CN117581793A

CN117581793A - Cheese processing pelleter

Info

Publication number: CN117581793A
Application number: CN202311568747.2A
Authority: CN
Inventors: 胡金保; 刘名生; 孙红阳; 张彬
Original assignee: Jiangsu Benyou Machinery Co ltd
Current assignee: Jiangsu Benyou Machinery Co ltd
Priority date: 2023-11-23
Filing date: 2023-11-23
Publication date: 2024-02-23

Abstract

The invention discloses a cheese processing pelleter which comprises a pelleter platform, wherein the bottom of the pelleter platform is uniformly supported and fixed through a plurality of groups of supporting legs, cheese strips are placed on the surface of the pelleter platform, a falling channel is formed in the end part of the pelleter platform, a collecting box is arranged at the bottom of the falling channel, a fixing frame is arranged on the pelleter platform in a threaded connection mode, an intermittent conveying assembly is arranged on the left side of the fixing frame, and a pelleter cutting assembly is arranged on the right side of the fixing frame; the flaking cutting assembly consists of a servo motor, a cam, a driving wheel, a mounting seat, a blade, a rotating shaft, a supporting seat, a limiting track, a limiting block and a reset spring. This cheese processing pelleter, intermittent type conveying subassembly and pelleter cutting assembly's actuating source can realize through a set of servo motor, can realize reducing device cost and weight's purpose, reduces its selling price for medium-and small-sized enterprise all can purchase, market prospect is wide, drives artifical sliced mode simultaneously, then labour saving and time saving when carrying out the section processing to a large amount of cheeses.

Description

Cheese processing pelleter

Technical Field

The invention relates to the field of cheese processing equipment, in particular to a cheese processing pelleter.

Background

Cheese is a fermented milk product, has the properties similar to those of common yoghurt, is prepared through a fermentation process, contains lactobacillus which can be used for health care, has higher concentration than yoghurt, approximates solid food and has more nutritive value; each kilogram of cheese products are prepared by concentrating 10 kilograms of milk, contain rich nutritional ingredients such as protein, calcium, fat, phosphorus, vitamins and the like, and are purely natural food; in terms of process, cheese is fermented milk; for nutrition, cheese is concentrated milk.

When cheese is produced, cheese blocks are formed firstly, and then cheese slices are formed by cutting, if manual cutting is used, the labor intensity is high, and the efficiency is low;

existing cheese slicers of the typical type generally include a handle and a cutting plate secured to an end of the handle, one edge of the cutting plate being configured as a sharpened cutting blade, the cutting blade of the cutting plate being positioned with a gap from the end of the handle, the cheese flakes passing through the gap between the cutting blade and the end of the handle; therefore, the automation level of the existing mechanical cheese slicer is low, and when a large amount of cheese is required to be sliced, the prior mechanical cheese slicer is very time-consuming and labor-consuming; in view of this, there have been proposals.

Disclosure of Invention

The present invention aims to provide a cheese processing pelleter which solves the above-mentioned drawbacks of the background art.

In order to achieve the above purpose, the cheese processing pelleter comprises a pelleter stage, wherein the bottom of the pelleter stage is uniformly supported and fixed through a plurality of groups of supporting legs, cheese strips are placed on the surface of the pelleter stage, a falling channel is formed in the end part of the pelleter stage, a collecting box is arranged at the bottom of the falling channel, a fixing frame is arranged on the pelleter stage in a threaded manner, an intermittent conveying assembly is arranged on the left side of the fixing frame, and a pelleter cutting assembly is arranged on the right side of the fixing frame;

the slice-making cutting assembly consists of a servo motor, a cam, a driving wheel, a mounting seat, a blade, a rotating shaft, a supporting seat, a limiting rail, a limiting block and a reset spring, wherein the servo motor is fixed on a fixed frame through a stand, an output shaft of the servo motor is fixed with the rotating shaft, the cam and a second sprocket are respectively arranged on the rotating shaft, the driving wheel is arranged at the bottom of the cam, the driving wheel is movably arranged on the mounting seat, and the blade is fixedly arranged at the bottom of the mounting seat;

the intermittent type conveying assembly comprises a transmission block, a connecting sheet, a transmission seat, a transmission plate, a first fixing seat, a main transmission arm, a secondary transmission arm, a second fixing seat, a driving plate, a first sprocket, a chain and a second sprocket, wherein the second fixing seat and the first fixing seat are all in threaded connection and fixed on a fixing frame, meanwhile, the driving plate is movably installed on the second fixing seat, one end of the driving plate, far away from the second fixing seat, is movably connected with the main transmission arm, the secondary transmission arm is fixedly installed on the main transmission arm, one end, far away from the main transmission arm, of the secondary transmission arm is fixed with the transmission seat, meanwhile, the end part of the transmission seat is welded with the connecting sheet, and the surface of the connecting sheet is welded with the transmission block.

