CN115674322A - Automatic slicing and mixing machine for coiled long vegetable and slicing and mixing technology - Google Patents

Abstract

The invention relates to an automatic slicing and mixing machine for a coiled dragon dish and a slicing and mixing process, which relate to the technical field of automatic slicing of dishes and comprise a machine base, a production line conveyor belt arranged on the machine base and the coiled dragon dish distributed on the production line conveyor belt and to be sliced, wherein a manufacturing device for automatically slicing the coiled dragon dish and a film wrapping device for pre-packaging the sliced coiled dragon dish are arranged on the machine base; the automatic slicing machine has the advantages that automatic slicing can be performed on the coiled long vegetable, slicing efficiency is improved, requirements of automatic production line production are met, meanwhile, the thickness of the sliced coiled long vegetable can be rapidly adjusted, and the sliced coiled long vegetable is pre-packaged, so that the effect of facilitating subsequent finished product manufacturing is achieved.

Description

Automatic slicing and mixing machine for coiled long vegetable and slicing and mixing technology

Technical Field

The application relates to the technical field of automatic slicing of dishes, in particular to an automatic slicing and mixing machine for flat dragon dishes and a slicing and mixing process.

Background

The dish dragon is called dish dragon, sliced and popular name is chopped dish, and when the dish is named in Ming dynasty Jiajing Shang Ji, the Xiri palace imperial diet' famous for eating meat but not seeing meat has been known for more than 500 years so far, the making skills of the dish dragon are listed in Chinese menu and Hubei province non-material culture heritage record, and the dish dragon is also evaluated as one of ten classical famous dishes in Hubei. The flat dragon dish is prepared by selecting fresh pork, fish and egg as main raw materials, cutting, rolling, stirring, seasoning, wrapping, steaming and the like. The flat dragon dish is steamed by big fire, then is sliced, is placed into a coiled shape and is buckled in a dish, has beautiful shape, delicious taste and rich nutrition, can be steamed, fried and distilled in inheritance, can be used as a hot pot, a lower strip, a quick-boiled soup and the like, has delicious color, is fragrant, tender and delicious, and is oily but not greasy. When the flat dragon dish is eaten, the flat dragon dish is usually cut into slices and then cooked according to different requirements, the existing slices of the flat dragon dish are usually sliced manually, the efficiency is low, the flat dragon dish cannot be suitable for large-scale production line production, and the hidden danger of food sanitation exists.

For example, in the existing chinese patent with publication number CN105773683A, it discloses a device and method for slicing coiled long dish, which includes a frame with a slicing table and a motor, a guide groove perpendicular to the slicing table is arranged on the frame, a knife holder moving up and down along the guide groove and a blade fixed on the knife holder are movably connected on the guide groove, a first connecting rod is movably connected on the knife holder, a motor shaft with a crankshaft is connected on the motor; the crankshaft is also in transmission connection with a pusher dog, and a transmission shaft and a rack are arranged on the rack; the transmission shaft is provided with a ratchet wheel and a gear, the slicing table is provided with a first flat dragon dish propelling device and a first guide rail, the flat dragon dish propelling device is composed of a propelling seat and a flat dragon dish plate connected with the propelling seat, and the propelling seat is sleeved on the first guide rail and connected with the rack. According to the prior art, the coiled long vegetable is placed on the coiled long vegetable plate, the coiled long vegetable pushing device pushes the coiled long vegetable to be below the cutter holder under the action of the motor, the motor shaft rotates and converts the rotation into the linear reciprocating motion of the cutter holder along the guide groove through the crankshaft and the connecting rod I, the cutter holder drives the blade to move up and down to continuously slice the coiled long vegetable, and the sliced long vegetable is smooth and does not stick to the cutter under the combined action of the ascending baffle I, the ascending baffle II, the electric heating blade and the oil spraying device; the motor shaft rotates to drive the pusher dog to reciprocate, so that the ratchet is pushed to intermittently rotate, the driving gear moves linearly, the coiled and elongated vegetable plate connected with the pushing seat moves forwards, and the coiled and elongated vegetable sheet with uniform slices is obtained.

However, the above prior art has the following technical drawbacks:

first, although above-mentioned prior art can realize mechanized coil dragon dish section, all need the manual work to put the vegetable on the chopping board at every turn when slicing coil dragon dish, need again after the mechanized section manual work to take off again and put into new dish to the chopping board not sliced again on, inefficiency does not be applicable to the preparation of automation line.

The second point, above-mentioned prior art is through heating the blade after spraying edible oil to the blade surface to dish article when avoiding slicing the coil dragon dish is attached to the blade, thereby lead to the increase of section cost and cause the waste to the edible oil, still need in time clear up blade and around after the section, in order to avoid breeding the bacterium, can increase the cost of labor and increase work load.

Therefore, on the basis of the existing slicing device and method for the coiled dragon, in order to overcome the technical defects, the space for improving the slicing device and the slicing method for the coiled dragon still exists.

Disclosure of Invention

In order to carry out automatic slicing to the coil dragon dish and satisfy the demand of automatic production line production in order to improve section efficiency, can carry out quick adjustment to the thickness of the coil dragon dish of cutting simultaneously to carry out the preparation of convenient follow-up off-the-shelf of prepackaging to the coil dragon dish after the section, this application provides a coil dragon dish automatic slicing blendor and section compounding technology.

First aspect, the application provides a pair of automatic slicing blender of coiled dragon dish adopts following technical scheme:

an automatic slicing and mixing machine for coiled dragon dishes comprises a machine base, a production line conveyor belt arranged on the machine base and the coiled dragon dishes to be sliced distributed on the production line conveyor belt, wherein a manufacturing device for automatically slicing the coiled dragon dishes and a film wrapping device for pre-packaging the sliced coiled dragon dishes are arranged on the machine base;

the making devices includes the aircraft bonnet shell of fixed mounting on the machine base, it is provided with the device base to slide from top to bottom in the aircraft bonnet shell, set up the gliding vertical movement spout from top to bottom that supplies the device base on the aircraft bonnet shell, be provided with between aircraft bonnet shell and the device base and be used for gliding actuating cylinder about the drive arrangement base, set up two lines of footpath kerfs that supply the device base both sides gliding on the machine base, one side that the machine base is close to flat dragon dish is provided with the integration subassembly that carries out interval adjustment to flat dragon dish, install in the device base and carry out automatic sliced section mechanism and the adjustment mechanism that adjusts to the section thickness of flat dragon dish to flat dragon dish after the integration.

Preferably, the integration component comprises a rectangular clamping seat, fixed frame rods and a smooth sleeve, the rectangular clamping seat is symmetrically and fixedly installed on a machine base close to one side of the flat dragon dish, the fixed frame rods are fixedly clamped on the two rectangular clamping seats, and the smooth sleeve is fixedly arranged between the two fixed frame rods through the two long clamping rods.

