JP3388515B2 - Food slicer meat transfer equipment - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cutting machine for cutting meat (chop cutter, meat cutting machine, slicer), and more particularly to a cutting machine for cutting meat to be cut. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a meat slicer meat transfer device for a food slicer which is continuously supplied in a stable state and which cuts a piece of cut meat so as to be properly aligned and transferred. [0002] As the eating and drinking culture using meat has prospered, machinery for processing meat such as frozen meat and raw meat,
For example, meat processing equipment such as refrigeration, freezing and raw meat cutting machines (hereinafter referred to as slicers), osteotomy machines, fat removing and separating machines, etc. have been developed. [0003] Such a meat cutting device has a meat placing portion and a supply device for placing a meat mass to be cut and supplying the same to a cutting blade, a cutting blade for cutting the supplied meat mass, and a cutting blade. After that, the apparatus mainly comprises a transfer device for transferring and a thickness adjusting device separated from the cutting blade to adjust a cutting thickness. In order to supply the meat mass placed on the meat placing portion to the cutting blade, the slicer supply device works together with the supply conveyor to fix the meat mass and prevent the meat mass from coming off and pressurize the meat from above. It has a supply roll for supplying. [0005] Such a transfer and supply device is characterized by meat properties,
That is, it is not possible to respond to supply needs as a result of being unable to appropriately change the pressure or the like in accordance with the type of meat such as frozen meat or raw meat and the state of the meat, for example, the uneven surface of the meat mass. That is, in the case of frozen meat, since the meat mass is frozen and the surface is hard and slippery, poor transport occurs, or the meat mass moves backward and freely from the supply conveyor belt due to the impact of cutting. By doing so, it may not be possible to supply accurately. As a result, there arises a problem that the cut thickness cannot be maintained uniformly, and a problem that the meat cannot be firmly fixed due to irregularities such as irregularities on the surface. In the case of raw meat, since the meat is soft and its surface is not uniform, it is difficult to press firmly and accurately transfer the raw meat. In addition, when the cut meat pieces cut by the cutting blade are directly dropped on the transfer conveyor, the cut meat pieces are transferred irregularly without being aligned by the conveyor. It has to be fixed and the work is complicated. When cutting frozen or chilled meat,
Cutting a solid meat mass with a strong force causes a phenomenon in which, at the same time as the cutting, the impact is caused to jump out to the outside, whereby the cut meat pieces are scattered and fall outside the body. In addition, there is a problem that it takes a long time and human power to remove and align the cut pieces dropped here and there. Such a problem causes more inconvenience as recent continuous slicers are developed for high-speed cutting work to obtain a large amount of cut meat pieces. In order to improve the above-mentioned problem, the present inventors filed Korean Utility Model Registration Application No. 1218 1999
In No. 5, the transfer conveyor belt on which the meat mass is placed is constituted by a pin conveyor so that the placed meat does not slip, and is elastically mounted on the upper portion of the meat placing portion by an elastic spring. By providing a large number of pressure rolls by levers, each pressure roll can apply pressure and position different to the unevenness of the meat mass, respectively.
Although the conventional problems have been solved, the high-speed continuous type requires a more stable configuration in relation to the supply and transfer of meat in large quantities, and the cut pieces of meat are transferred properly. Work convenience is required. SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned conventional problems, and is intended to continuously supply the meat to be cut in a stable state and to cut the cut meat pieces. An object of the present invention is to provide a meat slicer meat transfer device for a food slicer that can be properly aligned and transferred. [0014] In order to achieve the above object, the present invention provides a food feeder having a feed conveyor and a transfer conveyor which are provided in front of and behind a cutting blade in conjunction with a driving means of a slicer body .
In the riser, the transfer conveyor is driven by a servomotor.
An interlocking cam and an operating shaft are provided, and this operating shaft is moved.
The interlocking trunk that is pivotally mounted on the conveyor body
The guide support plate is provided on the
The installed guide support plate supports and aligns the cut meat pieces
And the guide support plate was supported by the operation of the servomotor.
The cut pieces are released and the transfer conveyor is aligned.