Further, the cam and the driving wheel are oppositely arranged, the cam rotates to drive the mounting seat and the blade to move downwards to slice cheese strips through the driving wheel, the surface of the slice-making table is provided with the limit groove, the limit groove and the blade are oppositely arranged, and meanwhile, the size of the blade is smaller than that of the limit groove.

Furthermore, the mounting seat is made of metal materials, the bottom section of the mounting seat is of an isosceles triangle structure, the bottom of the mounting seat is provided with a positioning groove, and meanwhile, the upper end of the blade is inserted into the positioning groove and fixed through a bolt.

Further, the bottom both ends of mount pad are equal fixed mounting stopper, and support fixedly through the supporting seat between film-making platform and the mount, offer spacing track on the inner wall of supporting seat simultaneously to spacing track and the size looks adaptation of stopper, stopper slip setting is in spacing orbital inside.

Furthermore, the upper side of the end part of the supporting seat is welded with a fixed mounting sheet, and a reset spring is arranged between the mounting sheet and the mounting seat, and two groups of reset springs are arranged in parallel.

Furthermore, a placing groove is formed in the surface of the flaking table, the depth of the placing groove is 0.5cm, meanwhile, the placing groove is matched with the size of the cheese strips, the cheese strips are inserted into the placing groove, and the cheese strips are intermittently driven to move transversely in the placing groove through an intermittent conveying assembly and flaking through a flaking cutting assembly;

the surface of the tablet table is in threaded connection with an anti-fouling protection frame, the top of the anti-fouling protection frame is provided with an operation hole site, meanwhile, the size of the anti-fouling protection frame is larger than that of the transmission block, and the length of the anti-fouling protection frame is larger than the width of the transverse movement of the transmission block; blade on the film-making cutting assembly comprises location heating seat, mounting hole, coiling groove, heater wire and cutting part, and location heating seat surface sets up the mounting hole and the coiling groove, and the inside of coiling groove is fixed simultaneously to location heating seat bottom and cutting part fixed connection.

Further, one end of the main transmission arm far away from the driving plate is movably connected with the transmission plate, one end of the transmission plate far away from the main transmission arm is movably connected with the first fixing seat, and meanwhile, the main transmission arm and the auxiliary transmission arm are combined together to form a Y-shaped arrangement.

Further, the section of the transmission block is in a right trapezoid shape, the motion track of the transmission block is in an oval shape, and meanwhile the transmission block drives cheese strips to intermittently move transversely in the motion process.

Further, the one end that the drive plate kept away from the main arm that passes through axis of rotation movable mounting is fixed at the tip of second fixing base, and the axis of rotation of drive plate tip and the output shaft of first sprocket, simultaneously the size looks adaptation of first sprocket and second sprocket to carry out the transmission through the chain between first sprocket and the second sprocket.

Further, the driving plate rotates and drives through main arm, from arm drive transmission seat, connection piece and drive block, and after the intermittent type sideslip of drive block drive cheese strip passes through the blade section, cheese piece is from the inside landing track landing to the whereabouts passageway and collect through the collecting box.

Compared with the prior art, the invention has the beneficial effects that:

1. when the main transmission arm and the auxiliary transmission arm move, one end of the main transmission arm, which is far away from the driving plate, is limited through the driving plate, the main transmission arm and the auxiliary transmission arm swing reciprocally, and cheese strips are intermittently conveyed and flaked through the driving block;

2. the intermittent conveying assembly and the driving source of the slice-making cutting assembly can be realized through a group of servo motors, two groups of driving sources are not needed, the purposes of reducing the manufacturing cost and the weight of the device can be realized, the manufacturing cost of the device is lower, the selling price of the device is reduced, the device can be purchased by small and medium enterprises, the market prospect is wide, and meanwhile, the manual slicing mode is driven, so that time and labor are saved when a large amount of cheeses are sliced.