Preferably, the slicing mechanism includes cutting rod, equipment box, installation round bar, cutting steel wire and anti-adhesion subassembly, and is a plurality of the cutting rod slides through the forked tail slider and locates in the device base, set up the gliding forked tail spout that supplies the forked tail slider on the device base, the equipment box symmetry is fixed to be located the cutting rod inboard, installation round bar one end is rotated and is located in the equipment box, and one side that the cutting rod was kept away from to the other end pierces through the equipment box outwards stretches out, set up on the equipment box and supply the installation round bar to pierce through the hole of stretching out, the cutting steel wire can be dismantled and set up between two installation round bars, anti-adhesion subassembly is located in the equipment box.

Preferably, the anti-adhesion assembly includes that rotation thorn gear, stock slide, drive ratch, push down spring, card establish piece, restriction piece and rectangular support pole, rotate the fixed cover of thorn gear and establish on the installation round bar that is in the equipment box, stock slide fixed mounting is on the equipment box inner wall, drive ratch slides and locates on the stock slide and with rotate thorn gear engagement, and the lower extreme pierces through the equipment box and stretches out downwards, set up on the stock slide and supply the gliding convex spout of drive ratch, set up on the equipment box and supply the drive ratch lower extreme to pierce through the ratch hole that stretches out, push down spring locates the convex spout, and the lower extreme is contradicted at drive ratch upside, the card establishes piece fixed mounting and is in the outer drive ratch upside of convex spout, the restriction piece is fixed to be located the stock slide outside, two rectangular support pole difference fixed mounting is in two line footpath side grooves.

Preferably, adjustment mechanism includes the regulation pole, down the regulation pole, goes up drive strip, lower drive strip and drive assembly, go up the regulation pole and rotate the symmetry respectively with lower regulation pole and locate on the device base inside wall, a plurality of on the one end of going up drive strip and lower drive strip equidistance respectively rotate locate on adjusting the pole and lower regulation pole, the other end sets up articulated each other, go up the hinged end of drive strip and lower drive strip through a plurality of drive posts respectively with a plurality of cutting pole fixed connection, drive assembly locates in the device base.

Preferably, drive assembly includes that rectangle base piece, drive lead screw, conflict drive piece, gag lever post, linkage area and regulator, rectangle base piece symmetry is fixed to be located on the device base inside wall, two drive lead screw rotates respectively to be located on two rectangle base pieces and pierces through the device base and upwards stretches out, set up on the device base and supply the drive lead screw to pierce through the lead screw hole that stretches out, conflict drives a piece symmetry cover and establishes on drive lead screw, gag lever post one end is fixed to be located on the rectangle base piece, and the other end runs through conflict drives piece and device base inside wall fixed connection, conflict drives to run through on the piece and sets up the through hole that supplies the gag lever post to pierce through, linkage area cover is established and is stretched out the end at two drive lead screws, the regulator is located on the device base.

Preferably, the regulator includes transmitting gear, fixed side seat, adjusting gear and ya keli translucent cover, the fixed cover of transmitting gear is established on one of them drive lead screw, and is located two conflicts and drives middle part position department between the piece, fixed side seat fixed mounting is on the device base lateral wall that is close to transmitting gear one side, adjusting gear rotates and locates on the fixed side seat and pierce through device base and transmitting gear meshing, set up the meshing mouth that supplies adjusting gear and transmitting gear meshing on the device base, the ya keli translucent cover is located on the device base, pierce through on the device base and set up the viewing aperture that supplies the installation of ya keli translucent cover.

Preferably, wrap up in membrane device and include device tailstock, semicircle nipper, drive tooth post, rectangle long slab, drive tooth piece and tectorial membrane subassembly, device tailstock fixed mounting keeps away from one side of integrating the subassembly at the device base, two the semicircle nipper is located on the device tailstock through two fixed bull stick symmetries rotations respectively, two drive tooth post is fixed the cover respectively and is established on two fixed bull sticks, rectangle long slab one end fixed mounting is on the roof in the aircraft bonnet shell, and the other end passes downwardly extending between device tailstock and the two drive tooth posts, run through on the device and set up the long slab mouth that supplies the rectangle long slab to pass, drive tooth piece fixed mounting is in rectangle long slab extension end, the tectorial membrane subassembly is located on the machine base of semicircle nipper below.

Preferably, the tectorial membrane subassembly includes the device box, unreels roller, wind-up roll, packaging film, rolling thorn gear, microscler rack and drive yoke, the device box symmetry is fixed to be located on the machine base of device tailstock below, unreel roller and wind-up roll rotate respectively and locate two device boxes in, packaging film one end is convoluteed on unreeling the roller, and other end piercing devices box is convoluteed on the wind-up roll, set up on the device box and supply the penetrable film mouth of packaging film, two the fixed cover of rolling thorn gear is established respectively on unreeling roller and wind-up roll, two microscler rack runs through the slip respectively and locates on two device boxes, and respectively with two rolling thorn gear engagement, the device box runs through and sets up the gliding sliding hole that runs through that supplies microscler rack gliding recess, set up on the machine base and run through the sliding hole intercommunication and supply microscler rack gliding recess, the drive yoke is fixed to be located on the device, and both ends respectively with two microscler rack upside fixed connection.

On the other hand, this application still discloses a coiled long dish automatic slicing compounding technology, and this compounding technology includes following step:

s1, adjusting the distance, namely adjusting the distance between the cutting rods through an adjusting gear in a rotating adjuster according to actual needs, wherein the larger the distance is, the thicker the coiled dragon sheet cut by the cutting steel wire is, the smaller the distance between the cutting rods is, the thinner the coiled dragon sheet cut by the cutting steel wire is, and the change of the distance between the cutting rods can be observed through an acrylic transparent cover when the adjusting gear is rotated to adjust the distance between the cutting rods;

s2, integrating the dishes, wherein gaps and different sizes are formed among the dishes to be sliced in the actual production process, in order to integrate the dishes and improve the slicing efficiency, the production line conveyor belt operates and can convey the dishes to be sliced into the smooth sleeve in the integration assembly, the dishes conveyed into the smooth sleeve cannot move continuously due to the fact that the dishes are separated from the driving force of the production line conveyor belt, when the next dish to be sliced is conveyed into the smooth sleeve, the two dishes in the smooth sleeve are abutted together, and after the dishes in the smooth sleeve are gathered, the dishes connected end to end can be pushed out of the smooth sleeve under the driving force of the production line conveyor belt so as to achieve the effect of integrating the dishes;

s3, synchronous slicing, namely after the integrated coiled long vegetable is transferred to the position below a device base, stopping the operation of a production line conveyor belt, starting a driving cylinder to push the device base to slide downwards, descending to a certain distance, and then synchronously slicing the integrated coiled long vegetable by a plurality of cutting steel wires arranged in the device base, wherein the operation of an anti-adhesion component is completed in the process of driving the cylinder to drive the device base to slide upwards to reset, and the cutting steel wires are driven to rotate so as to avoid the condition that part of the vegetable is attached to the cutting steel wires in the slicing process;

s4, the tectorial membrane parcel when driving actuating cylinder and starting thrust unit base lapse, can drive and wrap up in the membrane device function, at first can carry out the tectorial membrane operation to sliced slice flat coil dragon dish before, a packing film for it can cover on slice flat coil dragon dish to pack in advance, utilizes the semicircle to grab the board and can pack the packing film in advance on slice flat coil dragon dish afterwards, in order to realize that follow-up can carry out the effect of finished product packing to slice flat coil dragon dish more conveniently.

