CA1325919C - Semi-automatic stuffing machine, casing brake and turret assembly - Google Patents

Semi-automatic stuffing machine, casing brake and turret assembly

Info

Publication number
CA1325919C
CA1325919C CA 613059 CA613059A CA1325919C CA 1325919 C CA1325919 C CA 1325919C CA 613059 CA613059 CA 613059 CA 613059 A CA613059 A CA 613059A CA 1325919 C CA1325919 C CA 1325919C
Authority
CA
Canada
Prior art keywords
horn
stuffing
product
casing
brake
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CA 613059
Other languages
French (fr)
Inventor
Alfred J. Evans
R. Clay Dunigan
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Delaware Capital Formation Inc
Original Assignee
Delaware Capital Formation Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US07/251,668 external-priority patent/US4847952A/en
Priority claimed from US07/251,667 external-priority patent/US4847953A/en
Application filed by Delaware Capital Formation Inc filed Critical Delaware Capital Formation Inc
Application granted granted Critical
Publication of CA1325919C publication Critical patent/CA1325919C/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A22BUTCHERING; MEAT TREATMENT; PROCESSING POULTRY OR FISH
    • A22CPROCESSING MEAT, POULTRY, OR FISH
    • A22C11/00Sausage making ; Apparatus for handling or conveying sausage products during manufacture
    • A22C11/02Sausage filling or stuffing machines
    • AHUMAN NECESSITIES
    • A22BUTCHERING; MEAT TREATMENT; PROCESSING POULTRY OR FISH
    • A22CPROCESSING MEAT, POULTRY, OR FISH
    • A22C11/00Sausage making ; Apparatus for handling or conveying sausage products during manufacture
    • A22C11/02Sausage filling or stuffing machines
    • A22C11/0209Stuffing horn assembly
    • A22C11/0218Stuffing horn assembly with multiple interchangeable stuffing horns, e.g. magazine arrangements
    • AHUMAN NECESSITIES
    • A22BUTCHERING; MEAT TREATMENT; PROCESSING POULTRY OR FISH
    • A22CPROCESSING MEAT, POULTRY, OR FISH
    • A22C11/00Sausage making ; Apparatus for handling or conveying sausage products during manufacture
    • A22C11/02Sausage filling or stuffing machines
    • A22C11/0245Controlling devices
    • A22C11/0263Braking means

Landscapes

  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Wood Science & Technology (AREA)
  • Zoology (AREA)
  • Food Science & Technology (AREA)
  • Mechanical Engineering (AREA)
  • Automatic Assembly (AREA)
  • Auxiliary Devices For And Details Of Packaging Control (AREA)
  • Processing Of Meat And Fish (AREA)
  • Containers And Plastic Fillers For Packaging (AREA)

Abstract

ABSTRACT OF THE DISCLOSURE

An improved stuffing horn and casing brake combination in a stuffing machine comprises a stuffing horn defining a second horn portion with second-horn-portion outer dimensions reduced in comparison to the first-horn-portion dimensions of a first horn portion.
A casing brake mechanism intermittently brakes the movement of casing from the stuffing horn past a horn discharge opening by applying tension to the casing on the horn, and has a first brake portion and a second brake portion, where the brake portions have internal dimensions sized relative to the horn-portion dimensions for applying tension to casing on the horn between both brake portions and only the first horn portion, or between only the second brake portion and the first horn portion, when either the second brake portion is, or both portions are, in a braking position relative to the first horn portion. A full braking is applied to the casing by both brake portions and a reduced braking is applied to the casing by only the second brake portion, which provides for full tension and braking during product stuffing and reduced tension and braking during product clipping. A stuffing horn turret assembly includes a turret assembly body, and separate stuffing horns where the turret assembly body defines a cylindrical central passage and cylindrical branching passages. The central passage defines a central passage centerline, and the branching passages, which are in open communication with the central passage, are each angled at an acute angle relative to the central passage and the central passage centerline.
The separate stuffing horns each has a first portion defining a first portion passage substantially parallel to the central passage and a second portion which defines a second passage in open communication with the first portion passage, is angled at the acute angle relative to the central passage, and is in open communication with a branch passage. The assembly further comprises collars releasably fastened to the turret assembly body along the branching passages and retaining the stuffing horns to the turret assembly body. A product discharge tray is supported and its movement directed by a mechanical linkage. A powered actuator mechanism drives the mechanical linkage, and a product recognition mechanism initiates action of the actuator mechanism. Under power of the actuator mechanism, the discharge tray is directed by the mechanical linkage in a bidirectional motion, e.g., in a) the direction of discharge, and simultaneously in b) a direction transverse to the direction of discharge.
While the tray is moving, a leading edge of the discharge tray climbs an adjacent guide mechanism to cause the tray to tilt. Product on the tray is moved away from the stuffing horn, permitting rapid continuation of stuffing, and yet discharged after minimal movement in an orientation collinear with the discharge axis of the horn, substantially at the same height as the discharge axis of the horn.

Description

- 1- 13~919 Improved Semi-Automatic Stuffing Machine, Casing Brake and Turret Assembly BACRGROIJND OF THE INVENTION

This invention relates to food processing machinery, more particularly packaging machines such as stuffing machines of the type which make sausages and similar stuffed meat and stuffed food products, and most particularly, to a stuffing machine incorporating a stuffing horn turret assembly, casing brake and discharge tray mechanism.
Sausage making and the making of similar stuffed meat and food products have become highly automated.
- As a result of significant, valuable research in the United States, a variety of machines have been successfully developed for the automated and semi-automated production of stuffed sausages, meats, and foods. One such machine is disclosed in U.S. Patent No. 4,142,273 issued March 6, 1979 to Robert W. Gay and assigned to Rheem Manufacturing Company, New York, N.Y.
In a machine such as that disclos2d in the identified patent, sausage material is pumped from a vat to a stuffing horn turret assembly. The assembly has multiple stuffing horns, and sequences the horns through servicing, stuf$ing and sausage end clipping positions. Shirred casing is applied over the end of a stuffing horn in the servicing position, and in the stuffing position of the horn, the casing and material pumped to the horn leave the horn simultaneously, through a casing brake. The stuffing material fills the casing and the casing maintains the material under slight pressure. ~h~ casing brake permits the casing to exit undçr uniform tension. Adjacent the casing brake, a clipping mechanism intermittently acts to ~ .
- 2 - 132~l9 :

void the casing past the brake and clips the stuffed casing, to define the end of an sxiting product and the beginning of the next product. A representative, highly desirable clipping mechanism is disclosed in U.S. Patent No. 4,001,926 issusd January ll, 1977 to Clyde R. Velarde and assigned to Rheem Manufacturing Company, New York, N.Y. The exiting product exits onto a discharge tray, from which the product is dropped to a conveyor line or for manual handling. Discharge occurs by a rolling, downward and lateral discharge to a level below the machine working height.
Another notable machine is disclosed in U.S.
Patent No. 4,675,945 issued on June 30, 1987 to Alfred Evans et al. and assigned to Tipper Tie, Inc., Apex, lS N.C. In the machine of the identified Evans patent, a mechanism is provided for movement of the casing braXe, to intermittently relieve tension on the casing during clipping of product. While the machines of U.S.
Patent No. 4,142,273 and U.S. Patent No. 4,675,945 have proven highly desirable, significant opportunity has existed for improvement.
',~ .