Drawings

FIG. 1 is a schematic elevational view of the structure of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure A-A of FIG. 1, which is a structural diagram of the present invention;

FIG. 3 is a schematic view of the cutting and conveying of a cheese strip of the present invention;

FIG. 4 is a schematic diagram of a transmission assembly of a transmission block according to the present invention;

FIG. 5 is a schematic view of a transverse cross-sectional structure of a structural placement tank according to the present invention;

FIG. 6 is a schematic view of an anti-fouling protective frame of the structure of the invention;

fig. 7 is a schematic view of a structural blade of the present invention.

Reference numerals in the drawings: 1. a tablet-making table; 100. an anti-fouling protective frame; 1001. operating the hole site; 2. a placement groove; 3. cheese strips; 4. a limit groove; 5. support legs; 6. a falling rail; 7. a collection box; 8. a falling channel; 9. a fixing frame; 10. a flaking and cutting assembly; 101. a servo motor; 102. a cam; 103. a driving wheel; 104. a mounting base; 105. a blade; 1051. positioning a heating seat; 1052. a mounting hole; 1053. a spiral groove; 1054. a heating wire; 1055. a cutting section; 106. a rotating shaft; 107. a support base; 108. a limit rail; 109. a limiting block; 110. a return spring; 11. an intermittent delivery assembly; 111. a transmission block; 112. a connecting sheet; 113. a transmission seat; 114. a drive plate; 115. a first fixing seat; 116. a main transmission arm; 117. a slave arm; 118. the second fixing seat; 119. a driving plate; 120. a first sprocket; 121. a chain; 122. a second sprocket.

Description of the embodiments

The first embodiment is as follows: referring to fig. 1-7, the present invention provides a technical solution: the cheese processing pelleter comprises a pelleter stage 1, wherein the bottom of the pelleter stage 1 is uniformly supported and fixed through a plurality of groups of supporting legs 5, cheese strips 3 are placed on the surface of the pelleter stage 1, a falling channel 8 is formed in the end part of the pelleter stage 1, a collecting box 7 is arranged at the bottom of the falling channel 8, a fixing frame 9 is arranged on the pelleter stage 1 in a threaded connection manner, an intermittent conveying component 11 is arranged on the left side of the fixing frame 9, and a pelleter cutting component 10 is arranged on the right side of the fixing frame 9;

the flaking cutting assembly 10 consists of a servo motor 101, a cam 102, a driving wheel 103, a mounting seat 104, a blade 105, a rotating shaft 106, a supporting seat 107, a limiting rail 108, a limiting block 109 and a reset spring 110, wherein the servo motor 101 is fixed on a fixed frame 9 through a stand, an output shaft of the servo motor 101 is fixed with the rotating shaft 106, the cam 102 and a second chain wheel 122 are respectively arranged on the rotating shaft 106, the driving wheel 103 is arranged at the bottom of the cam 102, the driving wheel 103 is movably arranged on the mounting seat 104, and the blade 105 is fixedly arranged at the bottom of the mounting seat 104;

the intermittent conveying assembly 11 is composed of a transmission block 111, a connecting sheet 112, a transmission seat 113, a transmission plate 114, a first fixing seat 115, a main transmission arm 116, a secondary transmission arm 117, a second fixing seat 118, a driving plate 119, a first chain wheel 120, a chain 121 and a second chain wheel 122, wherein the second fixing seat 118 and the first fixing seat 115 are both in threaded connection and fixed on the fixing frame 9, meanwhile, the driving plate 119 is movably installed on the second fixing seat 118, one end of the driving plate 119, which is far away from the second fixing seat 118, is movably connected with the main transmission arm 116, the secondary transmission arm 117 is fixedly installed on the main transmission arm 116, one end, which is far away from the main transmission arm 116, of the secondary transmission arm 117 is fixed with the transmission seat 113, meanwhile, the end of the transmission seat 113 is in welded fixation with the connecting sheet 112, and the surface of the connecting sheet 112 is welded and the transmission block 111.

