KR200484119Y1 - Consistent system of automatic shrimp sheller - Google Patents

Abstract

The present invention relates to a coherent automatic shrimp shell removal system comprising at least a rack, a material supply assembly, at least one shell removal assembly, a material discharge assembly and a control circuit; Wherein each of the transfer roller and the shell removing rollers has a machining section in which a periphery of each of the shafts is covered, at least one position fixing section is provided on one of the machining sections, And the material of the position fixing section is formed more firmly than the processing section. The design of the roller body structure of each transfer roller and each peel removal roller allows the gap between the transfer roller and the peel removal roller to be adjusted quickly and optimally to accurately control the shrimp skin retention level.

Description

{CONSISTENT SYSTEM OF AUTOMATIC SHRIMP SHELLER}

The present invention relates to a fish processing apparatus, and more particularly, to a coherent automatic shrimp removing system capable of completing a shrimp body peeling operation through a consistent automated process, and also accurately controlling the shrimp shell holding level.

Shrimp is a high-protein low-fat food, contains almost no carbohydrates, and at the same time contains a large amount of minerals such as calcium and iron, has long been known as a food to improve physical fitness or improve the constitution. Shrimp tastes sweet and sour, and has a temperate tendency. Therefore, it has a tendency to improve kidneys and matured spleen, strengthen spleen, remove shavings and arousal oil (益气 通Milk). Shinhei Substitution (

), Uric acid smell (腰 酸 膝 软), 虚血 弱 weak (气血 弱 weak), after the stroke and half-body (semi-passive) has a certain therapeutic effect on symptoms.

Shrimp slaughter has been one of the most important economic aquatic products in southern China, including Taiwan. Generally, the form or catch of shrimp is sold as a shrimp and the dish is unexpected; Shrimp ginseng (ie, shrimp ginseng) after peel removal is protein and fresh, digested and absorbed well, is loved by many dieticians regardless of sex; The removed shrimp shell also contains a rich chitosan, which has a good effect on the inhibition of fat absorption and can lower the levels of triglyceride and cholesterol in the blood. Therefore, it can be processed and sold as a health food that is common in the market.

In principle, the shrimp is formed by removing the shrimp head, shrimp tail and shrimp shell by hand after washing the shrimp body with fresh sea or freshwater shrimp. However, many people do not like the smell of fresh shrimp, and the shrimp shells have a bad smell in a short time, and there is little possibility of recycling the shrimp shells removed from ordinary households. .

Also, most of the consumers prefer color and shape, and tangy and juicy shrimp. Therefore, many large factories insist on the artificial shell removal method to maintain the appearance quality of the shrimp, but the productivity of the shrimp slaughtering is low due to the large manpower and time required, and when the shrimp body is left at room temperature for a long time Especially, it is difficult to manage artificial shell removal work environment and hygiene conditions of workers, so it is easy to pollute the shrimp, and it is difficult to improve the quality.

No. 117695, Republic of China

Republic of China Announcement No. 150499

The present invention has been made in view of the above points, and it is an object of the present invention to provide a coherent automatic shrimp peel removing system that can perform the peeling operation of the shrimp body through a consistent automation process and accurately control the shrimp shell level .