. .. -: . - . .. ,: ,.. . ...... .. , .. ~ . . . .. . . . .. . ..... . . ... . .... . ... . . . .. ..

- - , : : - -.. . . - . . .- .: .

_ 3 _ 13 2 5 9 1~

SUMMARY OF THE INVEN~ION

In a principal aspect, the present invention comprises an improved stuffing horn and casing brake combination in a stuffing machine. The combination comprises a stuffing ho~n defining a discharge opening, adapted to receive casing, and having two specialized portions. The specialized portions are a first horn portion and a second horn portion, where the first horn portion has first-horn-portion outer dimensions and the second horn portion has second-horn-portion outer dimensions which are reducçd in comparison to the first-horn-portion dimensions. The combination further comprises a casing brake mechanism for intermittently braking the movement of casing from the stuffing horn past the discharge opening by applying tension to the casing on the horn, and also having two specialized portions. The two specialized brake portions are a f~rst brake portion and a second brake portion, where the brake portions have internal dimensions sized relative to the horn-portion dimensions for applying tension to casing on the horn between both brake portions and only the ~rst horn portion, or between only the second braXe portion and the first horn portion, when either the second brake portion is, or both portions are, in a braking position relative to the first horn portion.
The stuffing horn and casing brake mechanism are mou~ted on the machine for movement relative to each other to and from a stuffing position of the casing brake means and the stuffing horn and to and from a clipping position of the casing brake means and the stuffing horn. In the stuffing position, the first 1325919 ~
~ 4 -brake portion and the second brake portion are both in a braking position relative to the first horn portion and both cooperate with the first horn portion for applying tension to the casing. In the clipping position, the second brake portion remains in a braking position relative to the first horn portion and it, but only it, cooperates with the first horn portion for braking casing.
With this combination, a full braking may be applied to the casing by b~oth brake portions and a reduced braking may be appl;Led to the casing by only the second brake portion, which provides for full tension and braking during product stuffing and reduced tension and braking during product clipping.
In another principal aspect, the invention comprises a stuffing horn turret assembly which includes a turret assembly body, and separate stuffing horns where the turret assembly body defines a cylindrical central passage and cylindrical branching passages. The central passage defines a central passage centerline, and the branching passages, which are in open communication with the central passage, are each angled at an acute angle relative to the central passage and the central passage centerline. The separate stuffing horns each has a first portion defining a first portion passage substantially parallel to the central passage and a second portion which defines a second passage in open communication with the first portion passage, is angled at the acute angle relative to the central passage, and is in open communication with a branch passage. The assembly further comprises collars releasably fastened to the turret assembly body along the branching passages and .. .

_ 5 _ 132591~

retaining the stuffing horns to the turret assembly body.
In another principal aspe~t, the invention constitutes an improved product discharge tray for a stuffing machine which satisfies the needs of such a device uniquely, in a minimum of space, and with benefits and advantages not previously attainable. A
full understanding and appreciation of the invention -and its objects, benefits and advantages is best obtained by a full appreciation of the invention in the context of the art.
In summary, the invention includes a discharge tray, a mechanical linkage supporting and directing movement of the tray, a powered actuator mechanism -driving the mechanical linkage, and a product recognition mechanism for initiating action of the -actuator mechanism. Under power of the actuator m~chanism, the discharge tray is directed by the mechanical linkage in a bidirectional motion, e.g., in a) the direction of discharge, and simultaneously in b) a direction transverse to the direction of discharge.
While the tray is moving, a leading edge of the discharge tray climbs an adjacent guide mechanism. The tray tilts. Product on the tray i5 moved away from the stuf~ing horn, permitting rapid continuation of stuffing, and yet discharged after minimal, gentle movement in an orientation collinear with the discharge axis of the horn, substantially at the same height as the discharge axis of the horn.
As preferred, and as will be described in detail, the mechanical linkage preferably comprises a parallelogram linkage. Also as preferred, the actuator mechanism comprises a rotary actuator driving a middle link of the parallelogram linkage at a vertical-axis ':
-, - 6 - 1 3 2 ~

pivot connection, and the tray is mounted to the links of the linkage for pivoting about horizontal-axis pivot connections. Recognition of product by the product recognition mechanism causes the rotary actuator to initiate; the actuator then cycles the mechanical linkage and tray through discharge, and a return to starting positions.
These and other principal aspects the invention are more full appreciated by a reading of the detailed description of the preferred embodiment of the invention, which follGws.

.: ' -,.:
" ' -,'':, :.''.' . ", ~ 7 ~ 132~91~ ~
~.-....
BRIEF DESCRIPTION OF THE DRAWING

The accompanying drawing illustrates the preferred embodiment of the invention, and the machine ~ .
of the drawing is not the only form which the invention 5as claimed may take. The drawing and the following ~:
detailed description of the preferred embodiment are intended to limit the claims only as consistent with the law of claim interpretation, whereby claims are ` .
interpreted in light of the specifieation and drawing.
10For orientation of the reader to the drawing, and for ease of beginning of reading of the following description, a brief description of the drawing is as ~.
follows: .
Figure 1 is an overall perspective view of the ::. .
preferred embodiment of the invention, which is a sophisticated semi-automated stuffing machine; :- .
Figure 2 is a side elevation view of the machine of Figure 1, with portions sectioned and additional .-portions broken away to reveal internal detail; .
20Figure 3 is a top plan view of a product di~charge tray of the machine of Figure 1, in a product :.
receiving position;
Figure 4 is a top plan Yiew of .the product -~
discharge tray, in a discharging position;
25Figure 5 is a top plan view of a portion of the .. : .
machine of Figure 1, se~tioned and broken away to ~ . .
reveal internal detail, with the stuffing horn turret ~-:
assembly and.casing brake located to place a stuffing :.-horn and the casing brake in stuffing position; :.
30Figure 6 is a top plan view of the same portion :- .
of the machine of Figure 1 as in Figure 5, again sectioned and ~roken away to reveal internal detail, .~.

- 8 - 132~919 ::
.''~' .
with the stuffing horn turret assembly and casing brake located to place the same stuffing horn and the casing `
brake in clipping position;
Figure 7 is a top plan view of the same portion ..
of the machine of Figure 1 as .in Figure 5 and Figure 6, :
again sectioned and broken away to reveal internal dotail, with the stuffing horn turret assembly and -- ~
casing brake located to place the stuffing horns in `:
servicing position; :
Figure 8 is a partial cross-sectional view of :-.
the machine of Figure 1, taken along line 8-8 of Figure ~.
7, and depicting a yoke which drives the stuffing horn turret assembly in axial movement;
Figure 9 is a perspecti.ve view of the stuffing .; -.
horn turret assembly; :` . :
Figure 10 is a rear end view of the stuffing ~.
turret horn assembly; -~
Figure 11 is a split cross-sectional view of the .. :
stuffing horn turret assembly, depicting the assembly :
in the servicing position of the horns below centerl~ne .
11-11 and depicting the assembly in the stuffing position of a horn above the centerline 11-11;
Pigure 12 i~ an end elevation view of the ~:
machine;
Figure 13 is a diagrammatic view of the clipping :
mechanism and turret assembly o~ the machine;
Figure 14 is a detail, cross-sectional view of the casing brake and a stuffing horn of the machine in `:
a stuffing position; ~;
Figure 15 is a detail, cross-sectional view of the casing brake and a stuffing horn of the machine in a clipping position; ::
Figure 16 is a detail, end elevation view of the : , - .,. , , . . . , .. ... ,. - . ~ . -132~919 g product discharge tray mechanism of the machine, in a product receiving state of operation, as in Figure 5;
Figure 17 is a detail view of a mounting of the product discharge tray; and Figure 18 is a detail, cross-sectional view of the product discharge tray mechanism of the machine, in a product discharging state of operation.
The description which follows refers to the componentry of the machine in such spatial terms as "upper", "lower" "left", "right", etc. Terms such as these, which depend of the specific spatial orientation of the components are intended for the aid of the reader, and except as incorporated into the claims, not as a limitation on the possible orientation of components in any possible alternate, but covered, embodiment of the invention.

