This invention pertains to a food packaging apparatus. More particularly, this invention pertains to a device for defining a loop handle in a tubular covering, such as an expandable mesh covering, for a food product, such as, but not limited to a meat product.
It is known in the food packaging industry to vacuum wrap consumer portions of food products, especially meat products. It is also known in the art to use expanded mesh coverings for food product during processing. To facilitate carrying, it has become customary to provide a tubular cover, such as an expanded plastic mesh cover for the vacuum wrapped food product. Further, this tubular mesh cover has a loop in one end in order to define a handle. Presently, formation of this loop handle is accomplished manually by hand. In this regard, a worker will bag the food product in the tubular expanded mesh covering, gather, or compress, an extended portion at one end, manually loop this extended portion back on itself and then clip the loop, with a conventional clipping apparatus, in order to secure the loop. Conventional clipping machines attach two clips, one to secure the bottom of the next covering to be formed and one to secure the loop handle. The conventional clipping machine then cuts the tubular covering between these two clips. Manual loop formation can limit the rate of production. What is needed is an apparatus for defining a handle in a tubular covering for a food product.
The apparatus of the present invention is a device for covering a food product in a tubular covering, such as an expanded mesh plastic covering, which has a loop handle defined in one end of the tubular covering. As the food product proceeds through the apparatus, a handle is formed for the covering of the next food product and the open end of the tubular covering containing the food product is clipped, thereby securing the food product within the tubular covering. In the preferred embodiment, as the food product enters the apparatus, it is weighed so that a tag (containing certain information regarding the food product as will be known and appreciated by those skilled in the art) can be printed and secured in the loop handle defined in the portion of the tubular member that will receive the food product. While the apparatus described, and illustrated herein has been adapted specifically for bagging vacuum wrapped turkeys, either frozen or unfrozen, it will be appreciated by those skilled in the art that the apparatus can be adapted to define a loop handle in a tubular covering for other poultry products, other meat products and indeed other food products. Indeed, it will be appreciated by those skilled in the art that the device has utility in bundling non-food products as well.
The apparatus of the present invention includes a frame for supporting the various assemblies that comprise the apparatus and for engaging a support surface such as a floor. The frame also includes various guards and shields designed and intended to prevent an operator of the apparatus, or other individuals in close proximity to an operating apparatus, from being injured as a result of contact with moving components of the apparatus. Further, the various components of the apparatus of the present invention are preferably pneumatically driven and are controlled through a series of air valves, controlled by a programmable logic controller, PLC, as is conventionally known in the art. However, while operation of the apparatus by a PLC is preferred, it will be appreciated that the operations could be triggered selectively and sequentially by an operator toggling a series of switches. While selective operation of the apparatus would not be the preferred embodiment, such is certainly within the scope of the present disclosure.
The apparatus of the present invention includes a conveyor belt, preferably motor driven, which conveys the food product from a production line and into the slide area or chute. An initial conveyor stand and associated scale can be provided for weighing product prior to introducing the product into the slide area. While the conveyors are illustrated as being motor driven, those skilled in the art will recognize that other actuators, such as rotary actuators, could be utilized. It is anticipated that the conveyor would intersect a production line allowing a worker to remove a food product from the production line, weigh the product, if weight information is desired, and feed the food product onto the conveyor of the apparatus. The chute is a substantially tubular member which has the tubular covering expanded on the exterior of the chute, and positioned with respect to the distal end of the chute such that the food product will engage the tubular covering and thereby be covered by the tubular covering as the food product exits the chute. Positioned proximate the distal end of the chute is a voider assembly defined by a stationary set of voider gates and a moveable set of voider gates. Each set of voider gates includes a top voider plate and a bottom voider plate, each voider plate having an opening that is adapted to be positioned so as to substantially register with the opening defined by the diameter of the chute. The stationary set of voider gates is proximate the distal end of the chute. When in the retracted position, the moveable set of voider gates is proximate the stationary set voider gate. As will be explained in greater detail below, the openings in the top and bottom voider plates include cooperating bites that cooperate, and register, when the voider plates are closed so as to gather the tubular covering into a compressed cord.
