阅读说明：本技术 一体化食品加工方法 (Integrated food processing method ) 是由 张利英 于 2021-09-23 设计创作，主要内容包括：本发明涉及食品加工领域,具体涉及一种一体化食品加工方法。本发明通过切割片将待加工的块茎进行分片切割,同时在外界推力和块茎自身重力的作用下并利用块茎切割产生的的间隙使得块茎进入至蘸料组件内,并经过蘸料组件对根茎表面进行蘸料,最终刷料部对根茎表面进行彻底的刷料；本发明提高了腌制菜的加工效率和加工质量。(The invention relates to the field of food processing, in particular to an integrated food processing method. The tuber to be processed is cut in a slicing mode through the cutting piece, meanwhile, under the action of external thrust and the self gravity of the tuber, the tuber enters the dipping assembly through a gap generated by cutting the tuber, the surface of the rhizome is dipped through the dipping assembly, and finally the surface of the rhizome is thoroughly brushed through the brushing part; the invention improves the processing efficiency and the processing quality of the pickled vegetables.)

1. An integrated food processing method is characterized by comprising the following steps:

1) the dipping frame is adjusted to ensure that the upper slender rod is positioned at the right upper part and the lower slender rod is positioned at the right lower part;

2) pulling the insertion plate to open the opening, then putting the mixture of the chilli powder, the salt and the paprika powder into the dipping frame through the opening, and filling the dipping frame with the mixture;

3) pulling the embedded plate in the embedded groove upwards;

4) inserting a wood rod into the insertion hole, wherein the wood rod prevents the embedded plate from moving downwards, so that the position of the embedded plate is relatively fixed;

5) the fixing plate is turned outwards to enable the bottom opening to face upwards, the spherical stem blocks are placed into the limiting holes through the bottom opening, the upper parts of the spherical stem blocks penetrate through the upper end face of the upper opening, and the spherical stem blocks are wrapped and fixed by the rubber sleeve; the lower part of the spherical stem block is flush with the lower end surface of the bottom opening;

6) turning the fixing plate inwards to enable the fixing plate to be in a horizontal state again and enable the bottom opening to face downwards, and then the spherical stem blocks are still fixed by the rubber sleeve;

7) starting the first air cylinder and the second air cylinder to drive the cutting piece to move along the clearance groove, transversely cutting the spherical stem blocks in the limiting holes by the cutting piece, wherein the parts of the spherical stem blocks, which are positioned at the upper part of the clearance groove, are not cut by the cutting piece and are continuous, and feeding gaps are formed in the cut spherical stem blocks;

8) pulling out the wood pole to move the embedded plate downwards so that the bottom of the spherical stem block is abutted against and close to the upper thin pole;

9) starting a push rod, aligning the push rod with the spherical stem blocks in the limiting holes, pushing the spherical stem blocks downwards to enable the spherical stem blocks to move downwards continuously, enabling the upper thin rods to enter the feeding gap, enabling the sheet parts of the spherical stem blocks to enter the upper insertion gap, enabling the spherical stem blocks entering the dipping frame to be wrapped by the materials in the dipping frame, and enabling the spherical stem blocks to be clamped by the upper thin rods;

10) the motor is started to drive the rotary table and the dipping frame to rotate simultaneously, and when the upper slender rod is positioned at the right lower part and the lower slender rod is positioned at the right upper part, the rotary table is stopped to rotate;

11) at the moment, the spherical stem block is separated from the upper thin rod under the action of self gravity and continuously falls down onto the upper rubber layer of the material brushing part;

12) repeating the steps 5) -7) and then pulling out the wood rod to move the embedded plate downwards so that the bottom of the spherical stem block is abutted to approach the lower thin rod;

13) starting a push rod, aligning the push rod with the spherical stem blocks in the limiting holes, pushing the spherical stem blocks downwards to enable the spherical stem blocks to move downwards continuously, enabling the lower thin rods to enter the feeding gaps, enabling the sheet parts of the spherical stem blocks to enter the lower insertion gaps, enabling the spherical stem blocks entering the dipping frames to be wrapped by the materials in the dipping frames, and enabling the spherical stem blocks to be clamped by the lower thin rods;