132~919 ' :

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

U.S. Patent Nos. 4,001,926; 4,023,238;
4,142,273; 4,675,945 and 4,766,713 are incorporated by reference.
Referring to Yigure 1, the preferred form of the invention is embodied in a stuffing machine generally designated 10 and shown in a static, non-operating condition. The appearance of the machine 10 is ornamental in its streamlining, and may be protected by design patent. The machine 10 includes a stuffing horn turret assembly 12, including multiple stuffing horns 14, 16, 18. Comminuted material to be cased enters the machine from the right in Figure 1, under pressure of a pump (not shown and not a part of the invention). The ma~erial, as shown at 20 in Figure 5, exits a stuffing horn, as casing 22 stored on the horn also exits, forming a cased product 24 on a product discharge tray 26. In the area designated 28 in Figure 1, a clipping mechanism, shown diagrammatically at 30 in Figure 13, intermittently clips voided casing to form ends of discharged products and beginnings of next products.
Clips are fed to the clipping mechanism, through the machins, from a pancake tray 32 atop the machine.
Hinged translucent guards 34, 35, 36 protect the machine operator and increase sanitation. All the foregoing is mounted atop a base or frame generally 38, atop wheels.
As stated, the machine 10 is semi-automatic.
The machine relies upon operator input at control panel ~o 40 to direct turret movement during start up for casing loading and horn filling. Once loading is complete the operator places the control~ in an automatic mode and 11- 132~919 initiates a cycle start function. This aation starts the system on an automatic mocle in which all movements are controlled automatically by electro/pneumatic control devices. Product size iS controlled by either portion control contained within the filler (not shown;
not a part of the invention) or length measurements via a trip paddle 39 (Figure 18). Operator installation of casing on the horns, while in the servicing position, i~ also required. Activation, and de-activation, is provided by control 42, also through pneumatics.
Referring to Figures 5-11, the stuffing horn turret assembly 12 includes a turret assembly body 44.
The stuffing horns 14, 16, 18 are components separate from the body 44, held in place by collars 46, 48, 50, as hereinafter described. A yoke 52 includes a ring portion 54 ~itted over an exterior groove of the body 44. The body is rotatable relative to the yoke 52.
The yoke, also depicted in Figure 8, extends to a remote portion 56. Intermediate the ring portion and the remote portion, a multiple cylinder drive is attached to the yoke 52.
Ths turret assembly body 44 is mounted on a manifold tube 58, for movement along the tube. As can be seen by comparing Figures 5, 6, and 7, the turret assembly 12 is movable among at least three axial positions. ~ovement i8 under the power of the multiple cylinder drive attached to the yoke 52. The turret assembly is also removable, by removal of pins 57, 59.
A yoke guide rod 60 affixed to the frame extends parallel to the manifold tube 58. The remote portion 56 of the yoke 52 is slidable along the guide rod 60.
The multiple cylinder drive attached to the yoke 52 inoludes a first yoke drive cylinder 62, and a second -: ' :-132~9~

yoke drive cylinder 64. The cylinders 62, 64 and their ' cylinder rods extend parallel to the manif~ld tube 58 and the guide rod 60. A first cylinder rod 66 of the first cylinder 62 is affixed at its remote end to the frame. A second cylinder rod 68 is affixed at its remote end to the yoke 52. While the rods 66, 68 are non-extended, i.e., retracted, the yoke 52 and turret ~ -assembly 12 occupy forward positions as in Figure 5.
Extension of the first rod 66 from its cylinder 62 drives the yoke 52 and the turret assembly 12 to middle positions as in Figure 6. Extension of the second rod 68 from its cylinder 64 drives the yoXe 52 and the turret assembly 12 to rearward positions as in Figure 7.
15A turret rotary actuator 70 is connected by a ~
drive belt 72 to a sprocket 74. The actuator 70 i5: ~ -mounted to the frame 38. The sprocket 74 is rotatable around the manifold tube 58 rearward of the turret assembly 12. The belt extends transversely to the manifold tube 58, and rotation of the sprocket 74 is about an axis collinear with the centerline of the manifold tube 58.
Pins 76 project forward axially from the sprocket 74. As best seen in Figure 10, pin openings 78 are defined in the rearward face of the turret assembly body 44. The pins 76 are sized to project into the pin openings 78, when the pin openings 78 are brought into proximity with the pins 76.
Referring to Figure 7, in the rearward positions 30of the yoke 52 and the turret assembly 12, the pins 76 project into the pin openings 78. The turret assembly 12 comes under the rotational control of the sprocket 74, and via the belt 72, of the turret rotary actuator 70. Thus, the rotational positions of the horns 14, -' ' ' 'i`' " ~ " ""' ' ~ ' -" ' ' ' .; ~ .

- 13 ~ 1 32~9~9 16, 18 are determined by the actuator 70. The horns 14, 16, 18 are spaced at equal angles radially, and the actuator 70 is adapted to index the horns 14, 16, 18 through an arc equal to the spacing between two horns.
In the rearward position of the yoke 52 and turret assembly 12, the horns 14, 16, 18 are, by definition, in a servicing position. As shown in Figures 1 and 7, the horn can be reached by an operator for placement of casing on the horns, or otherwise as needed. In the forward position of the horns, as with horn 14 in Figure S, one of the horns, the horn farthest the operator and control panel 40, is brought into a stuffing position relative to a casing bra~e mechanism 82. In the middle position of the horns, as in Figures 6-18, the same horn as was in the stuffing position is placed in a clipping position, to be described.
Referring to Figure 11, the manifold tube 58 defines an internal, cylindrical manifold passage 84.
The turret assembly body 44, formed of Delrintm, de~ines a cylindrical central passage 86, which has a centerline 81 (also line 11-11 in Figure 11). The manifold tube 58 i8 fitted through the central passage 86, and the manifold passag0 84 is collinear with the centerline 81. The turret assembly body 44 also defines multiple branch tubes such as 90, 94 for each horn 14, 16, 18. The branch tubes such as 9o, 94 each extend at an acute angle, specifically at approximately 45, from the central passage 86. A radial opening 96 in the manifold tube 58 provides communication between the mani~old passage 84 and a single branch tube of the turret assembly body 44. The radial opening is located to provide coDunication to the branch tube to which a - 14 - 132~91~ ~ ~