In summary, the present application includes at least one of the following beneficial technical effects:

1. because the distance exists between the coiled and dragon-shaped dishes to be sliced on the production line conveying belt and the distance is different in size, the integrated assembly can enable all the coiled and dragon-shaped dishes to be sliced to be connected end to improve slicing efficiency, the production line conveying belt can convey the coiled and dragon-shaped dishes to be sliced to the smooth sleeve in the integrated assembly when in operation, the coiled and dragon-shaped dishes transferred to the smooth sleeve cannot move continuously due to the fact that the coiled and dragon-shaped dishes are separated from the driving force of the production line conveying belt, when the next coiled and dragon-shaped dish to be sliced are transferred to the smooth sleeve, the two coiled and dragon-shaped dishes in the smooth sleeve are abutted together, after the coiled and dragon-shaped dishes in the smooth sleeve are gathered, the coiled and dragon-shaped dishes connected end to end can be pushed out of the smooth sleeve under the driving force of the production line conveying belt to be sliced subsequently, the effect of eliminating the distance between the coiled and improving the slicing efficiency is achieved;

2. before slicing, firstly adjusting the distance between the cutting rods through an adjusting mechanism to achieve the effect of adjusting the slicing thickness of the flat dragon dish, starting a production line conveyor belt to convey the integrated flat dragon dish to be sliced to the lower part of a device base after the distance is adjusted, driving a cylinder to start a pushing device base to slide downwards, synchronously slicing the integrated flat dragon dish by a plurality of cutting steel wires which are arranged in the device base after the distance is reduced to a certain distance, and driving an anti-adhesion assembly to operate in the process of driving the cylinder to drive the device base to slide upwards to reset after slicing is completed to drive the cutting steel wires to rotate so as to avoid the condition that part of dishes are attached to the cutting steel wires in the slicing process;

3. can pack in advance the coiled long vegetable after the section through wrapping up in the membrane device, so that follow-up can carry out the finished product packing to slice coiled long vegetable more conveniently, improve the preparation efficiency of coiled long vegetable in the production line, when drive actuating cylinder starts thrust unit base lapse, can wrap up in the membrane device function through the drive, can cover the packaging film who is used for the pre-packing on previous sliced slice coiled long vegetable cover through the tectorial membrane subassembly, utilize the semicircle to grab the board can wrap up the packaging film in advance on slice coiled long vegetable afterwards, in order to reach the effect of packing in advance to the coiled long vegetable.

Drawings

Fig. 1 is a schematic view of the entire application.

Fig. 2 is a cross-sectional view of a component of the present application.

Fig. 3 is a schematic view of the devices of the present application.

Fig. 4 is a sectional view of the slicer mechanism.

FIG. 5 is a schematic view of an anti-adhesion assembly.

FIG. 6 is a first cross-sectional view of an anti-adhesion assembly.

FIG. 7 is a cross-sectional view of the adhesion prevention assembly two.

Fig. 8 is a cross-sectional view of the adjustment mechanism.

Fig. 9 is a cross-sectional view of the drive assembly.

Fig. 10 is an enlarged view of the area a in fig. 9.

Fig. 11 is a schematic diagram of the regulator.

Figure 12 is a cross-sectional view of a film wrapping device.

Figure 13 is an overall schematic view of a film wrapping apparatus.

FIG. 14 is a schematic view of a cover assembly.

Fig. 15 is an enlarged view of the region B in fig. 14.

FIG. 16 is a flow chart of the present application compounding process.

Description of the reference numerals: 1. a machine base; 11. a production line conveyor belt; 12. flat dragon dishes; 2. manufacturing a device; 3. a film wrapping device; 21. a hood housing; 22. a device base; 211. a vertical sliding chute; 23. a driving cylinder; 111. a path side groove; 4. an integration component; 5. a slicing mechanism; 6. an adjustment mechanism; 41. a rectangular card seat; 42. fixing the frame rod; 43. a smooth sleeve; 44. an elongated clamping bar; 51. cutting the rod; 52. an equipment box; 53. installing a round rod; 54. cutting a steel wire; 7. an anti-adhesion assembly; 55. a dovetail slide block; 221. a dovetail chute; 521. an outlet hole; 71. rotating the thorn gear; 72. a long rod slide seat; 73. a drive rack; 74. pushing down the spring; 75. clamping the sheet; 76. a limiting block; 77. a long bar-shaped abutting rod; 721. a convex chute; 522. a rack bar hole; 61. an upper adjusting rod; 62. a lower adjustment lever; 63. an upper drive bar; 64. a lower drive bar; 8. a drive assembly; 65. a drive column; 81. a rectangular base block; 82. driving the screw rod; 83. abutting against the driving sheet; 84. a limiting rod; 85. a linkage belt; 9. a regulator; 222. a screw hole; 831. a through hole; 91. a rotating gear; 92. fixing the side seat; 93. an adjusting gear; 94. an acrylic transparent cover; 223. an engagement port; 224. a viewing port; 31. a device tailstock; 32. a semicircular grabbing plate; 33. a drive tooth post; 34. a rectangular long plate; 35. a drive block; 10. a film covering assembly; 36. fixing the rotating rod; 311. a long plate opening; 101. a device cartridge; 102. unwinding rollers; 103. a wind-up roll; 104. a packaging film; 105. rolling a thorn gear; 106. an elongated rack bar; 107. a driving frame; 108. bao Mokou; 109. a sliding hole is penetrated; 112. a lower slide groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-16.