To achieve the above object, according to one aspect of the present invention, there is provided an integrated automatic shrimp shell removing system, comprising: a rack having a loading surface disposed to be inclined at a predetermined angle; A shrimp body accommodating material supply tank, a first transfer belt extending from the material supply tank to an upper end of the loading surface, and a first drive module connected to the first transfer belt to drive the first transfer belt, assembly; A transferring roller extending from the upper end of the loading surface to the lower end of the loading surface, a peel removing roller disposed on both sides of the transferring roller in parallel with the transferring roller, At least one shell removal assembly electrically connected to the transfer rollers for alternating rotation and having a second drive module each of which is connected electrically to the shell removal rollers such that the shell removal rollers are simultaneously rotated in the direction of the transfer roller at the same time; A second transfer belt disposed at the lower end of the loading surface of the rack and extending in the transverse direction and disposed between the respective peel removal assemblies, and a third drive module connected to the second transfer belt for driving the second transfer belt Material discharge assembly; At least a control circuit electrically connected to the first driving module, the second driving module, and the third driving module to control the driving of the first driving module, the second driving module, and the third driving module, Wherein the surface of the peel removing rollers is formed higher than the surface of the transfer roller and the transfer roller and the peel removing rollers are respectively connected to the rack through a shaft electrically connected to the second drive module, The body of the skin removing rollers is provided with machining sections each covered with the periphery of the shaft. At least one position fixing section is provided on one of the machining sections, and the machining section is made of a relatively soft material And the material of the position fixing section is formed more rigidly than the processing section.

According to this feature, the coherent automatic shrimp skin removal system according to the present invention, when used, can remove the unshaved shrimp body (A) housed in the material supply tank via the first transfer belt of the material supply assembly, The shrimp body A is slid downward along the transferring roller and the skin removing roller of the skin removing assembly and falls down to the lower surface of the loading surface. In the process of sliding the shrimp body A downward A transferring roller and a peel removing roller for pushing the shrimp body A repeatedly on both sides are blended so that the shrimp shell A2 of the shrimp body A is removed through the wick of the peel removing roller and the transfer roller, The shrimp flesh is crumbled on the second transfer belt, according to the peel removal assembly, and is collected and transferred through the second transfer belt in the preset direction, It can achieve the object to accomplish the removal operation shrimp shell body through the process; In particular, the design of the roller body structure of each transfer roller and each peel removal roller allows the gap between the transfer roller and the peel removal roller to be quickly adjusted to the optimal state to accurately control the shrimp retention level.

According to the above structural feature, the integrated automatic shrimp peel removing system is provided with a pressure pump connected to a water source, and the drain port of the pressure pump is provided with a water- At least one first drain pipe extended from the upper end is connected and a plurality of second drain pipes extending from the sides of the respective peel removing assemblies are connected so that water is sprayed to the respective peel removing rollers.

According to another aspect of the present invention, there is provided an automatic shrimp shell removal system, comprising: a rack having a loading surface provided with a material discharging tank disposed at an upper end of a shovel; A shrimp body accommodating material supply tank extending from the material supply tank to an upper end of the loading surface and wound around the upper and lower circumferences and corresponding to the at least one shell removing assembly, And a first drive module connected to the first transfer belt so that the first transfer belt is driven, wherein the first drive belt includes at least one row, A material supply assembly having a diaphragm disposed at an upper end of the plate and maintaining a predetermined gap with a dropping plate; A transferring roller extending from the upper end of the loading surface to the lower end of the loading surface, a peel removing roller disposed on both sides of the transferring roller in parallel with the transferring roller, A second drive module electrically connected to the transfer rollers so as to rotate alternately and each of the peel removing rollers being electrically connected to the peel removing rollers so as to be continuously rotated in the direction of the transfer roller at the same time, At least one shell removal assembly having a brush holder rotated by driving of a second drive module, each of which is relatively low compared to a shell removal roller; A second transfer belt disposed at the lower end of the loading surface of the rack and extending in the transverse direction and disposed between the respective peel removing assemblies and a third drive module connected to the second transfer belt for driving the second transfer belt A material discharge assembly; A pressure pump connected to a water source is installed and a drain pipe of the pressure pump is connected to a first drain pipe extending from an upper end of a loading surface of the rack so that water is sprayed to a transfer roller of each of the peel removing assemblies, At least one third drain pipe extending in the transverse direction from the upper end of the material discharge vessel is connected to the plurality of second drain pipes extending from the side of each of the peel removing assemblies so that water is sprayed into the material discharging tank A water supply assembly to which at least one fourth drain pipe extending in the longitudinal direction is connected to spray the water into the material discharge tank; At least one gyro wheel is installed on the top of the transfer roller of each shell removal assembly so as to be pressed in the direction of the transfer roller provided with the shrimp body, and the auxiliary drive with the fourth drive module connected to each gyro wheel, assembly; At least a control circuit electrically connected to the first drive module, the second drive module, and the third drive module to control driving of the first drive module, the second drive module, and the third drive module, Wherein the surface of the peel removing rollers is formed higher than the surface of the transfer roller and the transfer roller and the peel removing rollers are respectively connected to the rack through a shaft electrically connected to the second drive module, The body of the skin removing rollers is provided with machining sections each covered with the periphery of the shaft. At least one position fixing section is provided on one of the machining sections, and the machining section is made of a relatively soft material And the material of the position fixing section is formed more rigidly than the processing section.