Working principle: when the cheese strip processing device is used, cheese strips 3 to be processed in flaking are placed on a flaking table 1, an external switch of a servo motor 101 is started at the moment, the servo motor 101 is used as a driving source, and flaking work is performed on the cheese strips 3 through a flaking cutting assembly 10;

the long cheese strips 3 are intermittently conveyed through the intermittent conveying component 11, and the intermittent conveying distance is consistent with the thickness of the cheese slices after being sliced;

the working mode of the flaking cutting assembly 10 is as follows: the cam 102 rotates under the drive of the motor, so that the cam 102 drives the driving wheel 103 to move downwards, the blade 105 moves downwards, and the cheese strip 3 is cut and flaked;

the second embodiment is as follows: the embodiment is further limited in the first embodiment, the cam 102 and the driving wheel 103 are oppositely arranged, the cam 102 rotates to drive the mounting seat 104 and the blade 105 to move downwards through the driving wheel 103 to slice the cheese strip 3, the surface of the slice processing table 1 is provided with the limiting groove 4, the limiting groove 4 and the blade 105 are oppositely arranged, and meanwhile, the size of the blade 105 is smaller than that of the limiting groove 4.

As shown in fig. 1-2: when the cam 102 is contacted with the driving wheel 103, the driving wheel 103 can be driven to move downwards, and the reset spring 110 at the moment compresses;

when the cam 102 is separated from the transmission wheel 103, the reset spring 110 resets, so that the blade 105 is restored to the initial position, and one slicing period of the cheese strip 3 is completed.

And a third specific embodiment: the present embodiment is further limited to the first embodiment, in which the mounting base 104 is made of metal, the bottom section of the mounting base is in an isosceles triangle shape, the bottom of the mounting base 104 is provided with a positioning groove, and the upper end of the blade 105 is inserted into the positioning groove and fixed by a bolt.

As shown in fig. 1-2: the upper end of the blade 105 is inserted into the positioning groove and fixed by bolts; the blade 105 is detachable, so that the blade 105 can be replaced conveniently;

the reset spring 110 is arranged on the mounting seat 104; when the mount 104 moves downward, the return spring 110 stretches;

after the force acting on the mount 104 is removed, the return spring 110 springs back so that the mount 104 returns to the original position.

The specific embodiment IV is as follows: this embodiment is further limited by the first embodiment, the two ends of the bottom of the mounting seat 104 are fixedly provided with the limiting blocks 109, the tablet table 1 and the fixing frame 9 are supported and fixed by the supporting seat 107, meanwhile, the inner wall of the supporting seat 107 is provided with the limiting rail 108, the limiting rail 108 is matched with the limiting block 109 in size, and the limiting block 109 is slidably arranged in the limiting rail 108.

As shown in fig. 1-2: when the mounting base 104 is lifted, the limiting blocks 109 at the two ends of the mounting base are slidably arranged in the limiting rails 108, so that the vertically moving mounting base 104 can be limited and guided, and the blade 105 can be prevented from tilting when lifted.

Fifth embodiment: this embodiment is further defined as the first embodiment, in which a fixing plate is welded to the upper side of the end of the supporting seat 107, and a return spring 110 is installed between the fixing plate and the mounting seat 104, and two sets of return springs 110 are disposed in parallel.

As shown in fig. 2: the mounting base 104 is welded with hooks, and the mounting sheet is welded with hooks, and the return spring 110 can be mounted between the mounting base 104 and the mounting sheet by two sets of hooks which are oppositely arranged.

Specific embodiment six: the embodiment is further limited in the first embodiment, the surface of the flaking table 1 is provided with a placing groove 2, the depth of the placing groove 2 is 0.5cm, meanwhile, the placing groove 2 is matched with the size of the cheese strip 3, the cheese strip 3 is inserted into the placing groove 2, and the cheese strip 3 is intermittently driven to transversely move in the placing groove 2 through an intermittent conveying assembly 11 and flaked through a flaking cutting assembly 10;

the surface of the tablet table 1 is in threaded connection with an anti-fouling protection frame 100, an operation hole site 1001 is formed in the top of the anti-fouling protection frame 100, meanwhile, the size of the anti-fouling protection frame 100 is larger than that of a transmission block 111, and the length of the anti-fouling protection frame 100 is larger than the width of the transverse movement of the transmission block 111; blade 105 on the film-making cutting assembly 10 comprises location heating seat 1051, mounting hole 1052, coiling groove 1053, heater wire 1054 and cutting portion 1055, and location heating seat 1051 surface sets up mounting hole 1052 and coiling groove 1053, and the inside fixed heater wire 1054 that sets up of coiling groove 1053 simultaneously to location heating seat 1051 bottom and cutting portion 1055 fixed connection.