14) the reverse motor enables the side brush to face downwards and the mixture flowing out of the side brush falls onto the spherical stem block on the upper rubber layer, the rotating side brush brushes the spherical stem block on the upper rubber layer to enable the material to enter the upper surface of the spherical stem block, the colleague side brush extrudes the spherical stem block positioned on the upper rubber layer in the rotating process, the spherical stem block enters the lower rubber layer downwards, and the space between the upper rubber layer and the lower rubber layer also contains the material, so that the spherical stem block is accumulated in the space between the upper rubber layer and the lower rubber layer and simultaneously combined with the brushing of the side brush, and the surface of the spherical stem block is fully adhered and impregnated by the material.

Technical Field

The invention relates to the field of food processing, in particular to an integrated food processing method.

Background

The traditional pickled vegetable is mainly processed manually in the pickling process, for example, when the root and stem of the root.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an integrated food processing method.

In order to achieve the purpose, the invention adopts the following technical scheme: an integrated food processing method comprises the following steps:

1) the dipping frame is adjusted to ensure that the upper slender rod is positioned at the right upper part and the lower slender rod is positioned at the right lower part;

2) pulling the insertion plate to open the opening, then putting the mixture of the chilli powder, the salt and the paprika powder into the dipping frame through the opening, and filling the dipping frame with the mixture;

3) pulling the embedded plate in the embedded groove upwards;

4) inserting a wood rod into the insertion hole, wherein the wood rod prevents the embedded plate from moving downwards, so that the position of the embedded plate is relatively fixed;

5) the fixing plate is turned outwards to enable the bottom opening to face upwards, the spherical stem blocks are placed into the limiting holes through the bottom opening, the upper parts of the spherical stem blocks penetrate through the upper end face of the upper opening, and the spherical stem blocks are wrapped and fixed by the rubber sleeve; the lower part of the spherical stem block is flush with the lower end surface of the bottom opening;

6) turning the fixing plate inwards to enable the fixing plate to be in a horizontal state again and enable the bottom opening to face downwards, and then the spherical stem blocks are still fixed by the rubber sleeve;

7) starting the first air cylinder and the second air cylinder to drive the cutting piece to move along the clearance groove, transversely cutting the spherical stem blocks in the limiting holes by the cutting piece, wherein the parts of the spherical stem blocks, which are positioned at the upper part of the clearance groove, are not cut by the cutting piece and are continuous, and feeding gaps are formed in the cut spherical stem blocks;

8) pulling out the wood pole to move the embedded plate downwards so that the bottom of the spherical stem block is abutted against and close to the upper thin pole;

9) starting a push rod, aligning the push rod with the spherical stem blocks in the limiting holes, pushing the spherical stem blocks downwards to enable the spherical stem blocks to move downwards continuously, enabling the upper thin rods to enter the feeding gap, enabling the sheet parts of the spherical stem blocks to enter the upper insertion gap, enabling the spherical stem blocks entering the dipping frame to be wrapped by the materials in the dipping frame, and enabling the spherical stem blocks to be clamped by the upper thin rods;

10) the motor is started to drive the rotary table and the dipping frame to rotate simultaneously, and when the upper slender rod is positioned at the right lower part and the lower slender rod is positioned at the right upper part, the rotary table is stopped to rotate;

11) at the moment, the spherical stem block is separated from the upper thin rod under the action of self gravity and continuously falls down onto the upper rubber layer of the material brushing part;

12) repeating the steps 5) -7) and then pulling out the wood rod to move the embedded plate downwards so that the bottom of the spherical stem block is abutted to approach the lower thin rod;