horn is in communication when the horn is in the stuffing position.
Each stainless steel stuffing hor~ 14, 16, 18 is in open communication with a branch tube such as 90, 94. As shown in Figures 9 and 11, each collar 46, 48, 50, formed of stainless steel, is releasably fastened by screw threads into the turret assembly body 44 about a stuffing horn 14, 16, 18 at the external opening of a branch tube such as 90, 94. The collar retains an annular flange of the horn against the body, and thereby retains the horn to the body.
A first portion 98 of each stuffing horn, as shown in Figure 11, extends parallel to the manifold tube 58 and d~fines a passaqe parallel to the central passage 86 and manifold passage 84. A second portion 100 of each horn continues from the first portion 98, and extends at the same acute angle relative to the centerline 81 as the branch tubes extend.
Forward of the stuffing horn~ 14, 16, 18, the manifold tube 58 has a reduced outer diameter. A
sleeve 104 is fitted on the reduced diameter portion, and a piston pump 106 is attached to the sleeve 104.
The pisSon pump 106 drives a piston 108 within the manifold tube 58. The piston 108 and piston pump 106 are colllnear with the manifold tube 58. Extension of the rod 110 of the piston pump 106 drives the piston 108 toward the radial opening 96 in the manifold tube 58, causing operation in the manner of U.S. Patent No.
4,023,238. A face 112 of the piston 108 is inclined at the same acute angle as the branch tube with which the radial opening 96 communicates, for smoothly directing material from the manifold passage 84 through the radial opening and into the branch tube.
:: .

~32~919 A mechanism as in U.S. Patent No. 4,675,945 (Figures lo and 11 thereof) reciprocates the casing brake mechanism 82 forward and rearward a short distance. The drive cylinder 62 also moves each stuffing horn, sequentially, to and from the stuffing and clipping positions. Referring to Figures 14 and 15, movement of the casing brake mechanism 82 and horns i8 co ordinated. While a horn is in the stuffing position, the casing ~rake mechanism is also in a forward, stuffing position. While the horn is in the clipping position, ths casing brake mechanism is also in a rearward, clipping position. The horn moves farther to the clipping position than the casing brake mechanism moves to the clipping position, and as a result, the horn is farther removed from the casing brake mechanism in the clipping position, as in Figure 15, than in the stuffing position, as in Figure 14.
The casing brake mechanism 82 includes two annular casing brakes 114, 116. The two casing brakes 114, 116 define two portions of the casing brake mechanism. A first of the casing brakes, brake 114, is ~orward of the second brake, brake 116. As most preferred, the brakes 114, 116 are identical. A first annular fltting 118 61ip fits to an outer frame 120 and i~ used to space casing brakes 114, 116. A second annular ~itting 122 screw fastens to the outer frame 120 and retains components 114, 116, 118 within 120.
Adjusting annular fitting 122 applies a compressive force to the rear face of casing brake 116 which in turn applies a force to annular fitting 118 which in turn applies a compressive force to the rear face of annular fitting 114. This action adjustably tighten the brakes 11~, 116 which will vary the tensions of the casing on the horn. As with a conventional singular ~ ' ''''.

- 16 - 132~9~9 casing brake, each casing brakes 114, 116 tensions the casing shirred on a horn as it exits the horn through the brake. In the case of the two brakes 114, 116, each brake contributes to the required tension while the brake mechanism 82 is in the stuffing position.
In contrast, in the clipping position of the brake mechanism 82, only the second brake 116 provides tension to the shirred casing. The first portion 98 of each stuffing horn includes two segments, a first segment 124, and a second segment 126. The second segment 126 has outer dimensions defined by an outer diameter which are reduced in comparison to the outer dimensions defined by the outer diameter of the first segment 124. The first segment protrudes into the casing brake mechanism into operative association with both the first casing brake and the second casing brake when the casing brake mechanism and stuffing horn are in the stuffing position. The first segment protrudes into the casing brake mechanism into operative association with the second casing brake only when the mechanism and horn are in the clipping position. The second, reduced diameter segment protrudes into the first casing brake when the mechanism and horn are in the clipping position, but does not cooperate with the second brake to provide braking. Protrusion of the second segment in the clipping position assures ready return to the stuffing position by continued guidance of shirred casing past the first brake.
As a result of the configuration of the horn segments and brakes, a full braking is applied to the shirred casing for stuffing, and a partial braking is applied for clipping.
As stated above, and shown in the incorporated patents, the clipping mechanism includes a punch which . . :: . .

- 17 - 132~9 ~

drives clips around voided casing against a die to form ends of discharged products and beginnings of next products. The clipping machanism 30 includes pairs of voider plates (not shown) which define a throat through which the casing passes. The throat has an axial extent parallel to the axial extent of turret assembly 12 and a transverse extent perpendicular thereto. The voider plates narrow the throat about the casing transversely, to gather the casing tightly. Clips are placed transversely.
In a common stuffing machine, a clipping mechanism is located adjacent a casing brake, opposite a stuffing horn. Whatever the movement of the casing brake and horn, the casing brake and horn do not move in the path of the clipping mechanism. In the most preferred embodiment of the subject invention, and in the stuffing position of the brake mechanism 82 and a stu~fing horn, both the brake mechanism 82 and stuffing horn are in the path of the clipping mechanism 30. By definition, they are "in" the clipper, i.e., in the I'clipping zone". Movement from the stuffing position to the clipping position removes the casing brake mechan~sm 82 and stu~fing horn from the clipper and its path.
Also in the most preferred embodiment, movement from the stuffing position to the clipping position, and retraction of the piston pump 106, provide substantially all voiding of the casing, in contrast to voiding being substantially completely accomplished by the voiding plates of the clipping mechanism. Such voiding occurs as pumping of co~minuted material is discontinued during movement of the horn and brake mechanism 82 to the clipping position. The piston pump .~ '; ' ' ' ' ' . . . ' ', '. ' ' - 18 - 13 2 ~ 9 ~ ~