Further, the apparatus of the present invention includes a handle formation assembly for engaging the compressed cord of tubular covering and forming the compressed cord into a loop handle. A clipper device, carried by the frame of the apparatus of the present invention rotates into a position to engage the handle formation assembly, and the engaged compressed cord of tubular covering and secures two clips to the cord, one to secure the bottom of the tubular covering for the previously processed food product, and one to secure the loop handle, (and tag), for the tubular covering in preparation of receiving a subsequent food product to be covered. Further a clipping knife severs the compressed cord of tubular covering at a point disposed between the two securing clips. A product restraining assembly is provided to capture and restrain the food product as it passes through the voider gate assembly, position the covered food product for clipping and to release the food product upon completion of the apparatus's handle formation and clipping cycle.
In an alternate embodiment, the device, absent the handle formation assembly, could be utilized for certain packing plant operations. In this regard, in certain packing plant operations, product is packaged in an expanded mesh covering. However, it is not necessary to form a loop handle in the package. Accordingly, for such operations, the handle formation assembly could either be deactivated or omitted.
The above-mentioned features of the invention will become more clearly understood from the following detailed description of the invention read together with the drawings in which:
An apparatus for defining a loop handle in a tubular covering for a food product is disclosed. The apparatus, illustrated in the various figures, is designated as 10 in the figures. The apparatus 10 is a device for covering a food product in a tubular covering, such as an expanded mesh plastic covering, which has a loop handle 12 defined in one end of the tubular covering. Further, the apparatus 10 forms the loop handle 12 in the tubular covering 15. Those skilled in the art will recognize that, while the apparatus 10 is described and illustrated herein has being adapted specifically for bagging vacuum wrapped whole turkeys, it will be appreciated by those skilled in the art that the apparatus can be adapted to define a loop handle 12 in a tubular covering 15 for other poultry products, other meat products, other food products, and for non-food products.
Before an initial food product is introduced into the apparatus 10, the apparatus is operated for a cycle in order to form an initial handle loop. A complete product cycle is then defined by introduction of a product into the mesh covering, the open end, i.e., the end of the mesh covering opposite the handle loop, is secured and a loop handle is formed in the covering for the next food product. In other words, as the food product 16 proceeds through the apparatus 10, the food product 16 engages the mesh covering, the end of which is secured by a loop handle 12 which is formed in the covering, the apparatus 10 secures the open end of the tubular covering containing the food product 16, thereby securing the food product 16 within the tubular covering 15 and simultaneously forms a loop handle 12 for a subsequent food product. If desired, a food product 16 can be weighed prior to being processed by the apparatus 10. In this regard, the food product 16 is weighed on a scale 20, and if desired a tag (containing certain information regarding the food product as will be known and appreciated by those skilled in the art), dispensed by tag dispenser 22, can be printed and secured in the loop handle 12 defined in the portion of the tubular covering 15 that will receive the food product 16. While the scale 20 can be supported by the same framing as the balance of the apparatus 10, in the preferred embodiment, the scale 20 is supported by a discrete frame 23 so as to substantially isolate the scale from vibration caused by operation of apparatus 10. As stated above, it will be appreciated that this handle will be formed as the preceding food product travels through the apparatus.