The embodiment of the application discloses an automatic slicing and mixing machine for the coiled dragon and a slicing and mixing process, the automatic slicing can be performed on the coiled dragon 12, the slicing efficiency is improved, the requirement of automatic production line production is met, meanwhile, the thickness of the cut coiled dragon 12 can be quickly adjusted, and the sliced coiled dragon 12 is pre-packaged, so that the subsequent finished products can be conveniently manufactured; in a first aspect, the present application provides an automatic slicing and mixing machine for flat dragon dishes, which includes a machine base 1, a production line conveyor belt 11 disposed on the machine base 1, and a flat dragon dish 12 distributed on the production line conveyor belt 11 for being sliced, where it is to be noted that the production line conveyor belt 11 is a transport belt for transporting the flat dragon dish 12 to be sliced in a production line, so that the structure of the whole production line conveyor belt 11 is not shown in this application, for example, a device for driving the production line conveyor belt 11 to operate, and only a part of the structure of the production line conveyor belt 11 is shown in the figure; the machine base 1 is provided with a manufacturing device 2 for automatically slicing the coiled long vegetable 12 and a film wrapping device 3 for pre-packaging the sliced coiled long vegetable 12.

The preparation is accomplished to wait the flat dragon dish 12 of piece and can be transported to making devices 2 in through producing line conveyer belt 11, can treat sliced flat dragon dish 12 through making devices 2 and carry out automatic slicing operation, and sliced thickness can carry out quick adjustment according to the actual demand, can carry out the processing of packing in advance to slice flat dragon dish 12 through wrapping up in membrane device 3 after the section is accomplished to be convenient for follow-up can carry out finished product packing to slice flat dragon dish 12 more convenient fast.

Referring to fig. 1 to 3, the manufacturing apparatus 2 includes a hood housing 21 fixedly mounted on the machine base 1, a device base 22 is disposed in the hood housing 21 in a vertically sliding manner, a vertical sliding groove 211 for the device base 22 to slide vertically is disposed on the hood housing 21, a driving cylinder 23 for the device base 22 to slide vertically is disposed between the hood housing 21 and the device base 22, two rows of radial side grooves 111 for the two sides of the device base 22 to slide vertically are disposed on the machine base 1, when the driving cylinder 23 drives the device base 22 to slide vertically, the two sides of the device base 22 enter the radial side grooves 111 on the machine base 1 in the process of sliding vertically, so that the driving cylinder 23 can smoothly drive the device base 22 to slide vertically; one side that machine base 1 is close to flat dragon dish 12 is provided with the integration subassembly 4 that carries out interval adjustment to flat dragon dish 12, installs in the device base 22 and carries out automatic sliced section mechanism 5 and the adjustment mechanism 6 that adjusts the section thickness of flat dragon dish 12 to the flat dragon dish 12 after the integration.

When the production line conveyor belt 11 functions, the coiled dragon dish 12 of treating the piece is not of uniform size to the interval through integration subassembly 4 and integrates, eliminate the interval between each coiled dragon dish 12, realize the effect of contradicting each other of each coiled dragon dish 12 head and the tail, carry out the operation of slicing in step to the coiled dragon dish 12 after integrating through slicer mechanism 5, with the improvement to the section efficiency of coiled dragon dish 12, can carry out quick adjustment to the thickness of the 12 pieces of coiled dragon dishes that cut through adjustment mechanism 6 according to the actual demand at the actual section in-process.

With continued reference to fig. 3, in order to re-integrate the flat rapeseeds 12 to be sliced and adjust the space between the flat rapeseeds 12 and improve the slicing efficiency, the integration component 4 comprises a rectangular clamping seat 41, a fixed frame rod 42 and a smooth sleeve 43; the rectangular clamping seats 41 are symmetrically and fixedly arranged on the machine base 1 close to one side of the flat dragon dish 12, the two fixing frame rods 42 are fixedly clamped on the two rectangular clamping seats 41, and the smooth sleeve 43 is fixedly arranged between the two fixing frame rods 42 through the two long clamping rods 44; it should be noted that the surface of the smooth sleeve 43 is arranged smoothly, so that the flat dragon dish 12 in the smooth sleeve 43 can slide out of the smooth sleeve 43 under the action of a slight driving force; when the production line conveyor belt 11 operates, the coiled and cut-off vegetables 12 to be sliced can be conveyed into the smooth sleeve 43, the coiled and cut-off vegetables 12 conveyed into the smooth sleeve 43 cannot move continuously due to the fact that the coiled and cut-off vegetables 12 are separated from the driving force of the production line conveyor belt 11, when the next coiled and cut-off vegetables 12 to be sliced are conveyed into the smooth sleeve 43, the two coiled and cut-off vegetables 12 in the smooth sleeve 43 can be collided together, after the coiled and cut-off vegetables 12 in the smooth sleeve 43 are gathered, the coiled and cut-off vegetables 12 which are connected together end to end can be pushed out of the smooth sleeve 43 under the driving force of the production line conveyor belt 11, the distance between the coiled and cut-off vegetables 12 to be sliced is eliminated, the largest number of coiled and cut-off vegetables 12 can be cut off every operation of the slicing mechanism 5, and slicing efficiency is improved.

Referring to fig. 4, since the automatic and synchronous slicing of the flat dragon 12 to be sliced is required, the slicing mechanism 5 includes a cutting rod 51, an equipment box 52, an installation round rod 53, a cutting steel wire 54 and an anti-adhesion assembly 7; in this embodiment, preferably twelve cutting bars 51 are slidably disposed in the device base 22 through the dovetail sliders 55, the device base 22 is provided with dovetail chutes 221 for the dovetail sliders 55 to slide, the equipment boxes 52 are symmetrically and fixedly disposed on the inner sides of the cutting bars 51, and two equipment boxes 52 are fixedly mounted on the inner sides of each cutting bar 51; one end of each installation round rod 53 is rotatably arranged in the equipment box 52, the other end of each installation round rod penetrates through one side, far away from the cutting rod 51, of the equipment box 52 and extends outwards, a protruding hole 521 for the installation round rod 53 to penetrate and extend out is formed in the equipment box 52, the cutting steel wire 54 is detachably arranged between the two installation round rods 53, when the device base 22 is driven to slide downwards by the driving cylinder 23, the cutting steel wire 54 can slice the to-be-sliced flat dragon 12 below, and the cutting steel wire 54 can be periodically detached, replaced and cleaned after being used for a period of time to avoid bacterial breeding; the anti-adhesion assembly 7 is arranged in the equipment box 52 and used for driving the installation round rod 53 to drive the cutting steel wire 54 to rotate so as to prevent a part of dishes from being attached to the cutting steel wire 54 when the cutting steel wire 54 slices the flat dragon dish 12.