Provided is a meat transfer device for a food slicer , wherein the cut meat piece is transferred . Hereinafter, the structure of the present invention will be described more specifically with reference to the accompanying drawings. FIGS. 1 and 2 are operation explanatory views showing a state of transferring a meat mass according to the present invention. As shown in these figures,
Supply conveyor 2 linked to driving means of slicer body 10
In a normal food slicer in which the feeding conveyor 20 is provided before and after the cutting blade 50 and the supply conveyor 20 is provided with a pressure roll 35, the supply conveyor 20 is constituted by a pin conveyor on which a protruding pin 21 is formed. The meat lump 100 placed thereon is prevented from slipping, and a pressurized transfer conveyor 23 provided with a drive shaft 22 is provided on the body 10 above the supply conveyor 20 and is linked by an interlocking device. The meat lump 100 of the supply conveyor 20 is transferred at the upper part,
An interlocking arm 30 is mounted on an interlocking shaft 30 that is interlocked by the power of the body 10 and a tension arm 33 resiliently provided by a spring 32. A fixed stem 34 and a pair of extension members are provided below the tension arm 33. The pressure roll 35 is provided, and the fixed trunk 34 is freely mounted on the guide 36 of the body 10 so that the pressure roll 35 is elastically supported by the spring 32 to press the supplied meat chunk 100.
A sprocket 37 is provided on the interlocking shaft 30, the tension arm 33 and the pressure roll 35, and these are attached to a chain 38.
By interlocking with each other, the pressurizing roll 35 is interlocked with the power of the interlocking shaft 30, and the pressurized meat lump 100 is advanced and supplied to the cutting blade 50. FIG. 3 is a structural view of an apparatus for aligning cut pieces supplied and cut by the structure of FIG. 1, and FIG. 4 is an operation explanatory view showing a state in which cut meat pieces supported by the present invention are transferred.
As shown in these figures, a transfer conveyor 40 for the cut meat pieces 101 is provided with an interlocking cam 41 and an operation shaft 42 which are interlocked by a servomotor M. The operation shaft 42 is mounted on a transfer conveyor body 43. by then axially mounted, the interlocking stem 44 is provided a guide support plate 45 to interlock the stem 44, Sly
The guide support plate 45 provided in the guide groove 46 of the airframe 10
Cutting meat pieces 101 support and alignment, cutting meat piece 10 the guide support plate 45 by the operation of the servo motor M is supported
1 is released, and the transfer conveyor 40 transfers the aligned cut meat pieces 101. FIG. 5 is an operation explanatory view showing a second embodiment of the present invention. The supply conveyor 20 and the cutting blade 50 are formed obliquely, and the guide support plate 45 for the cut piece is formed by a number of connecting arms 47. Thus, the bending effect is increased. The operation and effect of the present invention configured as described above will be described as follows. FIGS. 1 and 2 show a meat mass 100 according to the present invention.
FIG. 4 is an operation explanatory view showing a transfer state of the above-described embodiment. A meat mass 100 to be cut is placed on the supply conveyor 20 of the present invention, which is composed of a supply conveyor 20, a transfer conveyor 40, and a cutting blade 50 that are linked by a driving means. As described above, when the meat chunk 100 is placed on the supply conveyor 20, the pressure transfer pin conveyor 23 provided on the upper body 10 with the drive shaft 22 presses the meat chunk 100 from above with a load. While rotating with the supply conveyor 20, the placed meat lump 100 is advanced without slipping and supplied accurately. An interlocking arm 31 is provided on an interlocking shaft 30 operated by the power of the machine body 10. A tensioning arm 33 is connected to the interlocking arm 31 by a spring 32, and is fixed to a lower portion of the tensioning arm 33. Trunk 34
And a pair of pressure rolls 35 are provided.
The tip of the meat lump 100 is pressurized by the elasticity of 2, and the sprocket 37 is provided on the interlocking shaft 30, the tension arm, and the pressurizing roll 35, and the chain 38 is hung on these sprockets 37. Meat lump 1
00 is advanced and supplied to the cutting blade 50. As described above, the meat lump 100 is supplied to the cutting blade 50 without slipping because the meat lump 100 is fed forward by being pressed from above together with the supply conveyor 20. The supplied meat mass 100 is cut by a cutting blade 50.
The cut piece of meat 101 is cut as shown in the block diagram of the cut piece of meat aligning apparatus shown in FIG. 3 and the operation explanatory view showing the state of transferring the piece of cut meat supported by the present invention in FIG. When the meat lump 100 is cut by the cutting blade 50 to form a cut meat piece 101, the interlocking cam 41 operated by the servomotor M of the transfer conveyor 40 is used.
A guide support plate 45 pivotally mounted on an interlocking stem 44 connected to a transfer conveyor body 43 via an operating stem 42 is positioned on the back surface of the cutting blade 50, and the cut meat piece 101 cut by the cutting blade 50. To support the cut piece of meat 101
To prevent wrinkles from scattering and falling randomly. Further, since the cut meat piece 101 cut by the cutting blade 50 is cut after the first piece and the second piece,
The guide support plate 45 supporting the cut meat piece 101 is the first
The interlocking trunk 44 is moved by being pushed rearward by the thickness of the piece and the second piece. At this time, since the end of the interlocking stem 44 is loosely provided in the guide groove 46, the interlocking trunk 44 slides upward and backward while sliding, and only has the thickness of the first and second pieces. It forms a separation distance. The operation will be described in more detail.
