parallel to each other. The two
housings are identical in diameter but have distinctly
different lengths. The second housing extends outwardly
past the f rst housing and it is in the bottom of the
outwardly extending portion in which the device's outlet is
located .
Preferably, each housing includes an interior liner of
a plastic material such as polyurethane. The liner is
expendable ~nd is primarily designed to absorb the impact

~ WO95/13875 ~ r ~ ij t 2 ~ 76335 PCT/USg3~ll223
and cutting forces caused by the inputted materials as they
rebound off the interior surface of the housings. In this
manner, the liner protects the interior surface of the
associated housing. The end of each housing is removable
to facilitate rPrl ~ t of the lining . In addition, when
the end of a housing is removed, the housing' s flail
assembly can be easily removed through the end of the
housing .
The two multi-flail assemblies are oriented in a
parallel manner and are centered within their associated
housing . Attached to the rotatable shaf t of each f lail
assembly are a plurality of separate, flexible flails. The
flails are oriented on the shaft in a spiral fashion so
that when the shaft is sp;nn;n~, the flails extend away
from the shaft and assume a spiral configuration about the
shaft. The spiral orientation causes the assemblies to
also function as an auger to move the broken glass through
the device in the direction of the outlet.
The flails can be in the form of multi-link chains,
wire ropes or pivotable links to which pivotable hammer
members may be attached. Optionally, the flails can be
encased in a plastic material to reduce wear and prevent
direct contact between the flail ' s flexible connection
points and the glass particles.
In addition, the flails may be in the form of a
flexible three piece unit. The disclosed flail includes a
specially designed member for attachment to the shaft. The
attachment member is fastened to the shaft using a fastener

W09S/13875 ~ ~ ~ ! `. 2 ~ 7~335 PCT/US93/1~223
., ~ ,,
assembly. The shaft has a flat surface or spot face
wherein when the fastener is properly tightened down on
this spot face, the flail will naturally assume a correct
orientation. The attachment member is pivotally engaged to
one end of a rigid link. The outer end of the link
;nrl--tlt~c a Fivotally engaged hammer member.
Each f lail is secured to its associated rotatable
shaft using a removable fastener. The shaft includes a
slot at each location where a flail is attached. Each slot
has a smooth bottom surface and rounded end and is
complementary in shape to the end portion of the flail.
Placing the flail in the slot assures the correct
orientation in the spiral for the proper function as an
auger. sy ~rigidly securing the end of the flail, the
incidence oi wear at the end of the flail and in the shaft
is significantly reduced.
The layout of the device is uniquely adapted to
control the through-flow and degree of pulverization of the
glass. When the glass initially enters the first housing,
it is rapidly broken into large pieces by the first flail
assembly. The glass fragments are then directed into an
"impact zone" located in the area where the two hr1lci n,Jc
are joined. In this area, the glass bounces back and forth
between the first and second flail assemblies until the
fragments have been reduced in size with approximately
ninety-five percent of the particles having a diameter
between 10 millimeters and 0.1 millimeters. At the same
time, the pulverized glass is drawn by the auger-type

~ Wo95/13875 ~ r r ~ 2 t 76335 YCIIIIS93111~23
action of the flail ~c~ ; es toward the outer end of the
device and eventually to the extreme outer end of the
second housing where the outlet is located.
By the time the fragments reach the machine's outlet,
they have been pulverized so that they form a non-sharp
cubic aggregate. The aggregate is moving at a relatively
low speed and in a controlled f ashion . The material then
exits the machine via the outlet and falls into a collector
placed below the device. In lieu of a col 1ector, the
material may be directed onto a conveyer which brings the
aggregate to another machine for further processing.
The invention optionally ; nr~ llld~.C a water spray unit
that directs a stream of water onto the glass as it enters
the first housing and is initially broken. The water does
not adversely affect the comminution process and functions
to reduce the ; nri~ nre of airborne glass dust that would
otherwise be produced by the unit.
~ o rotate the flail assA ' 1i,~c, a single motor is
connected to both rotatable shafts via a belt and pulley
system. The belts and pulleys are arLal~ged so that both
shafts and therefore both chain flail ~CSPmhl 1es spin in
the same direction. Alternatively, each flail assembly can
be provided with its own motor.
Due to the design of the device, gravity or blowers
are not required to move the pulverized glass through the
unit. This allows the user to .1; cpF-nSe with the significant
structure normally required to support the unit and also to
avoid the cost of devices dedicated to the moving of the