Referring to fig. 5 to 7, in order to realize that the cutting wire 54 can rotate to prevent a part of dishes from being attached to the cutting wire 54 after the cutting wire 54 slices the coiled long vegetable 12, the adhesion preventing assembly 7 comprises a rotating thorn gear 71, a long rod sliding seat 72, a driving toothed rod 73, a downward pushing spring 74, a clamping piece 75, a limiting block 76 and a long strip resisting rod 77; the rotating thorn gear 71 is fixedly sleeved on the mounting round rod 53 in the equipment box 52, the long rod sliding seat 72 is fixedly mounted on the inner side wall of the equipment box 52, the driving toothed rod 73 is slidably arranged on the long rod sliding seat 72 and meshed with the rotating thorn gear 71, and the lower end of the driving toothed rod penetrates through the equipment box 52 and extends downwards, it needs to be noted that under the characteristic action of the rotating thorn gear 71, the driving toothed rod 73 is forced to slide upwards so as not to drive the rotating thorn gear 71 to rotate, and the downward sliding can drive the rotating thorn gear 71 to rotate so as to drive the cutting steel wire 54 to rotate; the long rod sliding seat 72 is provided with a convex sliding groove 721 for the driving rack bar 73 to slide, the equipment box 52 is provided with a rack bar hole 522 for the lower end of the driving rack bar 73 to penetrate and extend out, the lower push spring 74 is arranged on the convex sliding groove 721, the lower end of the push spring is abutted against the upper side of the driving rack bar 73, and the push spring 74 always has a downward pushing force on the driving rack bar 73; the clamping piece 75 is fixedly arranged at the upper side of the driving rack bar 73 outside the convex sliding chute 721, the limiting block 76 is fixedly arranged at the outer side of the long rod sliding seat 72, and under the action of the clamping piece 75 and the limiting block 76, although the pushing spring 74 always has downward pushing force on the driving rack bar 73, the driving rack bar 73 cannot be pushed to separate from the long rod sliding seat 72; the two long bars 77 are respectively fixed in the two traveling path side grooves 111.

After the device base 22 is driven by the driving cylinder 23 to slide downwards to enter the travel side groove 111, most of the driving rack bar 73 normally slides downwards to extend out of the equipment box 52 through the rack bar hole 522 under the action of the push-down spring 74, so that the lower end of the driving rack bar 73 can abut against the long abutting bar 77 to drive the driving rack bar 73 to slide upwards to be retracted into the equipment box 52, at the moment, due to the characteristic of the rotating thorn gear 71, the driving rack bar 73 cannot drive the rotating thorn gear 71 to rotate, when the slicing of the flat dragon dish 12 is completed and the driving cylinder 23 drives the device base 22 to slide upwards to reset, the driving rack bar 73 slides downwards under the action of the push-down spring 74 to drive the rotating thorn gear 71 to rotate so as to drive the cutting steel wire 54 to rotate, and the effect of avoiding partial dishes from being attached to the cutting steel wire 54 is achieved.

Referring to fig. 8, since the thickness of the slices needs to be adjusted to meet different practical requirements, the adjusting mechanism 6 includes an upper adjusting rod 61, a lower adjusting rod 62, an upper driving bar 63, a lower driving bar 64 and a driving assembly 8; the upper adjusting rod 61 and the lower adjusting rod 62 are symmetrically and rotatably arranged on the inner side wall of the device base 22, in this embodiment, one end of eleven upper driving bars 63 and eleven lower driving bars 64 are preferably and equidistantly and rotatably arranged on the upper adjusting rod 61 and the lower adjusting rod 62, and the other ends are hinged to each other, in this embodiment, it is preferable that the hinged ends of the upper driving bars 63 and the lower driving bars 64 are fixedly connected with eleven cutting rods 51 through eleven driving columns 65, it should be noted that the total number of the cutting rods 51 is preferably twelve in this embodiment, but only the eleven cutting rods 51 are fixedly connected with the hinged ends of the upper driving bars 63 and the lower driving bars 64, that is, when the upper driving bars 63 and the lower driving bars 64 are stressed, only the eleven cutting rods 51 are driven to move, and the position of the first cutting rod 51 at the head position does not change; the driving assembly 8 is provided in the device base 22 for driving the upper and lower adjustment levers 61 and 62.

Referring to fig. 9 and 10, in order to drive the upper adjusting rod 61 and the lower adjusting rod 62, so as to adjust the distance between the cutting rods 51 and adjust the thickness of the cut-sheets, the driving assembly 8 comprises a rectangular base block 81, a driving screw rod 82, an interference driving sheet 83, a limiting rod 84, a linkage belt 85 and an adjuster 9; the rectangular base blocks 81 are symmetrically and fixedly arranged on the inner side wall of the device base 22, the two driving screw rods 82 are respectively rotatably arranged on the two rectangular base blocks 81 and penetrate through the device base 22 to extend upwards, the device base 22 is provided with screw rod holes 222 for the driving screw rods 82 to penetrate through and extend out, the abutting driving sheets 83 are symmetrically sleeved on the driving screw rods 82, one end of the limiting rod 84 is fixedly arranged on the rectangular base blocks 81, the other end of the limiting rod 84 penetrates through the abutting driving sheets 83 to be fixedly connected with the inner top wall of the device base 22, and under the action of the limiting rod 84, when the driving screw rods 82 are stressed to rotate, the two abutting driving sheets 83 can be driven to synchronously slide towards opposite directions or slide towards opposite directions, so that the upper adjusting rod 61 and the lower adjusting rod 62 can be driven; the abutting driving sheet 83 is provided with a through hole 831 for the penetration of the limiting rod 84 in a penetrating way, the linkage belt 85 is sleeved at the extending ends of the two driving screw rods 82, and under the action of the linkage belt 85, when one driving screw rod 82 is stressed to rotate, the other driving screw rod 82 can be synchronously driven to rotate, so that the purpose of driving the adjusting rod 61 and the lower adjusting rod 62 on the other side is achieved; the adjuster 9 is disposed on the device base 22 and is used for controlling the driving screw 82 to rotate.

Referring to fig. 10 and 11, the structure of the adjuster 9 in the present embodiment is schematically shown, and the adjuster 9 includes a rotating gear 91, a fixed side seat 92, an adjusting gear 93, and an acrylic transparent cover 94; the rotating gear 91 is fixedly sleeved on one of the driving screw rods 82 and is located at the middle position between the two abutting driving sheets 83, the fixed side seat 92 is fixedly installed on the outer side wall of the device base 22 close to one side of the rotating gear 91, the adjusting gear 93 is rotatably arranged on the fixed side seat 92 and penetrates through the device base 22 to be meshed with the rotating gear 91, a meshing port 223 for the adjusting gear 93 to be meshed with the rotating gear 91 is formed in the device base 22, the acrylic transparent cover 94 is arranged on the device base 22, and a viewing port 224 for the acrylic transparent cover 94 to be installed is formed in the device base 22 in a penetrating mode.