Usually, the meat lump 100 to be cut is in a frozen state at a temperature of 5 to 10 ° C below zero. Usually, the meat lump 100 is cut by the pressure and impact of the cutting blade 50 descending at a high speed.
1 is wound and scattered outside. In the present invention, the guide support plate 45 located close to the cutting blade 50 closely supports the cut meat piece 101 to be cut, thereby preventing winding and scattering of the cut meat piece. When the second piece is cut following the first piece, the guide support plate 45 moves backward by the thickness of the second piece. At this time, the operation of the cutting blade 50 or the supply conveyor 20 is performed.
The servomotor M operates in response to a signal from the controller that senses the operation of the motor, and rotates by a fixed amount. Next, the interlocking cam 41 and the operating stem 42 are operated to move the interlocking stem 44 mounted on the interlocking cam 44 upward, thereby moving the guide support plate 45 integrally connected thereto upward. Then, it will move backward by a certain distance. As described above, when a large number of cut meat pieces 101 are cut and aligned, as shown in FIG.
To operate the servo motor M. That is, the servomotor M is rotated to operate the interlocking cam 41 of the output shaft and the operating stem 42 provided on the interlocking cam 41, whereby the interlocking stem 44 connected to the operating shaft 42 is illustrated. 4 is moved to the position indicated by the dashed line in FIG. As a result, the guide support plate 45 connected to the end thereof simultaneously moves upward to release the cut meat pieces 101, and the transfer conveyor 40 moves a predetermined section to transfer the aligned cut meat pieces 101. Will be. The continuous rotation of the servomotor M moves the interlocking cam 41 again to the position indicated by the solid line in FIG. The process of alignment by the plate 45 is repeated. In the present invention, as shown in the operation explanatory view of the second embodiment shown in FIG. 5, the feeding conveyor 20 and the cutting blade 50 are obliquely formed to increase the effect of transferring the meat mass 100. Needless to say, a configuration change is added to increase the bending effect by connecting the guide support plate 45 with a large number of connection arms 47, and such a change is within the scope of the simple embodiment of the present invention. is there. As described above, according to the present invention, the large and heavy meat chunk 100 is stably supplied to the cutting blade, the supplied meat chunk is cut, the cut pieces of cut meat are properly aligned, and the fixed amount of The present invention is a useful invention that can be easily transported in a state where the operator can perform the next operation, so that the operation is easy, and the convenience of mass cutting and alignment can be obtained. As described above, according to the present invention, the frozen and refrigerated meat mass supplied from the cutting device is transported precisely and stably to be cut into a uniform thickness. In addition, the precision of the cutting work is improved by accurate transfer, and the cut work pieces are properly aligned and transferred in a fixed bundle, so that the next work can be performed easily and quickly. . [0039]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an operation explanatory view showing a state of transferring a meat mass according to the present invention. FIG. 2 is an operation explanatory view showing a state of transferring a meat mass according to the present invention. FIG. 3 is a configuration diagram of an apparatus for aligning cut pieces supplied and cut by the configuration of FIG. 1; FIG. 4 is an operation explanatory view showing a state in which the cut meat piece supported by the present invention is transferred. FIG. 5 is an operation explanatory view showing a second embodiment of the present invention. [Description of Signs] 10 Airframe 20 Supply conveyor 21 Pin 22 Drive shaft 23 Pressure transfer pin conveyor 30 Interlock shaft 31 Interlock arm 32 Spring 33 Tension arm 34 Fixed trunk 35 Press roll 36 Guide 37 Sprocket 38 Chain 40 Transfer conveyor 41 Interlock Cam 42 Operating trunk 43 Transfer conveyor body 44 Interlocking trunk 45 Guide support plate 46 Guide groove 47 Connecting arm 50 Cutting blade 100 Meat mass 101 Cutting meat piece M Servo motor

Claims (1)

( 1 ) In a food slicer in which a supply conveyor (20) and a transfer conveyor (40) interlocking with a driving means of a slicer body (10) are provided before and after a cutting blade (50). The transfer conveyor (40) is provided with an interlocking cam (41) and an operation shaft (42) interlocked by a servomotor (M), and the operation shaft (42) is provided on the transfer conveyor body (4).
3) A shaft (44) provided on the shaft (44) provided on the shaft (44), and a guide support plate (45) provided on the shaft (44) so as to play freely in the guide groove (46) of the body (10). The guided support plate (45) supports and aligns the cut meat pieces, and the operation of the servo motor (M) releases the cut piece (101) on which the guide support plate (45) is supported. A meat transfer device for a food slicer, wherein the transfer conveyor (40) transfers the aligned cut meat pieces (101).