W0 95/1387~ , ~, r~ 3 $ PCI'NS93/11223 ~
glass .
8rief DescriPtion of the Drawinqs
Figure 1 is an elevational view of the invention.
Figure 2 is a plan view of the invention shown in
f igure 1 .
Figure 3 is an end view of the invention shown in
figure 1. A liquid spray system that can optionally be
added to the invention is shown in phantom in this f igure .
Figure 4 is a partially cross-sectioned elevational
view of the invention of figure 1 taken through the first
hous ing .
Figure 5 is a cross-section elevational view of the
invention shown in figure 1 taken through the second
housing .
Figure 6 is a cross-sectional end view of the
invention shown in f igure 1 taken at a point proximate the
end of the h~nlc;n~c shown in figure 3.
Figure 7 is a side view of an end portion of one of
the flail assemblies shown in figure 5.
Figure 8 is an end view of the flail assembly portion
shown in f i~ure 7 .
Figure 9 is a side view of an alternate embodiment of
a flail.
Figure 10 is a side view of another alternate
embodiment of a flail.
Figure 11 is a top view of the flail shown in figure
10.
:

9S/13875 .i~ 2 1 7633~ PCrlUS93111223
Detailed DescriPtion of the Drawinqs
Referring now to the drawings in greater detail,
- wherein like reference characters refer to like parts
throughout the several f igures, there is shown by the
numeral 1 a glass pulverizer unit . The unit ; nrl ll~lPC a
support rL .l~rk 2 upon which the pulverizer apparatus 6
rests .
As can be seen in f igures 1 and 2, the pulverizer
apparatus comprises a first cylindrical drum-like housing
8 that ;nrllltlPc a top mounted inlet structure 10. The
inlet structure has a central opening 12 that is riulL~,u~lded
by a funnel-shaped wall structure 14. Contiguous to the
first drum-shaped housing 8 is a second cylindrical
drum-like housing 16.
The second housing 16 is oriented wherein its
longitudinal axis is parallel to the longitudinal axis of
the first housing. Located on the bottom surface of the
second housing is an outlet structure 20. The outlet
; nclllflPR a circular wall structure 22 that ~UlL~.lUII~S a
central opening 24.
Figure 3 provides an end view of the apparatus in
which the unit ' s drive mechanism can be seen . The drive
-h~ni~m ;nrlu~pc a top mounted motor 26 that is connected
by a first belt 28 to a pulley 30 that is mounted on a
rotatable shaft 32. A second belt 34 connects the motor to
a pulley 36 that is mounted on a second rotatable shaft 38.
When the motor is operating, the belts cause shafts 32 and
38 to turn in the same dilection. Alternatively, but not

WO95113875 r C~ 2 ~ 76335 PCr/US93/11223 ~
shown, two motors may be employed with one motor connected
by pulley and belt to shaft 32 and the other motor
connected by pulley and belt to shaft 38.
Figure 14 provides a cross-sectional view of the first
housing 8 shown at a time when the shaf t is spinning .
Within the housing is a flail assembly 39 comprising the
center shafl: 32 that is located proximate the housing's
longitudinal axis and supported at each end by bearings 40.
The bearings are secured to the housing. The flail
assembly further comprises a plurality of flexible flails
42 that are each removably attached to shaf t 32 by
removable fasteners (detailed in figure 7). In the
embodiment shown, the flails are in the form of multi-link
lengths of chain. Each flail is attached to the shaft so
that it is spaced from any adjacent flails by both a
vertical and horizontal distance. The flails are thereby
located so that when the shaft is rotating, the centrifugal
force causes the flails to extend outwardly and form a
spiral/auge I shape.
The spiral shape formed by the flail assembly when it
is rotating performs two functions. Firstly, it causes an
effective and controlled comminution of the inputted glass
containers and/or glass ragments. Secondly, it causes the
glass to move toward an outer end 44 of the housing in a
direction parallel to the housing ' s longitudinal axis .
Also lccated within the housing is a removable plastic
liner 45. The liner fits snugly against the interior
surface of l:he housing and protects it from being damaged