When the distance between the cutting rods 51 needs to be adjusted, that is, the thickness of the cut slices is adjusted, an operator can drive the adjusting gear 93 to rotate so as to drive the driving screw rod 82 to rotate, and the driving screw rod 82 can drive the two abutting driving sheets 83 to slide on the driving screw rod 82, so that the upper adjusting rod 61 and the lower adjusting rod 62 can be driven; when the distance between the upper adjusting rod 61 and the lower adjusting rod 62 which are driven to rotate inwards is reduced, the distance between the upper driving strip 63 and the lower driving strip 64 which are correspondingly and rotatably arranged on the upper adjusting rod 61 and the lower adjusting rod 62 is reduced, namely, the position change of the hinged ends of the upper driving strip 63 and the lower driving strip 64 is realized, the cutting rods 51 are driven through the driving columns 65, and therefore the effect of adjusting the distance between the cutting rods 51 through the rotation of the driving adjusting gear 93 is realized, and the slice thickness of the flat dragon dish 12 is adjusted.

Referring to fig. 12 to 15, the sliced coiled long food 12 needs to be pre-packaged and integrated, so that subsequent finished product packaging is facilitated, and the film wrapping device 3 includes a device tailstock 31, a semicircular grabbing plate 32, a driving toothed column 33, a rectangular long plate 34, a driving toothed block 35 and a film covering assembly 10; the device tailstock 31 is fixedly arranged on one side of the device base 22 far away from the integration component 4, and when the device base 22 is driven by the driving cylinder 23 to slide up and down, the device tailstock 31 can be synchronously driven to slide up and down; the two semicircular grabbing plates 32 are symmetrically and rotatably arranged on the device tailstock 31 through two fixed rotating rods 36 respectively, the two driving toothed columns 33 are fixedly sleeved on the two fixed rotating rods 36 respectively, one end of the rectangular long plate 34 is fixedly arranged on the inner top wall of the hood shell 21, the other end of the rectangular long plate passes through the device tailstock 31 and extends downwards between the two driving toothed columns 33, a long plate opening 311 for the rectangular long plate 34 to pass through is formed in the device tailstock 31 in a penetrating mode, the driving toothed block 35 is fixedly arranged at the extending end of the rectangular long plate 34, when the device tailstock 31 descends to a certain degree, the two driving toothed columns 33 are meshed with the driving toothed block 35, the device tailstock 31 continuously descends under the action of the driving toothed block 35 and can drive the two semicircular grabbing plates 32 to synchronously rotate inwards respectively so as to achieve the effect of grabbing and gathering the sliced coiled food 12, and then the device tailstock 31 ascends and can drive the two semicircular grabbing plates 32 to synchronously rotate outwards under the action of the driving toothed block 35 so as to achieve the purpose of loosening the coiled food 12 after the slicing; the film covering assembly 10 is arranged on the machine base 1 below the semicircular grabbing plate 32 and can be matched with the semicircular grabbing plate 32 to achieve a film covering effect on sliced coiled water herbs 12.

Referring to fig. 14 and 15, in order to be matched with the semicircular grabbing plate 32 to wrap a packaging film on the sliced coiled dragon 12 to achieve a pre-packaging effect, the film covering assembly 10 comprises a device box 101, an unreeling roller 102, a reeling roller 103, a packaging film 104, a reeling thorn gear 105, a long toothed bar 106 and a driving frame 107; the device boxes 101 are symmetrically and fixedly arranged on the machine base 1 below the device tailstock 31, the unwinding roller 102 and the winding roller 103 are respectively and rotatably arranged in the two device boxes 101, one end of a packaging film 104 is wound on the unwinding roller 102, the other end of the packaging film penetrates through the device boxes 101 and is wound on the winding roller 103, it needs to be explained that the unwinding roller 102 and the winding roller 103 have certain damping, an easily-broken dotted line which can be conveniently matched with the semicircular grabbing plate 32 is equidistantly arranged on the packaging film 104, the packaging film 104 at the position can fall off when slight acting force is applied, the whole packaging film 104 is downwards covered on the sliced flat dragon food 12, and the unwinding roller 102 and the winding roller 103 have certain damping performance, so the packaging film 104 cannot drive the unwinding roller 102 and the winding roller 103 to rotate when being stressed.

The device box 101 is provided with a film opening 108 for the packaging film 104 to penetrate through, the two rolling thorn gears 105 are fixedly sleeved on the unwinding roller 102 and the winding roller 103 respectively, the two long toothed bars 106 are arranged on the two device boxes 101 in a penetrating and sliding manner and are meshed with the two rolling thorn gears 105 respectively, it is noted that under the characteristic of the rolling thorn gears 105, the long toothed bars 106 cannot drive the rolling thorn gears 105 when being stressed to slide downwards, the rolling thorn gears 105 can be driven to rotate only when the long toothed bars 106 are stressed to slide upwards, so that the unwinding roller 102 and the winding roller 103 are synchronously driven to rotate, the effect that the winding roller 103 rolls the packaging film 104 is realized when the unwinding roller 102 releases the packaging film 104, and a new packaging film 104 breakable area appears below when the semicircular grabbing plate 32 rises and returns to the initial height, and the operation of the semicircular grabbing plate 32 next time is matched; the device box 101 is provided with a through sliding hole 109 for the long rack 106 to slide, the machine base 1 is provided with a sliding groove 112 communicated with the through sliding hole 109 for the long rack 106 to slide, the driving rack 107 is fixed on the device tail seat 31, and two ends of the driving rack are respectively fixedly connected with the upper sides of the two long racks 106.

The device tailstock 31 descends to drive the semicircular grabbing plate 32 to descend, the semicircular grabbing plate 32 collides with the area, with broken lines, of the packaging film 104 in the descending process, the packaging film 104 covers the sliced flat dragon dish 12 below, then the semicircular grabbing plate 32 rotates inwards under the action of the driving toothed block 35 to grab and gather the sliced flat dragon dish 12, meanwhile, the packing film 104 is wrapped on the sliced flat dragon dish 12 synchronously, the effect of pre-packing the flaky flat dragon dish 12 is achieved, and the follow-up further finished product packing of the flat dragon dish 12 is facilitated.