The consistent shrimp shell removal system according to the present invention has the following effects.

1. The shrinking of the shrimp body is completed through a consistent automation process, which significantly reduces labor costs and improves shrimp slaughter production efficiency.

2. Processed shrimp sashimi is not damaged by external appearance, so it is processed into complete shrimp sashimi to help quality control.

3. Depending on the size of the shrimp body, the gap between the skin removal roller and the transfer roller can be adjusted to improve the flexibility and practicality of a consistent automatic shrimp skin removal system by removing shrimp shells of different sizes.

4. Even with the design of the roller body structure of each transfer roller and each peel removal roller, the gap between the transfer roller and the peel removal roller can be quickly regulated optimally to ensure that the shrimp retention level is accurately controlled.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a coherent automatic shrimp shell removal system according to one preferred embodiment of the present invention; FIG.
FIG. 2 is a side view showing the structure of an automatic shrimp shell removal system according to the present invention. FIG.
3 is a side view illustrating the elevation of the material supply assembly in accordance with the present invention;
Figure 4 is a partial enlarged schematic view of a shell removal assembly in a coherent automatic shrimp shell removal system according to the present invention.
5 is an enlarged schematic view of a transfer roller and a peel removal roller in a peel removal assembly according to the present invention;
6 is a schematic diagram illustrating the operation of a peel removal assembly in accordance with the present invention;
7 is a schematic view showing a structure of a water supply assembly according to the present invention;

The design provides a consistent, automated shrimp skin removal system that completes shrimp body removal through a consistent automation process and precisely controls shrimp shell levels. 1, a coherent automatic shrimp shell removal system according to the present invention includes at least a rack 10, a material supply assembly 20, at least one shell removal assembly (not shown) 30, a material discharge assembly 40, and a control circuit 50;

Here, the rack 10 is provided with a loading surface 11 which is disposed at a predetermined angle, and a peel removing assembly 30 to be described later is installed through the loading surface 11, The shrimp body (A) before removal and the shrimp underpants (A1) after peel removal are passed through the peel removal assembly (30).

 The material supply assembly 20 includes a shrimp body accommodating material supply tank 21, a first transfer belt 22 extending to the upper end of the loading surface 11 in the material supply tank 21, And a first drive module (23) connected to the first transfer belt (22) so that the transfer belt (22) is driven; When the present invention is implemented, a hole (not shown) through which a plurality of water flows is formed on the first transfer belt 22.

The peel removal assembly 30 includes a transfer roller 31 disposed at the upper end of the loading surface 11 and connected to the lower end of the loading surface 11 and a transfer roller 31 disposed on both sides of the transfer roller 31, And a second drive module (33) electrically connected to the transfer roller (31) so as to alternately rotate clockwise or counterclockwise of the transfer roller (31) The second driving module 33 is electrically connected to the plurality of peeling rollers 32 to continuously rotate the plurality of peeling rollers 32 in the direction of the transfer roller 31 at the same time.