13) starting a push rod, aligning the push rod with the spherical stem blocks in the limiting holes, pushing the spherical stem blocks downwards to enable the spherical stem blocks to move downwards continuously, enabling the lower thin rods to enter the feeding gaps, enabling the sheet parts of the spherical stem blocks to enter the lower insertion gaps, enabling the spherical stem blocks entering the dipping frames to be wrapped by the materials in the dipping frames, and enabling the spherical stem blocks to be clamped by the lower thin rods;

14) the reverse motor enables the side brush to face downwards and the mixture flowing out of the side brush falls onto the spherical stem block on the upper rubber layer, the rotating side brush brushes the spherical stem block on the upper rubber layer to enable the material to enter the upper surface of the spherical stem block, the colleague side brush extrudes the spherical stem block positioned on the upper rubber layer in the rotating process, the spherical stem block enters the lower rubber layer downwards, and the space between the upper rubber layer and the lower rubber layer also contains the material, so that the spherical stem block is accumulated in the space between the upper rubber layer and the lower rubber layer and simultaneously combined with the brushing of the side brush, and the surface of the spherical stem block is fully adhered and impregnated by the material.

Compared with the prior art, the invention has the beneficial effects that: the tuber that will treat the processing is cut through the cutting piece, makes the tuber enter into the dip coating subassembly under the effect of external thrust and tuber self gravity and the clearance that utilizes the tuber cutting to produce simultaneously to the process dip coating subassembly dips in the rhizome surface, and the final brush material portion carries out thorough brush material to the rhizome surface.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, with reference to the accompanying drawings.

FIG. 1 is a schematic sectional view of a root tuber of the present invention after cutting.

Fig. 2 is a schematic perspective view of the first embodiment of the present invention.

Fig. 3 is a schematic top view of a fixing plate according to the present invention.

Fig. 4 is a schematic view of the structure F-F in fig. 3.

Fig. 5 is a schematic perspective view of the first opening plate of the present invention.

FIG. 6 is a schematic diagram of the structure E-E in FIG. 3.

Fig. 7 is a schematic perspective view of the second embodiment of the opening plate of the present invention.

Fig. 8 is a schematic perspective view of a cutting blade according to the present invention.

FIG. 9 is a perspective view of the extrusion assembly of the present invention.

FIG. 10 is a perspective view of the groove plate of the present invention.

Fig. 11 is a schematic perspective view of the second embodiment of the present invention.

FIG. 12 is a schematic perspective view of a first embodiment of a dip assembly of the present invention.

Fig. 13 is a third schematic perspective view of the present invention.

FIG. 14 is a schematic perspective view of a second embodiment of the dip assembly of the present invention.

FIG. 15 is a schematic side view of the brush holder according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following examples, which are provided only for illustrating the present invention and are not intended to limit the scope of the present invention.

Referring to fig. 1-15, an integrated food processing method includes the following steps:

1) the dipping frame 313 is adjusted so that the upper thin rod 3132 is located right above and the lower thin rod 3133 is located right below;

2) pulling the insert plate 3138 so that the opening 3136 is open and then placing the mixture of paprika, salt, and paprika powder into the dip frame 313 through the opening 3136 and filling the dip frame 313 with the mixture;

3) pulling up the insertion plate 14 inserted into the groove 131; so that the length of the embedded plate 14 relative to the groove plate 13 is increased;

4) inserting a wooden rod or other shaft into the insertion hole 140, the wooden rod preventing the insertion plate 14 from moving downward, so that the insertion plate 14 is relatively fixed in position;

5) the fixing plate 21 is turned outwards to enable the bottom opening 223 to face upwards, the spherical stem block is placed into the limiting hole 22 through the bottom opening 223, the upper portion of the spherical stem block penetrates through the upper end face of the upper opening 221, and the spherical stem block is wrapped and fixed by the rubber sleeve 2211; the lower part of the spherical stem block is flush with the lower end surface of the bottom opening 223;

6) the fixing plate 21 is turned inwards to ensure that the fixing plate 21 is in a horizontal state again and the bottom opening 223 faces downwards, at the moment, the spherical stem block is still fixed by the rubber sleeve 2211 and does not fall down,