As shown in fig. 6-7: the surface of the flaking table 1 is in threaded connection with the anti-fouling protective frame 100, the anti-fouling protective frame 100 is wrapped on the outer side of the cheese strip 3, so that the cheese strip 3 can be fouled, and the situation that lubricating oil drops on a rotating mechanical structure above the cheese strip 3 fall on the surface of the cheese strip 3 and pollute the cheese strip 3 is avoided; the surface of the anti-fouling protective frame 100 is provided with an operation hole site 1001, and the transmission block 111 passes through the operation hole site 1001 to drive the frozen cheese strips 3 to transversely move, so that the anti-fouling protective frame 100 and the transmission block 111 are prevented from generating motion interference;

when the cheese strip 3 is cut, the size of the cheese strip 3 in the feeding process and the size of the thickness of the cheese strip 3 in the cutting process are transversely moved, when the cheese strip is adjusted, the cheese strip is realized by replacing main transmission arms 116 with different lengths, the movement amplitude of the transmission block 111 is adjusted by using the main transmission arms 116 with different lengths, and the contact time between the transmission block 111 and the cheese strip 3 is adjusted, so that the feeding size and the size of the thickness of the cheese strip 3 in the cutting process are adjusted; the longer the contact time between the transmission block 111 and the cheese strip 3, the thicker the cut cheese strip 3, and vice versa;

when the blade 105 cuts the frozen cheese strip 3, the positioning heating seat 1051 needs to be heated by the heating wire 1054, and the positioning heating seat 1051 is heated to heat the cutting part 1055, so that the cheese cannot be stuck on the blade 105 when the cutting part 1055 with high surface temperature cuts the frozen cheese strip 3, and the situation of sticking the knife is avoided;

in order to facilitate conveying work of the cut cheese slices, the collecting box 7 in the case can be changed into a sterile conveying belt, and the cheese slices fall onto the conveying belt through the falling channel 8 after being cut, so that the conveying work of the cut cheese slices is facilitated.

As shown in fig. 1-4: the cheese strip 3 is intermittently driven and transversely moved in the placing groove 2 through the intermittent conveying assembly 11 and flaked through the flaking and cutting assembly 10;

the intermittent conveying component 11 is driven by a servo motor 101, and the intermittent conveying component 11 works in the following manner:

the second sprocket 122 rotates under the drive of the servo motor 101, the first sprocket 120 is driven to rotate by the chain 121, the first sprocket 120 drives the driving plate 119, the driving plate 119 drives the transmission block 111, the connecting sheet 112 and the transmission seat 113 to perform elliptical motion through the main transmission arm 116 and the auxiliary transmission arm 117, the transmission block 111 is caused to contact with the upper surface of the cheese strip 3, and the cheese strip 3 is pushed to perform transverse motion.

Seventh embodiment: the present embodiment is further limited to the first embodiment, where one end of the main transmission arm 116 away from the driving plate 119 is movably connected with the transmission plate 114, and one end of the transmission plate 114 away from the main transmission arm 116 is movably connected with the first fixing seat 115, and meanwhile, the main transmission arm 116 and the auxiliary transmission arm 117 are combined together to form a Y-shaped arrangement.

As shown in fig. 1-5: when the main arm 116 and the auxiliary arm 117 move, one end of the main arm 116, which is far away from the driving plate 119, is limited by the driving plate 114, the main arm 116 and the auxiliary arm 117 swing reciprocally, and the cheese strip 3 is intermittently conveyed and flaked by the driving block 111.

Eighth embodiment: the present embodiment is further limited to the first embodiment, the cross section of the transmission block 111 is in a right trapezoid shape, the motion track of the transmission block 111 is in an oval shape, and the transmission block 111 drives the cheese strip 3 to intermittently move in a traversing manner in the motion process.