106 is also retracted, further diminishing pressure on the comminuted material at the opening of the horn.
The movement to the clipping position causes shirred casing to pass through the brake mechanism 82 and extend forward of the horn. Because pumping of comminuted material from the supply is discontinued and the piston pump 106 is retracted, the casing passes through the brake mechanism substantially empty. To any extent comminuted material remains under pressure at the opening of the horn despite release of pressure at the base of the pertinent branch tube behind the horn, and to any extent comminuted material continues to flow from the horn, the second casing brake 116 provides the important function of preventing backflow to the outside of the stuffing horn in the area of the shirred casing. The casinq brake 116 continues a contact with the stuffing horn, confining backflow such that it occurs forward of the casing brake mechanism 82, only.
Referring again to Figure 1, an improved discharge tray mechanism for the stuffing machine includes the product discharge tray 26, beæt seen in Figure 1. The tray 26 is elongated in the discharge direction and curved in the direction transverse to the discharge direction (hereafter "the transverse direction").
Referring to Figures 3 and 4, multiple, parallel, equilength mechanical links 118 are mounted to a tray frame compression me~ber 129 (Figures 16, 18) by first pivots 124 and 128. A mechanical link 120 is attached to a rotary actuator output shaft 161 (Figure 16) and keyed to an output shaft 161 by an output shaft key 163 (Figure 16). The output shaft 163 constitutes ' ': ' ' ' a first pivot axis 126 for the mechanical link 120 SFigures 3, 4 and 16).
~he first piv~ts 124, 126, 128 mount the links 118, 120, 122 to the frame for pivoting about substantially vertical and stationary first pivot axes 130, 132, 134 (Figure 3). The first pivot axes 130, 132, 134 are aligned in the discharge direction parallel to the discharge axis.
Second pivots 136, 138, 140 ~Figures 2, 17, 3, 16, 18) are mounted to the links 118, 120, 122 opposite the first pivots 124, 126, 128, e.g., at the ends of the links opposite the first pivots, for mounting of third pivots 142, 144, 146 (Figures 2, 17, 16, 18~
about substantially vertical second pivot axes 148, 150, 152 (Figures 3, 16, 18). The second pivot axes 148, 150, 152 are not stationary, but movable, and aligned in the discharge direction parallel to the discharge axis.
The third pivots 142, 144, 146 are mounted to the second pivots 136, 138, 140, and mount the product discharge tray 26 to the second pivots. The third pivots thereby mount the product discharge tray 26 to ~he mechanical links 118, 120, 122. Mounting is about substantial horizontal, moving third pivot axes 154, 156, 158, shown in Figure 3.
As the con~equence of the mounting, the product discharge tray 26 is movable about the first pivots 124, 126, 128 and simultaneously movable about the third pivots 142, 144, 146, for bidirectional motion, e.g., (a) simultaneous horizontal motion in i) the discharge direction and ii) the transverse direction and (b) simultaneous vertical, tilting movement.
A pneumatic rotary actuator 160 (Figures 2, 16) is mounted on the tray frame compression member 129.

... . . .
,.~

- 20 _ 1 3 2 ~ ~ ~ 9 The actuator 160 drives the actuator shaft 161 which forms the first pivot 126, for driving the mechanical links and the product discharge tray 16 about the first pivots between a product receiving location and a product discharging location. The product receiving position is shown best in Figures 5, 3 and 16. The product discharging lccation is shown best in Figures 4 and 18. As seen by comparing the identified figures, the product discharging location is more remote from the product discharge end of the stuffing horn than the product receiving location, in the discharging direction. Also, the product discharging location is more remote from the discharge axis than the product receiving location, in the transverse direction.
Further, the product discharging location is closer a tilt guide (and quard) 162 than the product receiving location, in the transverse direction.
The mentioned tilt guide 162 is a static member~
mounted on the tray frame compression member 129. The tilt guide/guard 162 is elongated in the discharge direction and extends vertically ad~acent the discharge axis. The tilt guide/guard 162 i8 located in relation to the product discharge tray 26 so as to be contacted by the product discharge tray 26 under the force of gravity, while the product discharge tray 26 is in the product recslving location, and in the product discharging location, and at all locations of the product discharqe tray therebetween. The product discharge tray 26 is tilted at an angle, as in Figure 18, sufficient to cause product to roll from the product discharge tray under the force of gravity while the product discharge tray is in the product discharginq position. The product discharge tray 26 is positioned, as in Figure 16, to maintain product - 21 - 1 3 2 ~ 9 1~

thereon while the product discharge tray is in the product receiving position.
Referring to Figure 18, a product recognition paddle 39 includes a paddle face 166 elongated in the S transverse direction, and a fourth pivot 168 mounts the product recognition paddle to a mounting block 170 in the path of product exiting the stuffing horn. Tha paddle 39 is mounted about a substantially horizontal, transverse fourth pivot axis 172 for movement of the paddle upward and along the discharge direction about the fourth pivot axis 172 under the force of product exiting the stuffing horn. (Figure 18 depicts the paddle in static position only.) The mounting block 170 mounts on the tilt guide/guard 162, to the tray frame for movement along the discharge direction. Thi~ mounting provides for variable placement of the product recognition paddle 39 along the discharge direction. A releasable fastener 174 releasably fastens the mounting block 170 on the tilt guide/guard 162 to the tray frame.
A spring 176 is located between the product recognition paddle 39 and the mounting block 170. The spring 176 biases the paddle 39 in position to be contacted by product.
An ~lectrical switch 178 (Figure 2) is mounted to the mounting block 170 adjacent the product recognition paddle 39. The switch 178 is tripped by the product recognition paddle 39 upon pivoting of the product recognition paddle, under the action of product exiting the stuffing horn. The electrical switch 178 is connected to the rotary actuator 160 via the control ; circuit for supplying power from a power source to the rotary actuator.
: -132~919 Product exiting the stuffing horn is received by the product discharge tray in the product receiving position. The product recognition paddle can be positioned to recognize finished product of desired length exiting the stuffing horn. In operation of the proferred product discharge tray mechanism, finished product exit the stuf~ing horn, the casing break, and contacts the product recognition paddle. This contact causes the paddle 39 to rotate about fourth pivot axis 172. Pivoting of paddle 39, in turn, actuates the electrical switch 178. Actuation o~ the electrical switch provides an input to control logic which stops flow of product. The clipper then voids and clips the product. Once these actions are complete, the clipper opens, and the horn retracts from the product just clipped. Once these actions are complete the control logic directs the power circuit to power the rotary actuatory and initiates the discharge motion.
The product discharge tray is thereby moved to the product discharge position. As shown in Figure 12, vertical adjustment of the tray through bracket 1~0 permits adjustment to produce size. Thus, in the product discharge position o~ the product discharge tray, the finished product is discharg0d away from the stu~fing horn (in the discharge direction), and at substantially the same position (in the transverse and vertical directions3 as the product previously occupied while the tray was in the receiving position.
The preferred embodiment of the invention is now described in detail. This detailed description is such that a person of ordinary skill in the art of the invention could make and use the invention, and the preferred embodiment is the best mode contemplated by the inventor. Nevertheless, an invention exists as 1 3 2 ~

part idea, part hardware. The detailed description of - :
the preferred embodiment is not to be confused with, or taken as, an effort to claim the invention, for the invention is broader than the hardware described. To particularly point out and distinctly claim the subject ~-matter regarded as invention, the following claims conclude this specification.

",.-', '' `
'.
' '. . .:
:: ,. . .
.' ,.' -..... . i. . . . -. ~, .. . . . . .

~. - . . .. .... , .. . . - . - .. . . - - - ..