7) the first air cylinder 251 and the second air cylinder 252 are started to drive the cutting blade 23 to move along the clearance groove 24, the cutting blade 23 transversely cuts the spherical stem blocks in the limiting holes 22, the parts of the spherical stem blocks, which are positioned at the upper part of the clearance groove 24, are not cut by the cutting blade 23 and are continuous, and feeding gaps are formed in the cut spherical stem blocks;

8) pulling the wood stem moves the embedded plate 14 downward so that the bottom of the bulbous stalk butts against and approaches the upper thin stem 3132;

9) actuating the push rod 43, the push rod 43 aligning the spherical stem block in the limiting hole 22 and pushing the spherical stem block downwards to make the spherical stem block move downwards continuously and the upper thin rod 3132 enters into the feeding gap, the sheet part of the spherical stem block enters into the upper insertion gap 31321, the material in the dipping frame 313 wraps the spherical stem block entering therein, and the spherical stem block is clamped by the upper thin rod 3132 and is not displaced;

10) starting motor 311 to drive rotary disc 312 and dipping frame 313 to rotate simultaneously, and stopping rotary disc 312 when upper thin rod 3132 is located right below and lower thin rod 3133 is located right above;

11) at this time, the spherical stem block is separated from the upper thin rod 3132 under the action of the self gravity and continuously falls down onto the upper rubber layer 322 of the brushing part 32;

12) repeating the above steps 5) -7) and then pulling the wooden pole to move the embedded plate 14 downwards so that the bottom of the bulbous stalk collides against the lower thin pole 3133;

13) actuating the push rod 43, the push rod 43 aligning the spherical stem block in the limiting hole 22 and pushing the spherical stem block downwards to make the spherical stem block move downwards continuously and the lower thin rod 3133 enters into the feeding gap, the sheet part of the spherical stem block enters into the lower insertion gap 31331, the material in the dipping frame 313 wraps the spherical stem block entering therein, and the spherical stem block is clamped by the lower thin rod 3133 and is not displaced;

14) the reverse motor 311 causes the side brush 3135 to be directed downward and the mixture flowing out of the side brush 3135 to fall down onto the bulbous stalk on the upper rubber layer 322, the rotating side brush 3135 brushes the bulbous stalk on the upper rubber layer 322 so that the material enters the upper surface of the bulbous stalk, the coworker side brush 3135 presses the bulbous stalk located on the upper rubber layer 322 during rotation so that the bulbous stalk goes downward into the lower rubber layer 32, because the space between the upper rubber layer 322 and the lower rubber layer 323 also contains the material, and thus the bulbous stalk surface is sufficiently adhered and impregnated by the material as the bulbous stalk is accumulated in the space between the upper rubber layer 322 and the lower rubber layer 323 while being combined with the brushing of the side brush 3135.

The slice opening plate 2 and the dipping component 3 are arranged on one side of the bracket 1, the slice opening plate 2 is positioned right above the dipping component 3, and the distance between the slice opening plate 2 and the dipping component 3 is adjustable; the slicing plate 2 is used for dividing the root stem blocks of the root mustard, and the divided root stem blocks of the root mustard are dipped by the dipping component 3 and then are subsequently pickled.

Please refer to fig. 1 and 9, the bracket 1 includes a base 11, a bracket plate 12, a groove plate 13 and an insertion plate 14, the base 11 is a rectangular plate structure, the bottom of the base 11 is fixed on the ground, the bracket plate 12 is fixed on the upper portion of the base 11, the groove plate 13 is fixed on the upper portion of the bracket plate 12, the groove plate 13 is a three-dimensional plate structure, an insertion groove 131 is formed in the groove plate 13, the main body of the insertion groove 131 is a cuboid hollow structure, the insertion plate 14 is sleeved in the insertion groove 131 in a matching manner, and the insertion plate 14 is a three-dimensional plate structure.