 The material discharge assembly 40 includes a second transfer belt 41 disposed at the lower end of the loading surface 11 of the rack 10 and extending in the transverse direction and disposed between the plurality of peel removal assemblies 30, And a third drive module (42) connected to the second transfer belt (41) to drive the second transfer belt (41); When the present invention is implemented, a hole (not shown) through which a plurality of water flows is formed on the second transfer belt 41.

 The control circuit 50 is electrically connected to at least the first drive module 23, the second drive module 33 and the third drive module 42 so that the first drive module 23, 2 drive module 33, and the third drive module 42, as shown in FIG.

5 and 6, the surface of each peel removing roller 32 is formed higher than the surface of the transfer roller 31, and each of the transfer rollers 31 and each of the peel removing rollers 32, Are connected to the rack through shafts 311 and 321 connected to the second driving module respectively and the shafts 311 and 321 are connected to the roller bodies of the respective transfer rollers 31 and each of the skin removing rollers 32. [ And the position fixing sections 313 and 323 are provided on either one of the machining sections 312 and 322. [

 The machining sections 312 and 322 may be made of a material relatively soft relative to the material of the shafts 311 and 321 and the material of the at least one position fixing section 313 and 323 may be formed in the machining sections 312 and 322, Lt; / RTI >material; The outer diameter of the position fixing sections 313 and 323 of each of the transfer rollers 31 and each of the peel removing rollers 32 is preferably larger than the outer diameter of the processing sections 312 and 322 ; And is disposed between the transfer roller 31 and the peel removing roller 32 at intervals of about 0.01 mm to 0.06 mm.

As shown in Figures 1, 2 or 6, the coherent automatic shrimp skin removal system according to the present invention, when used, is connected to the material feed tank 21 via the first transfer belt 22 of the material supply assembly 20, Is transferred from the lower end of the loading surface 11 of the rack 10 to the upper end of the loading surface 12 so that the shrimp body A can be removed from the bottom of the shell removal assembly 30 The shrimp body A is slid downward along the transfer roller 31 and the skin removing roller 32 to fall down on the lower surface of the loading surface 11 and the shrimp body A is repeatedly pushed in both directions The transfer roller 31 and the peel removing roller 32 are combined and the shrimp shell A2 of the shrimp body A can be removed through the carriage of the peel removing roller 32 and the transfer roller 31. [

The peeled shrimp sash A1 is dropped to the second transfer belt 41 of the material discharge assembly 40 according to the peel removing assembly 30 so that the shrimp sash A1 of the second transfer belt 41 (Collected by the material storage box 43 located at the end of the transfer direction of the second transfer belt 41 as shown in the figure), and the purpose of performing the shrimp peel removing operation through a consistent automation process It accomplishes.

Particularly, the roller bodies of the respective transfer rollers 31 and the peel removing rollers 32 are effective for the carriage and holding effect against the shrimp shell A2 through the relatively soft processing sections 312 and 322, The shell A2 can be quickly and accurately removed from the shrimp body A and the roller bodies of the respective transfer rollers 31 and each of the peel removing rollers 32 can be fixed to the position fixing sections 313 and 323, The interval between the transfer roller 31 and the peel removing roller 32 can be quickly optimized so that the holding level of the shrimp shell A2 can be controlled Thus, it is possible to provide a customized product to a customer who desires to leave only the skin of the tail portion of the shrimp body (A).

1, 2 or 7, the consistent automatic shrimp skin removal system according to the present invention can be implemented further including a water supply assembly 60; The water supply assembly 60 is provided with a pressure pump 61 connected to the water source and is connected to the rack 10 so that water is sprayed from the drain port of the pressure pump 61 to the transfer roller 31 of each shell removal assembly 30. [ At least one first drain pipe (621) extending from the upper portion of the loading surface (11) A plurality of second drain pipes 622 extending from the side surfaces of the lock shell removing assemblies 30 may be connected as water is sprayed from the drain pump of the pressure pump 61 to each of the shell removing rollers 32.