Claims (36)

1. In a stuffing machine, a stuffing horn and casing brake combination comprising:
a stuffing horn defining a discharge opening, adapted to receive casing, and having a first horn segment and a second horn segment, the first horn segment having first-horn-segment outer dimensions and the second horn segment having second-horn-segment outer dimensions which are reduced in comparison to the first-horn-segment dimensions:
casing brake means for intermittently braking the movement of casing from the stuffing horn past the discharge opening by applying tension to the casing on the horn, having a first brake portion and a second brake portion, the first brake portion and the second brake portion having internal dimensions sized relative to the first-horn-segment outer dimensions and the second-horn-segment outer dimensions for applying tension to casing on the horn between the second brake portion and only the first horn segment, between the second brake portion and only the first horn segment, or between both the first and second brake portions and only the first horn segment, when either the first brake portion or the second brake portion is, or both portions are, in a braking position relative to the first horn segment;
the stuffing horn and casing brake means being mounted on the machine for movement relative to each other to and from a stuffing position of the casing brake means and the stuffing horn wherein the first brake portion and the second brake portion are both in a braking position relative to the first horn segment and both cooperate with the first horn segment for applying tension to the casing, and to and from another position of the casing brake means and the stuffing horn wherein only the second brake portion is in a braking position relative to the first horn segment and only the second brake portion cooperates with the first horn segment for braking casing;
whereby a full braking may be applied to the casing by both brake portions and a reduced braking may be applied to the casing by only the second brake portion, which provides for full braking during product stuffing and reduced tension during product clipping.
2. The stuffing horn and casing brake combination of Claim 1 in which the second horn segment is adjacent the discharge opening and the first horn segment is more distant from the discharge opening than the second horn segment.
3. The stuffing horn and casing brake combination of Claim 1 in which the stuffing horn adjacent the discharge opening is cylindrical, the first horn segment is cylindrical and of a first outer diameter, and the second horn segment is cylindrical and of a second outer diameter smaller than the first outer diameter.
4. The stuffing horn and casing brake combination of Claim 3 in which the second horn segment is adjacent the discharge opening and the first horn segment is more distant from the discharge opening than the second horn segment.
5. The stuffing horn and casing brake combination of Claim 1 in which the casing brake means comprises two casing brakes, a first of the casing brakes being the first brake portion and the second of the casing brakes being the second brake portion.
6. The stuffing horn and casing brake combination of Claim 5 in which the two casing brakes are substantially identical, the tension being applied by the second casing brake only being approximately half the tension applied by both casing brakes.
7. The stuffing horn and casing brake combination of Claim 1 in which the stuffing horn defines a discharge direction of product discharge, in which the first horn segment is more distant from the discharge opening than the second horn segment, in the direction opposite the discharge direction, and of a first outer diameter, and the second horn segment is adjacent the discharge opening and of a second outer diameter smaller than the first outer diameter;
the stuffing horn and casing brake means being mounted on the machine for movement from the braking position to the another position by movement of the stuffing horn a distance in the discharge direction greater than any movement of the casing brake means.
8. A stuffing horn and casing brake combination as in Claim 7 in which the stuffing horn and casing brake means are mounted on the machine for movement of both the stuffing horn and the casing brake means from the braking position in a distance opposite the discharge direction, the movement from the braking position to the another position being accomplished by movement of the stuffing horn a distance greater than movement of the casing brake means;
whereby the casing brake means is movable from its braking position to provide a partially voided area within the casing within the clipping zone and to provide clearance.
9. A stuffing horn and casing brake combination as in Claim a in which the casing brake means in the braking position is located in the clipping zone.
10. A stuffing horn and casing brake combination as in Claim g in which the stuffing horn in the braking position is located in the clipping zone.
11. A stuffing horn and casing brake combination as in Claim 10 in which the movement from the braking position moves the casing brake means and the stuffing horn out of the clipping zone, the movement accomplishing substantial voiding within the casing to produce a substantially voided casing tail.
12. A stuffing machine comprising a stuffing horn and casing brake combination, the stuffing horn defining a discharge opening, adapted to receive casing, and having a first horn segment and a second horn segment, the first horn segment having first-horn-segment outer dimensions and the second horn segment having second-horn-segment outer dimensions which are reduced in comparison to the first-horn-segment dimensions:
the casing brake being casing brake means for intermittently braking the movement of casing from the stuffing horn past the discharge opening by applying tension to the casing on the horn, having a first brake portion and a second brake portion, the first brake portion and the second brake portion having internal dimensions sized relative to the first-horn-segment outer dimensions and the second-horn-segment outer dimensions for applying tension to casing on the horn between the second brake portion and only the first horn segment, between the second brake portion and only the first horn segment, or between both the first and second brake portions and only the first horn segment, when either the first brake portion or the second brake portion is, or both portions are, in a braking position relative to the first horn segment;
the stuffing horn and casing brake means being mounted on the machine for movement relative to each other to and from a stuffing position of the casing brake means and the stuffing horn wherein the first brake portion and the second brake portion are both in a braking position relative to the first horn segment and both cooperate with the first horn segment for applying tension to the casing, and to and from another position of the casing brake means and the stuffing horn wherein only the second brake portion is in a braking position relative to the first horn segment and only the second brake portion cooperates with the first horn segment for braking casing;
whereby a full braking may be applied to the casing by both brake portions and a reduced braking may be applied to the casing by only the second brake portion, which provides for full braking during product stuffing and reduced tension during product clipping.
13. A stuffing machine comprising:
a base;
a stuffing horn turret assembly having multiple stuffing horns, movably mounted on the base;
means for driving the stuffing horn turret assembly for sequencing the stuffing horns into a stuffing position, a clipping position and a service position, the driving means operatively connected to the stuffing horn turret assembly;
a stuffing horn in the stuffing position being a stuffing-positioned horn, a stuffing horn in the clipping position being a clipping-positioned horn, and a stuffing horn in the service position being a service-positioned horn;
each stuffing horn defining a discharge opening, adapted to receive casing about the horn, having a first horn segment, and having a second horn segment, the first horn segment having first-horn-segment outer dimensions and the second horn segment having second-horn-segment outer dimensions which are reduced in comparison to the first-horn-segment dimensions:
casing brake means on the base proximal a stuffing-positioned horn and a clipping-positioned horn, for intermittently braking the movement of casing from a stuffing-positioned horn and a clipping-positioned horn by applying tension to the casing on the horn, having a first brake portion and a second brake portion, the first brake portion and the second brake portion having internal dimensions sized relative to the first-horn-segment outer dimensions and the second-horn-segment outer dimensions for applying tension to casing on the horn between the second brake portion and only the first horn segment, between the second brake portion and only the first horn segment, or between both the first and second brake portions and only the first horn segment, when either the first brake portion or the second brake portion is, or both segments are, in a braking position relative to the first horn segment;
the casing brake means being mounted on the base;
wherein the first brake portion and the second brake portion are both in a braking position relative to the first horn segment of a stuffing-positioned horn and both cooperate with the first horn segment of a stuffing-positioned horn for applying tension to the casing thereon, and wherein only the second brake portion is in a braking position relative to the first horn segment of a clipping-positioned horn and only the second brake portion cooperates with the first horn segment of a clipping-positioned horn for braking casing;
whereby a full braking may be applied to the casing on a stuffing-positioned horn by both brake portions and a reduced braking may be applied to the casing on a clipping-positioned horn by only the second brake portion, which provides for full braking during product stuffing and reduced tension during product clipping.
14. A stuffing horn turret assembly comprising:
a turret assembly body defining a cylindrical central passage, the central passage defining a central passage centerline, and defining cylindrical branching passages in open communication with the central passage, each branching passage angled at an acute angle relative to the central passage and the central passage centerline;