WO95/13875 ~ i; .i i 2 1 7 6 335 PCT/US93)112~3
11
by direct contact with the high speed glass and/or metal
f ragments .
- Figure 5 provides a cross-sectional view of the second
housing 16 shown at a time when the shaft is spinning. In
this view, one can see a flail assembly 46 located within
housing 16 that is substantially identical to flail
assembly 39 except that it is longer. This second flail
assembly includes the rotatable shaft 38 (supported at each
end by housing-attached bearings 47 ) and a plurality of
flexible flails 50 removably secured to the shaft. The
flails are alldnyed and secured to the shaft so that they
will produce a spiral configuration when the shaft is
rotating in the same manner as employed in flail assembly
39 and having the same functionality. In addition, the
auger action of flail assembly 46 will move the pulverized
glass toward an outlet 20 that is located on the outer end
52 of the housing 16.
A removable plastic liner 51 is located within housing
16 and protects the interior surface of the housing from
flying pieces of glass or metal. It should be noted that
the liners 45 and 51 may be removed from their associated
housing by removing bolts 53 from the end portions 44 and
52 respectively and then removing the sheet metal screws 55
that fasten the liners to their associated housings.
Figure 6 provides a cross-sectional view taken across
the width of the device. In this view, the shafts and
individual flails can be seen as well as a contact zone 54
located between the two housings. Housing 8 has a long,

WO9511387~ 6:~35 PCT/US93/112~3
12
basically rectangular opening 56 located in its side. The
opening is contiguous to a similarly shaped opening s8 in
the side of housing 16. These two openings join the
interior of the two housings together and allow glass
fragments to bounce between the two hr- l~inqq and be
impacted by the flails of each of the two flail assemblies.
This causes the glass fragments to become completely
pulverized as they move toward the outer ends of the
housings under the auger type action of the flai
assemblies. When the glass reaches the outer end 44 of the
shorter hou~ing 8 ~ it bounces into the longer housing 16
where it is moved in a controlled manner by flail assembly
46 to the outer end 52 of the housing. Once the fully
pulverized llass reaches outlet 20, it falls through the
outlet l s center hole into a removable container or drum
(not shown) or onto a ~ veye:L (not shown).
To aid in reducing the amount of airborne glass
particles that are sometimes released from the device a
water spray system may optionally be included. The spray
system is shown in phantom in f igure 3 wherein a hose or
pipe 60 is connected to a source of water 62. A valve 64
is located in the hose adjacent the unit and functions to
control the volume of water passing through the hose.
Att ched to the outlet of the valve and mounted to
the side of the device l s inlet 1 o is a spray nozzle 66 .
A fine spray of liquid introduced as glass is inserted into
the device or at any other point is effective. This
wetting ac~ on causes ~e ~ ne glass par~c es o a~ere ~o

o 95/13875 ,~ 2 1 7 PCI IUS9311 1223
13
larger glass frA5 ts and thereby the amount of ~;rhnrne
glass dust at the outlet 20. The operation of the overall
device is for the most part unaffected by the added liquid.
Figures 7-9 provide detailed views of the structure of
the flail assemblies when said ~SA '1;PS are at rest. In
figures 7 and 8, an end portion of flail assembly 39 is
shown. It should be noted that a view of an end portion of
flail assembly 46 would be identical to the portion shown
in f igures 7 and 8 .
In the shaf t portion shown in f igures 7 and 8, the
attachment structure for the flails 42 may be readily seen.
Each of the flails is in the form of a length of chain that
has an inner end link 70 that is fitted into a
complementary slot 72 on the shaft. The slot has a flat
bottom surface 73 and has a width approximately equal to
the width of link 70. A fastener 74 extends through the
center opening of link 70 and a head portion 76 of the
fastener contacts the outer surface of the link to hold the
link into the slot. In this manner, link 70 is rigidly
fixed to the shaft with its bottom surface in full contact
with surface 73 of the slot. It should be noted that the
link of the flail adjacent to link 70 can pivot on link 70
and thereby maintain the flexibility of the flail. By
immovably fixing link 70 to the shaft, the shaft will not
become worn as the rest o~ the flail pivots and moves on
the end of link 70. It should also be noted that the slots
72 are rounded on one end and located in a staggered manner
to enable the previously described spiral orientation of