The first drain pipe 621 is sprayed to the transfer roller 31 of the skin removal assembly 30 so that the shrimp body A is freely slid downward and the first drain pipe 621 is slid downward, Water may be sprayed to the skin removing roller 32 of the removing assembly 30 to remove the mucus from the remaining shrimp body A in the skin removing roller 32.

Consistent automatic shrimp skin removal system according to the present invention is used for shrimp slaughtering but the removed shrimp shell can be collected separately and recycled. The overall coherent automatic shrimp shell removal system may be provided with a material discharge tank 12 in which the shrimp shell A2 is received at the bottom of the at least one shell removal assembly 30 of the rack 10; The water supply assembly 60 is connected to a third drain pipe (not shown) extending in the transverse direction at the upper end of the material discharge tank 12 so that water is injected from the drainage port of the pressure pump 61 to the material discharge tank 12 And at least one fourth drain pipe 624 may be further connected to spray the water from the upper end of the material discharge tank 12 to the material discharge tank 12. [ The water is sprayed to the material discharge tank 12 through the third drain pipe 623 and the fourth drain pipe 624 so that the shrimp shell A2 can be collected and collected in the direction in which the material discharge tank 12 delivers.

The coherent automatic shrimp skin removal system according to the present invention may further include an auxiliary transfer assembly 70 such that the effect of transferring and peeling the shrimp body A to the skin removal assembly 30 is improved. The auxiliary transfer assembly 70 is provided with a gyro wheel 71 to be pressed by the transfer roller 31 provided with the shrimp body A at the upper end of the transfer roller 31 of each shell removal assembly 30. [ And a fourth drive module 72 connected to each of the gyro wheels 71 so as to rotate and rotate the respective gyro wheel 71 is installed. The fourth drive module 72 is electrically connected to the control circuit 50 and the effect of transferring and peeling the shrimp body A from the shell removal assembly 30 through the pressure of the gyro wheel 71 Can be improved.

Further, each of the skin removing assemblies 30 is further provided on the side of the transfer roller 31 so as to keep the shrimp skin removing effect at a relatively lower level than the respective skin removing rollers 32 in driving the second drive module 33 The shrimp shell attached to the transfer roller 31 and the skin removing roller 32 is removed through the interlocking of the brush holder 34 and the transfer roller 31 and the skin The surface cleanliness of the removing roller 32 can be continuously maintained and the normal shrimp removing effect can be maintained.

In addition, the first transfer belt 22 is wound around the upper and lower circumferences, and the first transfer belt 22 is provided with a loading section 221 corresponding to at least one of the peel removing assemblies 30, At least one row is provided, and a plurality of loading plates 222 arranged at equal intervals are provided in each loading section 221. When the redistribution plate 222 is moved following the winding (transfer) of the first transfer belt 22 downward after delivering the shrimp body A in the material supply tank 21 through the redistribution plate 222, The received shrimp body A is mounted on the corresponding peel removing assembly 30 through a free fall.

In addition, the material supply assembly may be provided with a diaphragm 24, which is spaced apart from the target plate 222 at a predetermined distance in the direction of travel of the first transfer belt 22. When the red plate 222 is passed from the lower end of the diaphragm 24, the diaphragm 24 has the effect of supplying the material at a predetermined amount of time, excluding the shrimp body A exceeding the predetermined height.

According to the description of FIG. 1 according to FIG. 1, the consistent automatic shrimp skin removal system according to the present invention comprises a rack 10, a material supply assembly 20, a plurality of skin removal assemblies 30, Assembly 40, water supply assembly 60, auxiliary transfer assembly 70, and control circuitry.

The rack 10 is disposed at a predetermined angle and is provided with a loading surface 11 provided with a material discharging tank 12 containing a shrimp shell A2 at its lower end. A plurality of shrimp guide plates 13 to which the shrimp body is guided can further be installed.