The side of the embedded plate 14 is perforated with a plurality of insertion holes 140, and if three insertion holes 140 are selected, the insertion holes 140 are arranged side by side and distributed on the embedded plate 14 from top to bottom. The position of the rest groove plate 13 of the embedded plate 14 can be relatively fixed by inserting the inserted rod into the insertion hole 140.

The slicing plate 2 comprises a fixing plate 21, a plurality of limiting holes 22, cutting pieces 23 and clearance grooves 24, the fixing plate 21 is of a rectangular plate-shaped structure, the limiting holes 22 are uniformly arranged in the fixing plate 21 in a penetrating mode, the limiting holes 22 are a plurality of limiting holes 22, the limiting holes 22 are of a hole-shaped structure with narrow top and wide bottom, the clearance grooves 24 are formed in the bottom plate of the fixing plate 21, the clearance grooves 24 extend from one end to the other end of the fixing plate 21, the clearance grooves 24 transversely penetrate through the limiting holes 22, the cutting pieces 23 are arranged on one side of the fixing plate 21, the cutting pieces 23 can move relative to the fixing plate 21, and the cutting pieces 23 penetrate through the limiting holes 22 through the clearance grooves 24; when the cutting blade 23 is pulled, the cutting blade 23 divides the spherical stem block positioned in the limiting hole 22 into the sheet structure shown in the figure 1, and the bottoms of the sheet structures are connected.

One side of the fixed plate 21 is hinged with the upper part of the bracket 1; the fixed plate 21 can rotate relative to the bracket 1;

referring to fig. 3, 4, 5 and 6, the limiting hole 22 includes an upper opening 221, an inner slot 222 and a bottom opening 223, the upper opening 221 is flush with the upper end surface of the fixing plate 21, the upper opening 221 is circular, the bottom of the upper opening 221 is provided with the inner slot 222, the inner slot 222 is a hollow cylindrical structure, the width of the inner slot 222 is gradually increased from top to bottom, the bottom plate of the inner slot 222 is provided with the bottom opening 223, the bottom opening 223 is circular, and the diameter of the upper opening 221 is smaller than that of the bottom opening 223. The narrow upper and wide lower limiting holes 22 facilitate the insertion of the bulbous stem mass therein at a later stage, the bulbous stem mass can be relatively and fixedly clamped in the inner clamping groove 222, the upper part of the bulbous stem mass can protrude from the upper opening 221, and the lower part of the bulbous stem mass is flush with the lower end surface of the bottom opening 223.

The inner wall of the upper opening 221 is fixed with a rubber sleeve 2211, and the rubber sleeve 2211 is in a ring shape. The rubber sleeve 2211 has elasticity to facilitate later fixing of the spherical stem block passing through it.

Please refer to fig. 7, the number of the clearance slots 24 is several, the longitudinal section of the clearance slot 24 is n-shaped, the top end of the clearance slot 24 is located in the fixing plate 21, the distance d between the upper end surface of the clearance slot 24 and the upper end surface of the fixing plate 21 is 20-30mm, for example, the clearance slot 24 passes through the bottom opening 223 and the inner locking slot 222, and the bottom end of the clearance slot 24 is open and level with the bottom end surface of the fixing plate 21; when the root tuber blocks of the kohlrabi are placed in the inner clamping grooves 222, the cutting pieces 23 penetrate through the clearance grooves 24 to divide the root tuber blocks of the kohlrabi placed therein, so that the root tuber blocks of the kohlrabi are in a sheet structure, and meanwhile, the upper parts of the root tuber blocks of the kohlrabi, namely the parts located in the upper openings 221 or protruding out of the upper openings 221 are not cut by the cutting pieces 23, so that the sheet structure of the root tuber blocks shown in fig. 1 is formed.