The transmission block 111 drives the cheese strip 3 to intermittently move transversely in the moving process, when the end part of the transmission block 111 moves to be right above the cheese strip 3, the cheese strip 3 can be stressed, when the transmission block 111 continues to move from left to right, the cheese strip 3 can be driven to be conveyed from left to right, and when the end part of the transmission block 111 is separated from the cheese strip 3, the cheese strip 3 is in a static state, so that intermittent driving and transverse moving of the cheese strip 3 is realized; thereby realizing intermittent sheet making work;

when the cheese strip 3 between the transmission block 111 and the blade 105 cannot be conveyed through the transmission block 111, the section of cheese strip 3 can be removed for manual flaking.

Detailed description nine: the present embodiment is further limited by the first embodiment, where one end of the driving plate 119, which is far away from the main transmission arm 116, is movably mounted at the end of the second fixing seat 118 through a rotation shaft, and the rotation shaft at the end of the driving plate 119 is fixed to the output shaft of the first sprocket 120, and meanwhile, the sizes of the first sprocket 120 and the second sprocket 122 are adapted, and the first sprocket 120 and the second sprocket 122 are driven through the chain 121.

As shown in fig. 1-2: the intermittent conveying assembly 11 is driven by a servo motor 101 as a driving source, and when the servo motor 101 rotates, the first chain wheel 120, the chain 121 and the second chain wheel 122 drive the driving plate 119 to move, so that the driving block 111 conveys the cheese strips 3.

Detailed description ten: this embodiment is further defined in the first embodiment, the driving plate 119 is driven to rotate by the main arm 116 and the auxiliary arm 117 to drive the transmission seat 113, the connecting piece 112 and the transmission block 111, and the transmission block 111 drives the cheese strip 3 to intermittently move and slice through the blade 105, and then the cheese strip slides from the falling rail 6 into the falling channel 8 and is collected by the collecting box 7.

As shown in fig. 1-2: the intermittent conveying assembly 11 and the driving source of the slice-making cutting assembly 10 can be realized through a group of servo motors 101, two groups of driving sources are not needed, and the purposes of reducing the manufacturing cost and the weight of the device can be realized, so that the manufacturing cost of the device is lower, the selling price of the device is reduced, the device can be purchased by small and medium enterprises, the market prospect is wide, and meanwhile, the manual slice-making mode is driven, so that time and labor are saved when a large amount of cheeses are sliced.

The collecting box 7 can be replaced by a conveyer belt device, and the product falling from the falling channel 8 can be conveyed from the conveyer belt for a long distance.

Claims

1. The utility model provides a cheese processing pelleter, includes pelleter (1), and the bottom of pelleter (1) is even supports fixedly its characterized in that through multiunit supporting leg (5): cheese strips (3) are placed on the surface of the flaking table (1), a falling channel (8) is formed in the end part of the flaking table (1), a collecting box (7) is installed at the bottom of the falling channel (8), a fixing frame (9) is installed on the flaking table (1) in a threaded connection mode, an intermittent conveying assembly (11) is installed on the left side of the fixing frame (9), and a flaking cutting assembly (10) is installed on the right side of the fixing frame (9);

the slice making and cutting assembly (10) consists of a servo motor (101), a cam (102), a driving wheel (103), a mounting seat (104), a blade (105), a rotating shaft (106), a supporting seat (107), a limiting rail (108), a limiting block (109) and a reset spring (110), wherein the servo motor (101) is fixed on a fixed frame (9) through a machine seat, an output shaft of the servo motor (101) is fixed with the rotating shaft (106), the cam (102) and a second chain wheel (122) are respectively arranged on the rotating shaft (106), the driving wheel (103) is arranged at the bottom of the cam (102), the driving wheel (103) is movably arranged on the mounting seat (104), and the blade (105) is fixedly arranged at the bottom of the mounting seat (104);

intermittent type transport subassembly (11) comprises transmission piece (111), connection piece (112), transmission seat (113), drive plate (114), first fixing base (115), main arm (116), from arm (117), second fixing base (118), drive plate (119), first sprocket (120), chain (121) and second sprocket (122), and second fixing base (118) and first fixing base (115) all spiro union are fixed on mount (9), movable mounting drive plate (119) on second fixing base (118) simultaneously, and the one end that second fixing base (118) was kept away from to drive plate (119) and main arm (116) swing joint, fixed mounting is from arm (117) on main arm (116), and the one end that main arm (116) was kept away from arm (117) is fixed with transmission seat (113), simultaneously, the welding of transmission seat (113) tip and connection piece (112) is fixed, and the surface and the transmission piece (111) welding of connection piece (112) are fixed.