 The material supply assembly 20 includes a material supply tank 21 for storing the shrimp body A and a first transfer belt 22 extending from the material supply tank 21 to the upper end of the loading surface 11 Respectively. The first transfer belt (22) is wound up and down around the first transfer belt (22), and the at least one peel removal assembly (22) having a plurality of red loading plates (222) A first drive module 23 connected to the first transfer belt 22 so that the second transfer belt 22 is driven by at least one row of loading sections 221 corresponding to the first transfer belt 22, The material supply assembly 20 may be provided with a diaphragm 24 that is spaced apart from the target plate 222 at a predetermined distance in the direction of travel of the first transfer belt 22.

Each of the peel removing assemblies 30 includes a transfer roller 31 extending from a substantial portion of the loading surface 11 to a lower end of the loading surface 11 and a transfer roller 31 disposed on both sides of the transfer roller 31 And a second drive module 33 that is electrically connected to the transfer roller 31 so that the transfer roller 31 alternately rotates clockwise or counterclockwise, And the second driving module 33 is electrically connected to each of the skin removing rollers 32 so that the skin removing roller 32 is continuously rotated simultaneously in the rotating direction of the transfer roller 31, The brush holder 34 may be provided on the side of the outer shell 31 opposite to the outer shell removal roller 32 and rotated through the driving of the second drive module 33. [

 The material discharge assembly 40 includes a second transfer belt 41 disposed in the lower end surface of the loading surface 11 of the rack 10 and extending in the transverse direction and disposed between the respective peel removal assemblies 30, And a third drive module 42 connected to the second transfer belt 41 to drive the second transfer belt 41 may be provided.

 The water supply assembly 60 is provided with a pressure pump 61 connected to a water source and is connected to the rack 10 so that water is jetted from the discharge port of the pressure pump 61 to the transfer roller 31 of each shell removal assembly 30. [ At least one first drain pipe 621 extending from the upper end of the loading surface 11 of the pressure pump 61 is connected to the discharge port of the pressure pump 61 so that water is sprayed by each of the peel removing rollers 32, A plurality of second drain pipes 622 extending from a side of the material discharge tank 12 are connected to a drain port of the pressure pump 61 so that water is sprayed to the material discharge tank 12. [ At least one third drain pipe (623) extending in the transverse direction is connected to the material discharge tank (12), and a fourth drain pipe (623) extending in the longitudinal direction at the upper end of the material discharge tank (12) At least one of them may be connected.

 At least one gyro wheel 71 is installed on the upper end of the transfer roller 31 of each shell removal assembly 30 so as to be pressed in the direction of the transfer roller 31 provided with the shrimp body A And a fourth drive module 72 connected to each of the gyro wheels 71 so as to rotate the respective gyro wheel 71 may be installed.

 The control circuit 50 is at least electrically connected to the first drive module 23, the second drive module 33, the third drive module 42 and the fourth drive module 72, The driving of the first driving module 23, the second driving module 33, the third driving module 42, and the fourth driving module 72 is controlled.

As described above, the surface of each skin removing roller 32 is formed higher than the surface of the transfer roller 31, and each of the transfer roller 31 and each skin removing roller 32 is electrically connected to the second driving module And the roller bodies of the respective transfer rollers 31 and each of the peel removing rollers 32 are connected to the rack through the installed shafts 311 and 321, 312 and 322, respectively, and the position fixing sections 313 and 323 are provided on one of the machining sections 312 and 322, respectively.

Specifically, the automatic shrimp shell removal system according to the present invention has the following effects.

1. The shrimp body is removed from the shrimp body through a consistent automation process, which can significantly reduce labor costs and improve the efficiency of the shrimp slaughtering industry.

2. Processed shrimp sashes do not have any damaged products, and their shape is perfect, which helps to control quality of shrimp sashimi processing.

3. Depending on the size of the shrimp body, the spacing between the skin removal roller and the transfer roller can be adjusted to remove the shrimp bodies of different size classes to improve the flexibility and practicality of the coherent automatic shrimp skin removal system.