separate stuffing horns each having a first segment defining a first segment passage substantially parallel to the central passage and a second segment defining a second passage in open communication with the first segment passage, angled at the acute angle relative to the central passage, and in open communication with a branch passage;
collars releasably fastened to the turret assembly body along the branching passages and retaining the stuffing horns to the turret assembly body.
15. A stuffing horn turret assembly as in Claim 14 in which the branching tubes and the second segments of the stuffing tubes are angled at approximately 45°
to the central passage.
16. A stuffing horn turret assembly as in Claim 14 further comprising:
a manifold tube defining a cylindrical manifold passage coaxial with the central passage and a radial opening from the manifold passage: and a pump positioned in the manifold tube and coaxial with the central passage.
17. A stuffing horn turret assembly as in Claim 16 further comprising:
a piston member, the piston member being mounted to the pump internally of the manifold tube and being movable by the pump member toward the radial opening, the piston member having a face inclined at the acute angle for smoothly directing material from the manifold passage through the radial opening into a branching tube.
18. An improved discharge tray mechanism for a stuffing machine comprising:
a product discharge tray;
means for mounting the product discharge tray, the mounting means including, means for moving the product discharge tray bidirectionally, and means for tilting the product discharge tray vertically while moved by the moving means, the moving means and the tilting means cooperatively causing the product discharge tray to move between a product receiving position and a product discharging position; and means, operatively associated with the mounting means, for driving the moving means.
19. An improved discharge tray mechanism as in Claim 18 further comprising means for recognizing product in need of discharge and initiating action of the driving means.
20. An improved discharge tray mechanism as in Claim 18, the driving means constituting means for driving the moving means through a cycle from the product receiving position through the product discharging position to the product receiving position.
21. An improved discharge tray mechanism as in Claim 18 in which the moving means includes mechanical linkage connected to the product discharge tray.
22. An improved discharge tray mechanism as in Claim 21 in which the driving means drives the mechanical linkage.
23. An improved discharge tray mechanism as in Claim 21 in which the mechanical linkage includes a parallelogram linkage.
24. An improved discharge tray mechanism as in Claim 23 in which the driving means is operatively connected to and drives the parallelogram linkage.
25. An improved discharge tray mechanism as in Claim 23 in which the product discharge tray forms a portion of the parallelogram linkage.
26. An improved discharge tray mechanism as in Claim 23 in which the parallelogram linkage includes at least two parallel links, at least one of the links being a driving link.
27. An improved discharge tray mechanism as in Claim 26 in which the driving means includes a rotary actuator operatively connected to and driving the driving link.
28. An improved discharge tray mechanism as in Claim 18 in which the driving means includes a rotary actuator.
29. An improved discharge tray mechanism as in Claim 18 in which the stuffing machine includes a stuffing horn having a discharge end and a substantially horizontal direction of product discharge, and in which the means for moving the product discharge tray constitutes means for moving the product discharge tray simultaneously away from the discharge end in the direction of product discharge and in a horizontal direction transverse to the direction of product discharge.
30. An improved discharge tray mechanism as in Claim 18 in which the means for tilting the product discharge tray vertically while moved by the moving means constitutes means for tilting the product discharge tray vertically upward.
31. An improved di charge tray mechanism as in Claim 30 in which the means for tilting the product discharge tray includes a tilt guide located adjacent the product discharge tray, the product discharge tray contacting the tilt guide and sliding along the tilt guide during movement between the product receiving position and the product discharging position.
32. An improved discharge tray mechanism as in Claim 31 in which the product discharge tray is inclined at an angle against the tilt guide in the product receiving position and inclined at a higher angle against the tilt guide in the product discharging position.
33. An improved discharge tray mechanism as in Claim 19 in which the recognizing means includes a product recognition member operatively mounted in relation to discharging product to be contacted by product in need of discharge and means for communicating the contact to the driving means for initiating the driving means.
34. An improved discharge tray mechanism as in Claim 33 in which the product recognition member constitutes a pivotable paddle and the communicating means includes a switch operatively connected to the driving means.
35. An improved discharge tray mechanism as in Claim 34 in which the switch is an electrical switch and the driving means is pneumatic driving means, the switch being operatively connected to the driving means.
36. An improved discharge tray mechanism for a stuffing machine and electrical power sources, the stuffing machine producing stuffed products and including a frame and a stuffing horn, the stuffing horn having a discharge end and defining a discharge direction, the discharge direction being collinear with the direction of movement of product during stuffing, the stuffing horn further defining a substantially horizontal discharge axis centered along the discharge end of the stuffing horn and extending in the discharge direction, the improved discharge tray mechanism comprising:
a product discharge tray elongated in the discharge direction and curved in the direction transverse to the discharge direction (hereafter "the transverse direction");
multiple parallel mechanical links;
first pivots mounting the links to the stuffing machine frame for pivoting about substantially vertical first pivot axes, the first pivot axes being aligned in the discharge direction parallel to the discharge axis;
second pivots mounted to the links opposite the first pivots for mounting of hereinafter-defined third pivots about substantially vertical second pivot axes, the second pivot axes being aligned in the discharge direction parallel to the discharge axis;
third pivots mounted to the second pivots, the third pivots mounting the product discharge tray to the second pivots and thereby the mechanical links about substantial horizontal third pivot axes;
the product discharge tray thereby being movable about the first pivots and simultaneously movable about the third pivots, for simultaneous horizontal motion in the discharge direction and the transverse direction and simultaneous vertical, tilting movement;
a rotary actuator mounted on the tray and operatively connected to a first pivot for driving the mechanical links and the product discharge tray about the first pivots between a product receiving location and a product discharging location, the product discharging location being more remote from the product discharge end of the stuffing horn than the product receiving location in the discharging direction, the product discharging location being more remote from the discharge axis than the product receiving location in the transverse direction, and the product discharging location being closer a hereinafter defined product discharge tray tilt guide than the product receiving location in the transverse direction;
a static product discharge tray tilt guide mounted on the tray frame, elongated in the discharge direction and extending vertically adjacent the discharge axis, the tilt guide located in relation to the product discharge tray so as to be contacted by the product discharge tray under the force of gravity while the product discharge tray is in the product receiving location and in the product discharging location and at all locations of the product discharge tray therebetween, the product discharge tray being tilted at an angle sufficient to cause product to roll from the product discharge tray under the force of gravity while the product discharge tray is in the product discharging position and the product discharge tray being positioned to maintain product thereon while the product discharge tray is in the product receiving position;
a product recognition paddle including a paddle face elongated in the transverse direction;
a fourth pivot mounting the product recognition paddle to a hereinafter-defined mounting block in the path of product exiting the stuffing horn about a substantially horizontal, transverse fourth pivot axis for movement of the paddle upward and along the discharge direction about the fourth pivot axis under the force of product exiting the stuffing horn;
a mounting block mounted on the tilt guide to the tray frame for movement along the discharge direction for variable placement of the product recognition paddle along the discharge direction;
a releasable fastener for releasably fastening the mounting block on the tilt guide to the stuffing machine frame:
a spring between the product recognition paddle and the mounting block which biases the an electrical switch mounted to the stuffing machine frame adjacent the product recognition paddle, the switch being tripped by the product recognition paddle upon pivoting of the product recognition paddle under the action of product exiting the stuffing horn, the electrical switch being operatively connected to the rotary actuator for supplying power from a power source to the rotary actuator;
whereby product exiting the stuffing horn is received by the product discharge tray in the product receiving position;
whereby the product recognition paddle can be positioned to recognize finished product of desired length exiting the stuffing horn; and whereby finished product exiting the stuffing horn contacts the product recognition paddle and pivots the same, causing the rotary actuator to be initiated, and causing the product discharge tray to move to the product discharge position, in which the finished product is discharged away from the stuffing horn in the discharge direction, and at substantially the same position, in the transverse and vertical directions, as the product occupied while the tray was in the receiving position.
CA 613059 1988-09-29 1989-09-25 Semi-automatic stuffing machine, casing brake and turret assembly Expired - Fee Related CA1325919C (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
US07/251,668 US4847952A (en) 1988-09-29 1988-09-29 Product discharge tray mechanism
US251,668 1988-09-29
US07/251,667 US4847953A (en) 1988-09-29 1988-09-29 Semi-automatic stuffing machine, casing brake and turret assembly
US251,667 1988-09-29