Referring to fig. 16, on the other hand, the application also discloses an automatic slicing and mixing process for the flat dragon vegetable, which comprises the following steps:

s1, adjusting the distance, namely adjusting the distance between the cutting rods 51 by rotating an adjusting gear 93 in an adjuster 9 according to actual needs, wherein the larger the distance is, the thicker the 12 pieces of the coiled dragon cut by the cutting steel wire 54 is, the smaller the distance between the cutting rods 51 is, the thinner the 12 pieces of the coiled dragon cut by the cutting steel wire 54 is, and when the adjusting gear 93 is rotated to adjust the distance between the cutting rods 51, the change of the distance between the cutting rods 51 can be observed through an acrylic transparent cover 94;

s2, integrating the dishes, wherein in the actual production process, gaps and different sizes exist among the coiled cabbages 12 to be sliced, in order to integrate the dishes and improve the slicing efficiency, the production line conveyor belt 11 operates, the coiled cabbages 12 to be sliced can be conveyed into the smooth sleeve 43 in the integration component 4, the coiled cabbages 12 conveyed into the smooth sleeve 43 cannot move continuously due to the fact that the coiled cabbages 12 are separated from the driving force of the production line conveyor belt 11, when the next coiled cabbages 12 to be sliced are conveyed into the smooth sleeve 43, the two coiled cabbages 12 in the smooth sleeve 43 are abutted together, and after the coiled cabbages 12 in the smooth sleeve 43 are gathered, the coiled cabbages 12 connected end to end can be pushed out of the smooth sleeve 43 under the driving force of the production line conveyor belt 11 so as to realize the effect of integrating the dishes;

s3, synchronous slicing is carried out, after the integrated coil dragon dish 12 is transferred to the position below the device base 22, the production line conveyor belt 11 stops operating, the driving cylinder 23 starts to push the device base 22 to slide downwards, the cutting steel wires 54 which are arranged in the device base 22 after descending to a certain distance synchronously slice the integrated coil dragon dish 12 synchronously, the anti-adhesion group 7 works in the process that the driving cylinder 23 drives the device base 22 to slide upwards and reset after slicing is completed, and the cutting steel wires 54 are driven to rotate, so that the condition that part of the dish is attached to the cutting steel wires 54 in the slicing process is avoided;

s4, the tectorial membrane parcel, when drive actuating cylinder 23 starts thrust unit base 22 and slides down, can drive and wrap up in the operation of membrane device 3, at first can carry out the tectorial membrane operation to sliced slice flat dragon dish 12 before for packing film 104 of pre-packing can cover on slice flat dragon dish 12, utilize semicircle nipper 32 to wrap up packing film 104 on slice flat dragon dish 12 in advance afterwards, in order to realize that follow-up can carry out the effect of finished product packing to slice flat dragon dish 12 more conveniently.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: equivalent changes made according to the structure, shape and principle of the invention shall be covered by the protection scope of the invention.

Claims (10)

1. The utility model provides a coil dragon dish automatic slicing blendor, includes machine base (1), arranges produce line conveyer belt (11) and the coil dragon dish (12) that the distribution of treating the piece on producing line conveyer belt (11) on machine base (1), its characterized in that: the machine base (1) is provided with a manufacturing device (2) for automatically slicing the coiled long vegetable (12) and a film wrapping device (3) for pre-packaging the sliced coiled long vegetable (12);

making devices (2) include aircraft bonnet shell (21) of fixed mounting on machine base (1), it is provided with device base (22) to slide from top to bottom in aircraft bonnet shell (21), offer on aircraft bonnet shell (21) and supply device base (22) gliding perpendicular line spout (211) from top to bottom, be provided with between aircraft bonnet shell (21) and device base (22) and be used for gliding actuating cylinder (23) from top to bottom of drive device base (22), set up two lines of footpath side channels (111) that supply device base (22) both sides gliding on machine base (1), one side that machine base (1) is close to flat dragon dish (12) is provided with and carries out integration subassembly (4) of interval adjustment to flat dragon dish (12), install in device base (22) and carry out automatic sliced section's section mechanism (5) and carry out section thickness adjustment's adjustment to flat dragon dish (12) after the integration slice mechanism (6).

2. The automatic pan-long vegetable slicing and mixing machine as claimed in claim 1, characterized in that: integration subassembly (4) include rectangle cassette (41), fixed frame pole (42) and smooth sleeve (43), rectangle cassette (41) symmetry fixed mounting is on machine base (1) near one side of flat dragon dish (12), two fixed frame pole (42) fixed card is established on two rectangle cassettes (41), smooth sleeve (43) are fixed to be set up between two fixed frame poles (42) through two microscler clamping bars (44).

3. The automatic slicing and mixing machine for the flat dragon vegetable as claimed in claim 1, wherein: slicing mechanism (5) including cutting rod (51), equipment box (52), installation round bar (53), cutting steel wire (54) and prevent adhering subassembly (7), a plurality of cutting rod (51) slide through forked tail slider (55) and locate in device base (22), set up on device base (22) and supply forked tail slider (55) gliding forked tail spout (221), equipment box (52) symmetry is fixed and is located cutting rod (51) inboard, installation round bar (53) one end is rotated and is located in equipment box (52), and one side that the cutting rod (51) was kept away from in the other end pierces through equipment box (52) outwards stretches out, set up on equipment box (52) and supply installation round bar (53) to pierce through stretching out hole (521), cutting steel wire (54) can dismantle the setting between two installation round bar (53), prevent adhering subassembly (7) and locate in equipment box (52).

4. The automatic slicing and mixing machine for the flat dragon vegetable as claimed in claim 3, wherein: the anti-adhesion assembly (7) comprises a rotating thorn gear (71), a long rod sliding seat (72), a driving toothed bar (73), a downward pushing spring (74), a clamping piece (75), a limiting block (76) and a long-strip abutting bar (77), the rotating thorn gear (71) is fixedly sleeved on an installation round bar (53) in an equipment box (52), the long rod sliding seat (72) is fixedly installed on the inner side wall of the equipment box (52), the driving toothed bar (73) is slidably arranged on the long rod sliding seat (72) and meshed with the rotating thorn gear (71), the lower end of the rotating thorn gear penetrates through the equipment box (52) and extends downwards, a convex sliding groove (721) for the driving toothed bar (73) to slide is formed in the long rod sliding seat (72), a toothed bar hole (522) for the lower end of the driving toothed bar (73) to penetrate through and extend is formed in the equipment box (52), the downward pushing spring (74) is arranged on the convex sliding groove (721), the lower end of the downward pushing spring abuts against the upper side of the driving toothed bar (73), the clamping piece (75) is fixedly installed outside the convex sliding seat (721), and the driving toothed bar (76) is fixedly installed on the outer side of the long rod sliding seat (72) and the two long rod sliding groove (77) and the two long rod sliding groove (72) is fixed in the two long rod sliding groove (72).

5. The automatic slicing and mixing machine for the flat dragon vegetable as claimed in claim 3, wherein: adjustment mechanism (6) are including adjusting pole (61), adjusting rod (62) down, go up drive strip (63), drive strip (64) and drive assembly (8) down, it locates on device base (22) inside wall to go up to adjust pole (61) and adjusting rod (62) down respectively the symmetry rotate, and is a plurality of on going up drive strip (63) and the one end of drive strip (64) down equidistance respectively rotate and locate and adjust pole (61) and adjusting rod (62) down, the other end sets up articulated each other, the hinged end of going up drive strip (63) and drive strip (64) down through a plurality of drive post (65) respectively with a plurality of cutting poles (51) fixed connection, drive assembly (8) are located in device base (22).