2. The cheese processing pelleter of claim 1 wherein: the cam (102) and the driving wheel (103) are oppositely arranged, the cam (102) rotates to drive the mounting seat (104) and the blade (105) to move downwards to slice the cheese strips (3) through the driving wheel (103), the limiting groove (4) is formed in the surface of the slice-making table (1), the limiting groove (4) and the blade (105) are oppositely arranged, and meanwhile, the size of the blade (105) is smaller than that of the limiting groove (4).

3. The cheese processing pelleter of claim 1 wherein: the bottom section of the mounting seat (104) is made of metal materials and is of an isosceles triangle structure, the bottom of the mounting seat (104) is provided with a positioning groove, and meanwhile the upper end of the blade (105) is inserted into the positioning groove and fixed through a bolt.

4. The cheese processing pelleter of claim 1 wherein: limiting blocks (109) are fixedly installed at two ends of the bottom of the mounting seat (104), the tablet-making table (1) and the fixing frame (9) are supported and fixed through the supporting seat (107), meanwhile, limiting rails (108) are arranged on the inner wall of the supporting seat (107), the limiting rails (108) are matched with the limiting blocks (109) in size, and the limiting blocks (109) are slidably arranged in the limiting rails (108).

5. The cheese processing pelleter of claim 1 wherein: and a fixed mounting sheet is welded on the upper side of the end part of the supporting seat (107), a return spring (110) is arranged between the mounting sheet and the mounting seat (104), and two groups of return springs (110) are arranged in parallel.

6. The cheese processing pelleter of claim 1 wherein: the surface of the flaking table (1) is provided with a placing groove (2), the depth of the placing groove (2) is 0.5cm, meanwhile, the placing groove (2) is matched with the size of the cheese strips (3), the cheese strips (3) are inserted into the placing groove (2), and the cheese strips (3) are intermittently driven to move transversely in the placing groove (2) through an intermittent conveying assembly (11) and flaking through a flaking cutting assembly (10);

the surface of the tablet table (1) is in threaded connection with an anti-fouling protection frame (100), an operation hole site (1001) is formed in the top of the anti-fouling protection frame (100), meanwhile, the size of the anti-fouling protection frame (100) is larger than that of a transmission block (111), and the length of the anti-fouling protection frame (100) is larger than the amplitude of transverse movement of the transmission block (111); blade (105) on film-making cutting assembly (10) are by location heating seat (1051), mounting hole (1052), spiral groove (1053), heater wire (1054) and cutting part (1055) are constituteed, and location heating seat (1051) surface sets up mounting hole (1052) and spiral groove (1053), and the inside of spiral groove (1053) is fixed simultaneously sets up heater wire (1054) to location heating seat (1051) bottom and cutting part (1055) fixed connection.

7. The cheese processing pelleter of claim 1 wherein: one end of the main transmission arm (116) far away from the driving plate (119) is movably connected with the transmission plate (114), one end of the transmission plate (114) far away from the main transmission arm (116) is movably connected with the first fixing seat (115), and meanwhile the main transmission arm (116) and the auxiliary transmission arm (117) are combined together to form a Y-shaped arrangement.

8. The cheese processing pelleter of claim 1 wherein: the section of the transmission block (111) is in a right trapezoid shape, the motion track of the transmission block (111) is in an oval shape, and meanwhile the transmission block (111) drives the cheese strips (3) to intermittently move transversely in the motion process.

9. The cheese processing pelleter of claim 1 wherein: one end of the driving plate (119) far away from the main transmission arm (116) is movably mounted at the end part of the second fixing seat (118) through a rotating shaft, the rotating shaft at the end part of the driving plate (119) is fixed with the output shaft of the first sprocket (120), meanwhile, the first sprocket (120) is matched with the second sprocket (122) in size, and the first sprocket (120) and the second sprocket (122) are in transmission through a chain (121).

10. The cheese processing pelleter of claim 1 wherein: the driving plate (119) rotates to drive the transmission seat (113), the connecting sheet (112) and the transmission block (111) through the main transmission arm (116) and the auxiliary transmission arm (117), and the transmission block (111) drives the cheese strip (3) to intermittently move transversely and cut into slices through the blade (105), and then the cheese strip slides into the falling channel (8) from the falling track (6) and is collected through the collecting box (7).