4. Even with the design of the roller body structure of each transfer roller and each peel removal roller, the gap between the transfer roller and the peel removal roller can be quickly regulated optimally to ensure that the shrimp retention level is accurately controlled.

According to the above description, the present invention provides a practicable automatic shrimp removal system that can be practiced and claims a utility model application under patent law; The scope of protection of the present invention is not limited to the disclosed embodiments and various changes and modifications may be made by those skilled in the art without departing from the technical idea of the present invention, .

10: rack 11: load side
12: material discharge tank 13: shrimp lead plate
20: material supply assembly 21: material supply tank
22: first transfer belt 221: load section
222: Trial run 23: First drive module
24: diaphragm 30: shell removal assembly
31: Transfer roller 311:
312: machining section 313: position fixing section
32: peeling roller 321: shaft
322: machining section 323: position fixing section
33: second driving module 34: brush holder
40: Material discharge assembly 41: Second transfer belt
42: third driving module 43: material storage box
50: control circuit 60: water supply assembly
61: pressure pump 621: first drain pipe
622: second drain pipe 623: third drain pipe
624: fourth drain pipe 70: auxiliary transfer assembly
71: Gyro wheel 72: Fourth drive module

Claims (10)

delete delete delete delete delete delete delete delete delete A rack having a loading surface provided with a material discharging tank which is disposed at an angle to the predetermined angle and contains a shrimp shell at a lower end thereof;
A shrimp body accommodating material supply tank extending from the material supply tank to the upper end of the loading surface and wound around the upper and lower peripheries and having a plurality of And a first drive module connected to the first transfer belt so that the first transfer belt is driven, wherein the first drive belt includes at least one row, A material supply assembly having a diaphragm disposed at an upper portion thereof and maintaining a constant gap therebetween;
A transferring roller extending from the upper end of the loading surface to the lower end of the loading surface, a peel removing roller disposed on both sides of the transferring roller in parallel with the transferring roller, A second drive module electrically connected to the transfer rollers so as to rotate alternately and each of the peel removing rollers being electrically connected to the peel removing rollers so as to be continuously rotated in the direction of the transfer roller at the same time, At least one shell removal assembly having a brush holder rotated by driving of a second drive module, each of which is relatively low compared to a shell removal roller;
A second transfer belt disposed at the lower end of the loading surface of the rack and extending in the transverse direction and disposed between the respective peel removing assemblies and a third drive module connected to the second transfer belt for driving the second transfer belt A material discharge assembly;
A pressure pump connected to a water source is installed and a drain pipe of the pressure pump is connected to a first drain pipe extending from an upper end of a loading surface of the rack so that water is sprayed to a transfer roller of each of the peel removing assemblies, At least one third drain pipe extending in the transverse direction from the upper end of the material discharge vessel to spray water into the material discharge vessel is connected to a plurality of second drain pipes extending from the side of each of the peel removing assemblies A water supply assembly to which at least one fourth drain pipe extending in the longitudinal direction is connected to spray the water into the material discharge tank;
At least one gyro wheel is installed on the top of the transfer roller of each shell removal assembly so as to be pressed in the direction of the transfer roller provided with the shrimp body, and the auxiliary drive with the fourth drive module connected to each gyro wheel, assembly; And
At least a control circuit electrically connected to the first drive module, the second drive module, and the third drive module to control driving of the first drive module, the second drive module, and the third drive module, ,
Here, the surface of the peel removing rollers is formed to be higher than the surface of the transfer roller, and the transfer roller and the peel removing rollers are respectively connected to the rack through a shaft electrically connected to the second drive module, The body of the removing rollers is provided with a machining section in which the axis of each of the removing rollers is covered. At least one position fixing section is provided on one of the machining sections. The machining section is made of a relatively soft material Wherein the material of the location fixation section is formed more rigidly than the processing section.

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