WO95/13875 ~ $ ! ~ 2 1 ~6~35 PCT/US93/llZZ3
14
the flails hhen the shaft is spinning.
Figure 9 shows a second embodiment of a flexible flail
80 which could be substituted or one or all of flails 42
or 50 descri ~ed in the primary ~ ' '; t . As shown, flail
80 incl~ld~fi a plurality of interconnected links 82 that are
contained within an elongated polyurethane or rubber cover
84. The col er is flexible and unctions to protect the
enclosed links and to minimize the amount of pulverized
glass that collects on the links. By eliminating the
direct contact between the glass particles and the links,
the wear life of the links are extended.
As also shown, a rotatable hammer 86 is located at the
distal end ( furthest from the connection point to the
shaft) of the flail 80. The hammer is made from an
?l y hard material such as hardened steel, ceramic or
carbide and is movably connected to the adjacent link 87.
The connect- on is provided by the end of link 87 being
received within an aperture 88 of the hammer. A pin 92 is
inserted through the hammer 86 and the adjacent link 87 to
secure the link 87 in place. The movable hammer is
especially useful when a non-frangible item has been
entered into the machine. When the hammer contacts the
item, the connection allows the hammer to rotate about its
connection to the adjacent link of the flail ana thereby
not become ( amaged or excessively worn by the impact with
the item.
Figures 10 and 11 show another embodiment of a
flexible flail 94 that can be substituted for one or all of

WO 95/13X75 ~ ~ ~ 2 1 7 6 3 3 5 PCIIUS93111~23
flails 42 or 50. The flail includes a connector 96 that is
designed to be secured to the shaft 32 or 38 of the flail
- assembly by a bolt or similar fastener 99 that would extend
through aperture 98. The fastener 99 is designed to be
threadably engaged to a complementary threaded bore ( such
as 74) in the shaft. The fastener 99 thereby functions to
secure and correctly position the connector 96 on the
shaft's surface. In this manner, each flail can be secured
to the shaft to obtain the desired spiral orientation of
the flails.
Attached to the connector 96 is a link 100 that is
pref erably made of a hardened steel material . The
attachment is made using a press-fit pin 102 that extends
through apertures 104 in the connector and which only
loosely fits through an aperture 106 in the link. In this
manner, the rod is able to pivot about pin 102. A plastic
bushing can be used to protect the pin 102. The outer or
distal end of the rod has a pivotally attached hammer 108.
The hammer member is preferably made of a hardened steel
material and is connected to the rod by a pivot pin 110.
The pin is press- fit into apertures 112 of the hammer and
loosely fits through an aperture 114 of the rod. Plastic
bushings 113 at four locations, keep the link 100 from
contacting and wearing the connector 96 and the hammer 108.
In this manner, the hammer can pivot on the end of the rod
thereby providing the hammer with a second pivot point
relative to the shaf t .
To summarize the operation of the unit, the user

WO 95/13875 ~ L; r,i, ~ 2 1 7 6:3 3 5 PCT/US93111223
16
inputs glass containers through the inlet 10. The
containers break as they contact the flf~x;hle flails that
are moving below the inlet . The resultant f ragments of
broken glass are then swept by the flails into the impact
zone 54 between the two housings. The fragments bounce
back and forth between the individual flails of the two
flail assemblies and thereby become fully comminuted into
small particles and reach a size wherein approximately
ninety-five percent of the particles are between 1 and 0.1
millimeter in diameter. During the comminution process,
the auger action of the two flail assemblies causes the
glass particles to move toward the outer ends of each
housing. When the particles reach the outer end 44 of the
shorter housing 8, they are swept into the flails of the
longer housing where they are then propelled in a
controlled fashion toward the outlet 20. The particles
then fall hrough the outlet's center hole 24 into a
removable drum or similar container (not shown) or onto a
cul.veye. (nût shown).
The em 70diments disclosed herein have been .li sC-lcce~l
for the pur-70se of f.~ rizing the reader with the novel
aspects of the invention. Although preferred: ~ ~ir ts
of the invention have been shown and described, many
changes, mo(~ifications and substitutions may be made by one
having ordinary skill in the art without necessarily
departing from the spirit and scope of the invention as
described in the following claims.

Dessin représentatif
Une figure unique qui représente un dessin illustrant l'invention.
États administratifs

2024-08-01 : Dans le cadre de la transition vers les Brevets de nouvelle génération (BNG), la base de données sur les brevets canadiens (BDBC) contient désormais un Historique d'événement plus détaillé, qui reproduit le Journal des événements de notre nouvelle solution interne.