Publications (1)

Publication Number Publication Date
CA1325919C true CA1325919C (en) 1994-01-11

Family

ID=26941748

Family Applications (1)

Application Number Title Priority Date Filing Date
CA 613059 Expired - Fee Related CA1325919C (en) 1988-09-29 1989-09-25 Semi-automatic stuffing machine, casing brake and turret assembly

Country Status (7)

Country Link
EP (1) EP0531279A1 (en)
JP (1) JP2585819B2 (en)
AR (1) AR243730A1 (en)
AU (1) AU4229289A (en)
CA (1) CA1325919C (en)
ES (1) ES2016176A6 (en)
WO (1) WO1990003114A2 (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE19953695C1 (en) * 1999-11-09 2001-01-18 Poly Clip System Gmbh & Co Kg Sausage filling device has safety ring enclosing working plane of closure device when brake ring is released from filling pipe for replacement of packaging material
DE102007063923B3 (en) * 2006-06-04 2018-05-03 Hitec Co., Ltd. Device having a plurality of stuffing tubes for producing chains of associated food products, such as e.g. Sausages, and methods of making such products
ES2370610T3 (en) 2009-06-24 2011-12-20 Albert Handtmann Maschinenfabrik Gmbh & Co. Kg DEVICE FOR FILLING TRIPES.

Family Cites Families (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1165480B (en) * 1961-05-03 1964-03-12 Wilhelm Hauser Device for filling tube-like casings with a pulpy mass (e.g. sausage roast) and for tying the filled tube in partial lengths
DE1632143C3 (en) * 1967-12-19 1974-04-04 Verdener Maschinen- U. Apparatebau Gmbh, 3090 Verden Nozzle head for sausage filling machines with several nozzles
DE2122649C3 (en) * 1971-05-07 1978-09-21 Herbert Dipl.-Ing. 6240 Koenigstein Niedecker Device for filling sausage casings
DE2018454B2 (en) * 1970-04-17 1973-03-22 Niedecker, Herbert, Dipl.-Ing., 6243 Falkenstein METHOD AND DEVICE FOR BRAKING PACKAGING CASES WHICH LEAVE FROM A FILLING PIPE
DK150641C (en) * 1971-05-15 1988-02-15 Niedecker Gmbh APPLIANCES FOR THE MANUFACTURE OF POULTRYS, INSIDE RAAPOULS
US4044426A (en) * 1975-10-30 1977-08-30 Union Carbide Corporation Stuffing apparatus
US4023238A (en) * 1975-12-03 1977-05-17 Rheem Manufacturing Company Stuffing machine with telescoping nozzle
DE2645714C2 (en) * 1976-10-09 1978-07-20 Herbert Dipl.-Ing. 6240 Koenigstein Niedecker Method and device for filling raw sausage meat
US4142273A (en) * 1977-11-04 1979-03-06 Rheem Manufacturing Company Stuffing horn construction for sausage making machine
GB2056251B (en) * 1979-06-28 1983-09-07 Matthews Ltd B Manufacture of food products
DE3206675A1 (en) * 1982-02-25 1983-09-01 Technopack Ewald Hagedorn Kg, 2000 Hamburg Device for filling and closing sausage casings
DE3206674A1 (en) * 1982-02-25 1983-09-01 Technopack Ewald Hagedorn Kg, 2000 Hamburg Sausage-filling and closing machine and method for its operation
DE3214018A1 (en) * 1982-04-16 1983-10-20 Hoechst Ag, 6230 Frankfurt Method for manufacturing packed meat products and device for implementing the method
DK170852B1 (en) * 1984-07-27 1996-02-12 Herbert Niedecker Method and apparatus for filling a packaging casing flowing from a filling tube
US4675945A (en) * 1985-01-23 1987-06-30 Tipper Tie, Inc. Clipping apparatus
US4773128A (en) * 1987-01-13 1988-09-27 Teepak, Inc. Apparatus and methods of stuffing food casings to provide dimensionally uniform products
US4709450A (en) * 1987-01-13 1987-12-01 Teepak, Inc. Apparatus and methods of stuffing food casings to provide dimensionally uniform products
US4766645A (en) * 1987-04-16 1988-08-30 Viskase Corporation Size control system for stuffing machine
DE8712434U1 (en) * 1987-09-14 1987-10-29 technopack Ewald Hagedorn KG (GmbH & Co), 2000 Hamburg Device for filling and closing tubular casings, in particular for sausage production

Also Published As

Publication number Publication date
AU4229289A (en) 1990-04-18
AR243730A1 (en) 1993-09-30
EP0531279A1 (en) 1993-03-17
JPH06502756A (en) 1994-03-31
WO1990003114A2 (en) 1990-04-05
ES2016176A6 (en) 1990-10-16
JP2585819B2 (en) 1997-02-26
WO1990003114A3 (en) 1991-04-04

Similar Documents

Publication Publication Date Title
US4847953A (en) Semi-automatic stuffing machine, casing brake and turret assembly
US5109648A (en) Packaging device with loop attachment mechanism and skin brake
EP0379125B1 (en) Stuffing method and apparatus
US7386966B2 (en) Automated packaging systems with associated automated pushers
CA1295228C (en) Continuously rotating platform with multiple mounted double clippers for continuously forming link product
US5077955A (en) Chub packaging machine clipping mechanism
EP0621186B1 (en) Double clippers for continuously forming link product
US4113415A (en) Molding apparatus
US4043728A (en) Molding apparatus
CA1168507A (en) Whole boneless ham stuffing method and apparatus
CA1325919C (en) Semi-automatic stuffing machine, casing brake and turret assembly
EP1484250B1 (en) Method and apparatus for the automatic stuffing of meat products into a double casing comprising a sheet and a net
CA2005808C (en) Stuffing method and apparatus
JPS63181943A (en) Food casing stuffing apparatus and method for forming product having definite dimension
US4887332A (en) Semi-automatic stuffing machine, casing brake and turret assembly
CA1108101A (en) Device to feed a ribbon of sausage support loops into clip attachment apparatus
US5916019A (en) Casing brake construction for sausage discharge horn
US5209041A (en) Chub packaging machine clipping mechanism
US4216712A (en) Coring apparatus for fruit and the like
US6855046B2 (en) Method and means for filling natural casing sausages
RU2162638C1 (en) Clipper
EP0230152A1 (en) Sausage filling apparatus and method
EP1477068A1 (en) Tying machine for food products
CA1055775A (en) Molding apparatus
US4847952A (en) Product discharge tray mechanism

Legal Events

Date Code Title Description
MKLA Lapsed