6. The automatic slicing and mixing machine for the flat dragon vegetable as claimed in claim 5, wherein: drive assembly (8) include rectangle base piece (81), drive lead screw (82), conflict and drive piece (83), gag lever post (84), linkage area (85) and regulator (9), rectangle base piece (81) symmetry is fixed to be located on device base (22) inside wall, two drive lead screw (82) rotate respectively and locate on two rectangle base pieces (81) and pierce through device base (22) and upwards stretch out, set up on device base (22) and supply drive lead screw (82) to pierce through screw hole (222) that stretch out, conflict drive piece (83) symmetry cover is established on drive lead screw (82), gag lever post (84) one end is fixed to be located on rectangle base piece (81), and the other end runs through and drives piece (83) and device base (22) interior roof fixed connection, conflict drive on piece (83) run through and set up and supply through hole (831) that gag lever post (84) pierce through, linkage area (85) cover is established and is contradicted at two drive lead screw (82) and stretches out the end, regulator (9) are located on device base (22).

7. The automatic slicing and mixing machine for the flat dragon vegetable as claimed in claim 6, wherein: regulator (9) are including rotating gear (91), fixed side seat (92), adjusting gear (93) and ya keli translucent cover (94), rotating gear (91) fixed cover is established on one of them drive lead screw (82), and is located two conflicts and drives middle part position department between piece (83), fixed side seat (92) fixed mounting is on device base (22) lateral wall near rotating gear (91) one side, adjusting gear (93) rotate locate on fixed side seat (92) and pierce through device base (22) and rotating gear (91) meshing, set up on device base (22) and supply adjusting gear (93) and rotating gear (91) meshing mouth (223), yakeli translucent cover (94) are located on device base (22), pierce through setting up viewing aperture (224) that supply yakeli translucent cover (94) to install on device base (22).

8. The automatic slicing and mixing machine for the flat dragon vegetable as claimed in claim 1, wherein: wrap up in membrane device (3) including device tailstock (31), semicircle nipper (32), drive tooth post (33), rectangle long slab (34), drive tooth piece (35) and tectorial membrane subassembly (10), device tailstock (31) fixed mounting is kept away from the one side of integrating subassembly (4) in device base (22), two semicircle nipper (32) rotate through two fixed bull stick (36) symmetries respectively and locate on device tailstock (31), two drive tooth post (33) are fixed establishes respectively on two fixed bull stick (36), rectangle long slab (34) one end fixed mounting is on roof in aircraft bonnet shell (21), and the other end passes downwardly extending between device tailstock (31) and two drive tooth posts (33), set up long slab mouth (311) that supply rectangle long slab (34) to pass on device tailstock (31), drive tooth piece (35) fixed mounting is in rectangle long slab (34) extension end, tectorial membrane subassembly (10) are located on machine base (1) of semicircle nipper (32) below.

9. The automatic slicing and mixing machine for the flat dragon vegetable as claimed in claim 8, wherein: the film covering assembly (10) comprises a device box (101), an unwinding roller (102), a winding roller (103), a packaging film (104), a winding thorn gear (105), a long toothed bar (106) and a driving frame (107), the device box (101) is symmetrically and fixedly arranged on a machine base (1) below a device tailstock (31), the unwinding roller (102) and the winding roller (103) are respectively and rotatably arranged in the two device boxes (101), one end of the packaging film (104) is wound on the unwinding roller (102), the other end of the packaging film (104) penetrates through the device box (101) and is wound on the winding roller (103), a film opening (108) for the packaging film (104) to penetrate is formed in the device box (101), the two tail seat winding gears (105) are respectively and fixedly sleeved on the unwinding roller (102) and the winding roller (103), the two long toothed bars (106) respectively penetrate through and are slidably arranged on the two device boxes (101) and are respectively meshed with the two winding thorn gears (105), the device box (101) is provided with a sliding hole (106) for the long toothed bar (106) to penetrate through and is communicated with a sliding hole (109) of a machine base (31), and both ends are respectively fixedly connected with the upper sides of the two long toothed bars (106).

10. An automatic slicing and mixing process for a flat-dragon-vegetable, which comprises the automatic slicing and mixing machine for the flat-dragon-vegetable as claimed in any one of claims 1 to 9, and is characterized in that: the mixing process comprises the following steps:

s1, adjusting the distance, firstly, adjusting the distance between the cutting rods (51) through rotating an adjusting gear (93) in an adjuster (9) according to actual needs, wherein the larger the distance is, the thicker the thickness of a flat dragon dish (12) piece cut by a cutting steel wire (54) is, the smaller the distance between the cutting rods (51) is, the thinner the thickness of the flat dragon dish (12) piece cut by the cutting steel wire (54) is, and when the adjusting gear (93) is rotated to adjust the distance between the cutting rods (51), the change of the distance between the cutting rods (51) can be observed through an acrylic transparent cover (94);

s2, integrating the dishes, wherein gaps exist among the coil pickles to be cut (12) in the actual production process, the gaps are different in size, in order to integrate the dishes and improve the slicing efficiency, the production line conveyor belt (11) operates and can convey the coil pickles to be sliced (12) into the smooth sleeve (43) in the integration component (4), the coil pickles (12) conveyed into the smooth sleeve (43) cannot move continuously due to the fact that the coil pickles to be sliced are separated from the driving force of the production line conveyor belt (11), when the next coil pickles to be sliced (12) are conveyed into the smooth sleeve (43), the two coil pickles in the smooth sleeve (43) can be conflicted together, and after the coil pickles to be sliced (12) in the smooth sleeve (43) are gathered, the coil pickles connected together in an end-to-end mode can be conveyed out of the smooth sleeve (43) under the driving force of the production line conveyor belt (11) to achieve the effect of integrating the dishes;

s3, synchronous slicing is carried out, after the integrated flat dragon dish (12) is transferred to the position below the device base (22), the production line conveyor belt (11) stops operating, the driving cylinder (23) starts to push the device base (22) to slide downwards, a plurality of cutting steel wires (54) installed in the device base (22) after descending to a certain distance synchronously slice the integrated flat dragon dish (12), the anti-adhesion component (7) operates in the process that the slicing is completed, the driving cylinder (23) drives the device base (22) to slide upwards to reset, and the cutting steel wires (54) are driven to rotate, so that the condition that part of the dish is attached to the cutting steel wires (54) in the slicing process is avoided;

s4, the tectorial membrane parcel, when drive actuating cylinder (23) start thrust unit base (22) gliding downwards, can drive and wrap up in the function of membrane device (3), at first can carry out the tectorial membrane operation to sliced slice flat dragon dish (12) before for packing film (104) of prepackage can cover on slice flat dragon dish (12), utilize semicircle nipper (32) can be with packing film (104) prepackage on slice flat dragon dish (12) afterwards, in order to realize that follow-up can carry out the effect of finished product packing to slice flat dragon dish (12) more conveniently.

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