Referring to fig. 8, the cutting blade 23 includes a cutting base plate 231 and a cutting blade 232, the cutting base plate 231 is a thin plate, the cutting blade 232 is fixed on the cutting base plate 231, the cutting blade 232 is rectangular, the cutting blade 232 protrudes from the upper portion of the cutting base plate 231, the cutting blade 232 is matched with the clearance groove 24, and the distance between the adjacent cutting blades 232 is equal to the distance between the adjacent clearance grooves 24. The cutting blade 23 can be inserted into the clearance groove 24 or pulled out from the clearance groove 24 in a matching way, thereby smoothly and stably completing the cutting operation.

Referring to fig. 1, a first cylinder 251 and a second cylinder 252 are fixed on the fixing plate 21, the first cylinder 251 and the second cylinder 252 are symmetrically disposed, one end of the first cylinder 251 is fixed on the fixing plate 21, a telescopic end of the first cylinder 251 is fixedly connected to one side of the end of the cutting base plate 231, one end of the second cylinder 252 is fixed on the fixing plate 21, and a telescopic end of the second cylinder 252 is fixedly connected to the other side of the end of the cutting base plate 231. Air cylinder one 251 and air cylinder two 252 are used to control the movement of cutting blade 23 within clearance slot 24.

Referring to fig. 1 and 9, the pressing member 4 is fixed to the upper portion of the fixing plate 21,

the extrusion assembly 4 comprises a supporting vertical plate 41, a supporting transverse plate 42 and push rods 43, wherein the supporting vertical plate 41 is fixed on one side of the fixing plate 21, the supporting transverse plate 42 is vertically fixed on the upper portion of the supporting vertical plate 41, the supporting transverse plate 42 is of a long plate-shaped structure, the supporting transverse plate 42 is located on the upper portion of the limiting hole 22, the push rods 43 are fixed on the bottom plate of the supporting transverse plate 42, the number of the push rods 43 is a plurality, and the push rods 43 correspond to the positions of the limiting hole 22. Preferably, the top end of the push rod 43 is fixedly connected with the bottom of the supporting transverse plate 42, the top plate 431 is fixed to the telescopic end of the push rod 43, the top plate 431 is in a round cake shape, the diameter of the top plate 431 is consistent with that of the upper opening 221, and the top plate 431 is used for downwards ejecting the root stem blocks of the kohlrabi positioned in the inner clamping grooves 222, so that the root stem blocks of the kohlrabi are separated from the inner clamping grooves 222, and the root stem blocks of the kohlrabi continuously downwards enter the dipping barrel 31.

Fixed shielding piece 26 in fixed plate 21 both sides bottom, shielding piece 26 includes shielding piece 261 and shielding piece two 262, and shielding piece 261 and shielding piece two 262 are the "curtain" column structure that constitutes by a plurality of rubber banding, and shielding piece 261 is fixed in fixed plate 21 bottom one side, and shielding piece two 262 is fixed in fixed plate 21 bottom opposite side. The shielding piece 26 shields the two sides of the dipping barrel 31, and is used for preventing the materials in the dipping barrel 31 from splashing and spreading around when the dipping barrel 31 rotates after the fixing plate 21 is close to the dipping barrel 31.

Referring to fig. 10, a connecting rod 141 is disposed at the upper portion of the insertion plate 14, a shaft sleeve 142 is disposed on the connecting rod 141, and an outer wall of the shaft sleeve 142 is fixedly connected to an outer side of the fixing plate 21 through a connecting plate 143.

Referring to fig. 11-15, the dipping module 3 includes a dipping barrel 31 and a brushing portion 32, the dipping barrel 31 is disposed on the upper portion of the brushing portion 32, the brushing portion 32 is fixed on the ground, the dipping barrel 31 can rotate relative to the brushing portion 32, the dipping barrel 31 is filled with materials, so that the materials in the dipping barrel 31 can be dipped on the surface of the rhizome block on the dipping barrel during the rotation, and the dipping barrel 31 can act on the rhizome block on the brushing portion 32 along with the rotation of the dipping barrel 31, so that the surface of the rhizome block on the brushing portion 32 can be dipped with the materials;

the dipping barrel 31 comprises a motor 311, a rotary disc 312 and a dipping frame 313, the motor 311 is positioned on one side of the support plate 12, the motor 311 penetrates through the support plate 12, the output end of the motor 311 is fixedly connected with the rotary disc 312, the rotary disc 312 is disc-shaped, and the dipping frame 313 is fixed on one side of the rotary disc 312. The motor 311 drives the turntable 312 and the dipping frame 313, so that the material in the dipping frame 313 continuously surges and is fully adhered to the rhizome block on the dipping frame 313.