Veuillez noter que les événements débutant par « Inactive : » se réfèrent à des événements qui ne sont plus utilisés dans notre nouvelle solution interne.

Pour une meilleure compréhension de l'état de la demande ou brevet qui figure sur cette page, la rubrique Mise en garde , et les descriptions de Brevet , Historique d'événement , Taxes périodiques et Historique des paiements devraient être consultées.

Historique d'événement

Description Date
Inactive : CIB désactivée 2011-07-29
Inactive : CIB dérivée en 1re pos. est < 2010-02-01
Inactive : CIB de MCD 2010-02-01
Demande non rétablie avant l'échéance 2005-01-10
Inactive : Morte - Aucune rép. dem. par.30(2) Règles 2005-01-10
Réputée abandonnée - omission de répondre à un avis sur les taxes pour le maintien en état 2004-11-15
Inactive : Abandon. - Aucune rép dem par.30(2) Règles 2004-01-12
Inactive : Dem. de l'examinateur par.30(2) Règles 2003-07-10
Inactive : Grandeur de l'entité changée 2002-11-20
Modification reçue - modification volontaire 2001-05-09
Inactive : Dem. traitée sur TS dès date d'ent. journal 2000-11-23
Lettre envoyée 2000-11-23
Inactive : Renseign. sur l'état - Complets dès date d'ent. journ. 2000-11-23
Toutes les exigences pour l'examen - jugée conforme 2000-11-07
Exigences pour une requête d'examen - jugée conforme 2000-11-07
Demande publiée (accessible au public) 1995-05-26

Historique d'abandonnement

Date d'abandonnement Raison Date de rétablissement
2004-11-15

Taxes périodiques

Le dernier paiement a été reçu le 2003-10-22

Avis : Si le paiement en totalité n'a pas été reçu au plus tard à la date indiquée, une taxe supplémentaire peut être imposée, soit une des taxes suivantes :

  • taxe de rétablissement ;
  • taxe pour paiement en souffrance ; ou
  • taxe additionnelle pour le renversement d'une péremption réputée.

Veuillez vous référer à la page web des taxes sur les brevets de l'OPIC pour voir tous les montants actuels des taxes.

Historique des taxes

Type de taxes Anniversaire Échéance Date payée
TM (demande, 4e anniv.) - petite 04 1997-11-17 1997-11-14
TM (demande, 5e anniv.) - petite 05 1998-11-16 1998-11-16
TM (demande, 6e anniv.) - petite 06 1999-11-15 1999-11-12
Requête d'examen - petite 2000-11-07
TM (demande, 7e anniv.) - petite 07 2000-11-15 2000-11-08
TM (demande, 8e anniv.) - petite 08 2001-11-15 2001-11-09
TM (demande, 9e anniv.) - générale 09 2002-11-15 2002-11-12
TM (demande, 10e anniv.) - générale 10 2003-11-17 2003-10-22
Titulaires au dossier

Les titulaires actuels et antérieures au dossier sont affichés en ordre alphabétique.

Titulaires actuels au dossier
ANDELA TOOL AND MACHINE, INC.
Titulaires antérieures au dossier
JAMES ANDELA
Les propriétaires antérieurs qui ne figurent pas dans la liste des « Propriétaires au dossier » apparaîtront dans d'autres documents au dossier.
Documents

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Description du
Document 
Date
(aaaa-mm-jj) 
Nombre de pages   Taille de l'image (Ko) 
Dessin représentatif 1997-06-17 1 7
Revendications 1995-05-26 6 180
Description 1995-05-26 16 587
Page couverture 1996-08-16 1 13
Abrégé 1995-05-26 1 43
Dessins 1995-05-26 4 90
Description 2001-05-09 16 590
Revendications 2001-05-09 3 87
Rappel - requête d'examen 2000-07-18 1 115
Accusé de réception de la requête d'examen 2000-11-23 1 180
Courtoisie - Lettre d'abandon (R30(2)) 2004-03-22 1 166
Courtoisie - Lettre d'abandon (taxe de maintien en état) 2005-01-10 1 175
PCT 1996-05-10 9 328
Taxes 2000-11-08 1 31
Taxes 1996-11-12 1 33
Taxes 1996-05-10 1 35