The apparatus 10 of the present invention includes a frame 25 for supporting the various assemblies that comprise the apparatus 10 and for engaging a support surface such as a floor. The frame 25 also includes various guards and shields, (not shown for clarity of view), designed and intended to prevent an operator of the apparatus 10, or other individuals in close proximity to an operating apparatus, from being injured as a result of contact with moving components of the apparatus. These guards and shields would be readily known to those skilled in the art. Further, the various components of the apparatus 10 are, in the preferred embodiment, pneumatically driven and are controlled through a series of air valves, controlled by a programmable logic controller, PLC, (not shown), as is conventionally known in the art. A flow chart, illustrating the logic for one embodiment of the present invention is illustrated in
The apparatus 10 includes a conveyor belt 35, preferably driven by a motor 38, which conveys the food product 16 from the scale 20, if weighing of the product is desired, and into the chute area or chute 40. In one embodiment of operation, the scale 20 and the conveyor belt 35 of the apparatus would intersect a production line (not shown) allowing a worker to remove the food product from the production line, and feed the food product onto the conveyor belt 35 of the apparatus 10. In the illustrated embodiment, the chute 40 is an elongated substantially tubular member. During operation of the apparatus 10, chute 40 would have the tubular covering 15 expanded on the exterior of the chute 40. Alternately, the chute could simply be defined by a slide having a skeletal frame for receiving the expanded tubular covering 15. The end of the tubular covering proximate the distal end 42 of the chute 40 is secured by the loop handle 12 which is positioned proximate the distal end 42 of the chute 40 such that the food product 16 will engage the tubular covering 15 and thereby be covered by the tubular covering 15 as the food product 16 exits the chute 40. This disposition of the bulk tubular covering 15 on the chute 40 is illustrated in
Positioned proximate the distal end 42 of the chute 40 is a voider assembly 45 defined by a stationary set of voider gates 48 and a moveable set of voider gates 50. Each set of voider gates includes a top voider plate 54 and a bottom voider plate 56, each voider plate 54, 56 having an opening 58 and 60, respectively, that is adapted to be positioned so as to substantially register with the opening defined by the diameter of the chute 40. The stationary set of voider gate 48 is proximate the distal end 42 of the chute 40. When in the retracted position, illustrated in
The apparatus 10 further comprises a food product restrainer assembly 65, illustrated in
It will be appreciated by those skilled in the art that the tubular covering 15 is in an expanded configuration as the food product 16 exits the chute 40 and that the tubular covering 15 extends from the food product to the supply of tubular covering 15 disposed on the exterior of the chute 40. The apparatus 10 is adapted to compress this extended portion of the tubular member into a compressed cord in order to facilitate formation of the loop handle. In this regard, the openings 58 and 60 in the top and bottom voider plates include bites 80 that cooperate, and register, when the voider plates are closed, to form a narrow channel 82 that acts to gather the tubular covering 15 into a compressed cord 84. At the beginning of a cycle of operation, the moveable voider gates 50 are in the retracted position, illustrated in
Further, the apparatus 10 includes a handle formation assembly 90 for engaging the compressed cord 84 of tubular covering and forming the compressed cord 84 into a loop handle 12. In this regard, a handle formation jaw 92, actuated by a jaw actuator 93, and a jaw plate 94, each having an elongated slot 96 opening outwardly therefrom, are carried by an elongated rod 98 actuated by a dual stage cylinder 99. The initial position of the handle formation assembly 90 is illustrated in
As seen in the drawings the clipping device 105 is configured with both clip rail assemblies 108 and 110 disposed on the same side of the clipping device 105, a novel arrangement contrary to a conventional clipping device having a clip rail assembly disposed on each side of the clipping device. Placement of both clip rail assemblies 108 and 110 on one side of the clipping device, i.e. opposite the side 106 which cuts the compressed cord 84 of the tubular covering 15, allows for extremely close tolerances between the cutting side 106 of the clipping device 105 and the moveable set of voider gates 50, therefore a desirable tight package can be obtained. Except for the novel placement of clip rail assemblies 108 and 110, the clip rail assemblies are conventional clip rail assemblies as will be readily understood by those skilled in the art. In order to accommodate this novel arrangement, the clip rail assembly 108 that supplies clips to the opposite side of the clipping device 105 is angled as best illustrated in
From the foregoing description, it will be recognized by those skilled in the art that a device for defining a loop handle in a tubular covering for a food product, offering advantages over the prior art has been provided. In this regard, the handle forming device automates a process that has heretofore been accomplished by hand labor.
While the present invention has been illustrated by description of several embodiments and while the illustrative embodiments have been described in considerable detail, it is not the intention of the applicants to restrict or in any way limit the scope of the appended claims to such detail. Additional advantages and modifications will readily appear to those skilled in the art. The invention in its broader aspects is therefore not limited to the specific details, representative apparatus, and illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the spirit or scope of applicants' general inventive concept.
This application claims the benefit of Non-Provisional application Ser. No. 10/782,552, filed Feb. 19, 2004, now U.S. Pat. No. 6,945,010, and Non-Provisional application Ser. No. 10/339,910, filed Jan. 10, 2003, now U.S. Pat. No. 6,729,102, which claims the benefit of Provisional Application No. 60/347,477 filed Jan. 11, 2002.
Number | Date | Country | |
---|---|---|---|
60347477 | Jan 2002 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 10782552 | Feb 2004 | US |
Child | 11229925 | Sep 2005 | US |
Parent | 10339910 | Jan 2003 | US |
Child | 10782552 | Feb 2004 | US |