The dip frame 313 includes a first frame wall 3131, an upper thin rod 3132, a lower thin rod 3133, a second frame wall 3134, a side brush 3135, and an opening 3136, wherein one side of the first frame wall 3131 is fixedly connected to the side plate of the rotary table 312, the upper thin rod 3132 is fixed between the first frame wall 3131 and the second frame wall 3134, the lower thin rod 3133 is fixed between the first frame wall 3131 and the second frame wall 3134, the upper thin rod 3132 is located on the upper portion of the lower thin rod 3133, the side brush 3135 is disposed on one side of the first frame wall 3131 and the second frame wall 3134, and the opening 3136 is disposed on the other side of the first frame wall 3131 and the second frame wall 3134.

Frame wall 3131 is oval in shape and is disposed transversely on the turntable 312,

frame wall one 3131 includes upper transverse surface 31311, side arc surface one 31312, lower transverse surface 31313, and side arc surface two 31314, upper transverse surface 31311 and lower transverse surface 31313 are parallel to each other, side arc surface one 31312 and side arc surface two 31314 are corresponding to each other, and frame wall one 3131 and frame wall two 3134 have the same structure, which is not described again.

Upper thin rods 3132 are fixed between upper lateral surfaces 31311 of first frame wall 3131 and second frame wall 3134, the upper thin rods 3132 are made of thin steel wires, the number of upper thin rods 3132 is several and are arranged in parallel, adjacent upper thin rods 3132 are located on the same horizontal plane and are flush with the upper lateral surface 31311, and an upper insertion gap 31321 is arranged between adjacent upper thin rods 3132. The width of the upper insertion gap 31321 is controlled so that on the one hand, material is not easily leaked from the center to the bottom and on the other hand, cut rhizome pieces can be inserted therein, facilitating dipping of the material in the dipping frame 313.

Lower thin rods 3133 are fixed between lower transverse surfaces 31313 of first frame wall 3131 and second frame wall 3134, lower thin rods 3133 are made of thin steel wires, a plurality of lower thin rods 3133 are arranged in parallel, adjacent lower thin rods 3133 are located on the same horizontal plane and are flush with lower transverse surfaces 31313, and lower insertion gaps 31331 are arranged between adjacent lower thin rods 3133. The width of the lower insertion gap 31331 is controlled so that on the one hand, the root tuber which is not easy to leak from the middle to the bottom and on the other hand, is cut can be inserted into the lower insertion gap 31331, so that the material in the dipping frame 313 can be dipped conveniently, the lower insertion gap 31331 and the upper insertion gap 31321 are correspondingly arranged, the positions of the lower insertion gap 31331 and the upper insertion gap 31321 relative to the limiting hole 22 are continuously changed along with the rotation of the dipping frame 313, and therefore the root tuber falling from the limiting hole 22 can be sequentially and circularly received, dipped and dropped.

The side brush 3135 includes a cross frame 31351 and brush bristles 35352, the cross frame 31351 is a strip-shaped structure, one end of the cross frame 31351 is fixedly connected to the first side arc face 31312 of the first frame wall 3131, the other end of the cross frame 31351 is fixedly connected to the first side arc face 31312 of the second frame wall 3134, the number of the cross frames 31351 is several, the cross frames are transversely and uniformly distributed along the region between the first side arc faces 31312, the brush bristles 35352 are uniformly fixed on the cross frame 31351, and a discharge gap 31353 is formed between the adjacent cross frames 31351. As the position of the side brush 3135 changes from horizontal to vertical, the material in the dipping frame 313 passes through the discharge gap 31353 and enters between the bristles 35352, and follows the movement of the bristles 35352 into the surface of the object to be brushed (the rhizome block).

One side of second frame wall 3134 has an insertion hole 3137, which is shaped like "3137") and a cross section of insertion plate 3138 ", wherein insertion plate 3138 is inserted into insertion hole 3137 and gradually approaches the inner wall of first frame wall 3131, and insertion plate 3138 is used to seal opening 3136. On one hand, materials can enter the dipping frame 313 through the opening 3136, and on the other hand, the materials in the dipping frame 313 are prevented from flowing out in a large amount through the plugging of the insertion plate 3138.

Referring to fig. 13 and 15, the brush part 32 includes a brush holder 321, an upper rubber layer 322 and a lower rubber layer 323, the upper rubber layer 322 and the lower rubber layer 323 are disposed in the brush holder 321, the upper rubber layer 322 is disposed on the lower rubber layer 323, and a cavity 324 is disposed between the upper rubber layer 322 and the lower rubber layer 323. The brush holder 321 supports the upper rubber layer 322 and the lower rubber layer 32, the upper rubber layer 322 and the lower rubber layer 32 form a grid-like structure, the grid-like structure can receive materials falling from the dipping frame 313 on one hand, and can receive root tubers falling from the dipping frame 313 on the other hand, the root tubers are gradually fed into the cavity 324 from the upper rubber layer 322 under the action of the grid-like structure and the rotating side hair brush 3135, the root tubers gradually pass through the lower rubber layer 323 from the cavity 324 to be discharged out of the lower rubber layer 323 along with the increase of the root tubers, and the materials wrapped in the brush part 32 are further adhered to the surface of the root tubers in the process that the root tubers completely pass through the upper rubber layer 322 and the lower rubber layer 323 under the action of external force, so that the surface of the root tubers is more completely impregnated with the materials.

Please refer to fig. 13, the brush rack 321 includes a first leg plate 3211, a second leg plate 3212, and two beams 3213, where the first leg plate 3211 and the second leg plate 3212 are both plate-shaped structures, the beams 3213 are fixed between the first leg plate 3211 and the second leg plate 3212, the two beams 3213 are two in number, one of the beams 3213 is fixed to one side of the first leg plate 3211 and one side of the second leg plate 3212, and the other beam 3213 is fixed to the other side of the first leg plate 3211 and the second leg plate 3212. The first and second leg plates 3211, 3212 are fixed to the ground to support the ground.

Arc-shaped openings 3214 are formed in the first leg plate 3211 and the second leg plate 3212, the arc-shaped openings 3214 are shaped like ︶, an upper rubber layer 322 is fixed between the arc-shaped openings 3214 of the first leg plate 3211 and the second leg plate 3212, the upper rubber layer 322 is composed of a plurality of narrow rubber strips 3221, the narrow rubber strips 3221 are transversely arranged, and narrow gaps 32211 are formed between the adjacent narrow rubber strips 3221. The narrow gap 32211 facilitates, on the one hand, the downward leakage of material therethrough and, on the other hand, the dropping of the rhizome block through the narrow gap 32211 into the lower rubber layer 323, while the elasticity of the narrow rubber strips 3221 is utilized to further impregnate the rhizome block with material in the upper rubber layer 322 during the dropping of the rhizome block.

The lower rubber layer 323 is fixed between the cross beams 3213, the lower rubber layer 323 is composed of a plurality of wide rubber strips 3231, the wide rubber strips 3231 are longitudinally arranged, the width of the wide rubber strips 3231 is larger than that of the narrow rubber strips 3221, and wide gaps 32311 are arranged between the adjacent wide rubber strips 3231. The wide rubber strip 3231 and the narrow rubber strip 3221 are vertically arranged, and the rhizome block is more fully impregnated with the materials through the combined action of the wide rubber strip 3231 and the narrow rubber strip 3221 in the falling process.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.