CN215597930U - Dewatering device is used in fish skin processing - Google Patents

Abstract

The utility model discloses a dehydrating device for processing fish skin, which comprises a dehydrating main body, a moving device and clamping devices, wherein the dehydrating main body consists of an upper dehydrating component and a lower dehydrating component, the clamping devices are arranged in the upper dehydrating component and the lower dehydrating component, the clamping devices are provided with a plurality of groups, the outer part of the upper dehydrating component is connected with the moving device, and each clamping device comprises a clamping component and a clamping shell; the clamping assembly comprises a clamping main body, the clamping main body is arranged in an axial symmetry mode, the side walls at two ends of the clamping main body are symmetrically provided with bottom plates and two telescopic springs fixedly mounted on the bottom plates, and sliding columns are fixedly mounted at the tops of two ends of the clamping main body. According to the utility model, the upper dehydration assembly is matched with the lower dehydration assembly, and the plurality of groups of clamping devices are arranged, so that the plurality of groups of clamping devices clamp different positions of the fish skin, the fish skin is tightly attached to the heating sheet, and the dehydration efficiency is greatly increased.

Description

Dewatering device is used in fish skin processing

Technical Field

The utility model relates to the technical field of fish skin processing, in particular to a dehydrating device for fish skin processing.

Background

In recent years, the country encourages the fishery industry to actively carry out the fishing operation and the deep processing of the deep-sea fishes, and various aquatic products produced and processed by taking the deep-sea fishes as healthy food resources are endless. However, during the processing of deep-sea fish resources, a large amount of leftovers (including heads, skins, scales, fins, tails, bones, broken fish meat, and viscera) are produced, and investigation has shown that about 20% -30% of the processing byproducts are produced per ton of the deep-sea fish processing products. The wastes contain rich nutritional and health-care components such as protein, chondroitin, phospholipid, vitamins and the like, and if the wastes cannot be well utilized, the wastes cause great waste of resources.

The dehydration of the fish skin is a prerequisite condition for ensuring the fish skin to be processed, the existing operation of dehydrating the fish skin mostly adopts an air drying mode to dehydrate, the dehydration efficiency of the method is low, the consumed time is long, and therefore the dehydration device for processing the fish skin is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems of low efficiency and long time consumption of fish skin dehydration in the prior art, and provides a dehydration device for fish skin processing.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a dehydration device for fish skin processing comprises a dehydration main body, a moving device and a clamping device, wherein the dehydration main body consists of an upper dehydration assembly and a lower dehydration assembly, the clamping device is arranged in the upper dehydration assembly and the lower dehydration assembly, the clamping device is provided with a plurality of groups, the outer part of the upper dehydration assembly is connected with the moving device, and the clamping device comprises a clamping assembly and a clamping shell;

the clamping assembly comprises a clamping main body, the clamping main body is arranged in an axial symmetry manner, side walls at two ends of the clamping main body are symmetrically provided with a bottom plate and two expansion springs fixedly mounted on the bottom plate, two ends of the clamping main body are fixedly mounted with sliding columns, two ends of the clamping main body are fixedly mounted with reset springs, two ends of the clamping main body are fixedly mounted with clamping bodies, materials at the upper ends of the clamping bodies are rubber, multiple groups of heating sheets are pasted at the tops of the clamping bodies, limiting holes are formed in two sides of the bottoms of the clamping bodies and two inner side walls of the clamping main body, the two adjacent clamping bodies are connected with a rotating block and two rotating blocks in a rotating mode between the limiting holes, and a through hole is formed in the middle of each rotating block.

Preferably, the inside clamping unit that is equipped with of tight casing of clamp, tight casing of clamp is the axial symmetry setting, the inside both sides of tight casing of clamp are equipped with the sliding tray, expanding spring upper end and sliding tray top end fixed connection, bottom plate and sliding tray lateral wall sliding connection, it is equipped with two slip holes to press from both sides tight casing top, traveller and sliding hole sliding connection, press from both sides tight body and slide and run through tight casing, be equipped with two sets of spacing posts on the tight casing of clamp, it is two sets of spacing post is fixed to run through the through-hole and press from both sides tight casing.

Preferably, go up the dehydration subassembly and include first casing, the inside first mounting hole of multiunit of having seted up of first casing, the multiunit equal joint has clamping device in the first mounting hole, first casing both sides wall fixed mounting has multiunit inserted block, first casing top is equipped with two fixed blocks.

Preferably, the lower dewatering component comprises a second shell, a plurality of groups of second mounting holes are formed in the second shell, a plurality of groups of clamping devices are clamped in the second mounting holes, a plurality of groups of jacks are fixedly mounted on two side walls of the second shell, and the insertion blocks are matched with the jacks.

Preferably, the top surface of the second shell and the bottom surface of the first shell are both provided with magnetic plates in an attached mode.

Preferably, the mobile device includes two support bodies, two the support body inside wall rotates and is connected with same threaded rod, threaded rod and fixed block threaded connection, two support body inside wall fixed mounting has same gag lever post, gag lever post and fixed block sliding connection, support body one side is equipped with the motor, motor output shaft and threaded rod fixed connection.

Compared with the prior art, the utility model has the beneficial effects that:

1. the upper dewatering component and the lower dewatering component are assembled together through the matching of the insert block and the jack, a plurality of groups of fish skins are simultaneously stacked between the upper dewatering component and the lower dewatering component, the upper dewatering component and the lower dewatering component are attached together under the action of the magnetic plate, the fish skins extrude the clamping body, the clamping body extrudes the reset spring, the reset spring is driven to extrude the clamping body, the bottom plate on the clamping body is driven to pull the telescopic spring, the clamping body tightly extrudes the fish skins, and the fish skins are rapidly dehydrated under the action of the moving device under the action of the heating plate, so that the dehydration efficiency is improved;

2. because the clamping devices in the upper dewatering component and the lower dewatering component are symmetrically arranged and are provided with a plurality of groups of clamping devices, the fish skin with uneven surfaces can be better clamped, and the dewatering efficiency is greatly improved.

Drawings

FIG. 1 is a schematic structural view of a dewatering device for processing fish skin according to the present invention;

FIG. 2 is a schematic structural view of an upper dewatering assembly;

FIG. 3 is a schematic view of the lower dewatering assembly;

FIG. 4 is a schematic view showing an internal structure of the clamping device;

fig. 5 is a schematic view of the structure of the clamping assembly.

In the figure: 100 dewatering main body, 200 clamping device, 300 moving device, 110 upper dewatering component, 120 lower dewatering component, 210 clamping component, 230 clamping shell, 211 clamping main body, 212 bottom plate, 213 expansion spring, 214 sliding column, 215 return spring, 216 clamping body, 217 heating plate, 218 limit hole, 219 rotating block, 220 through hole, 231 sliding groove, 232 sliding hole, 233 limit column, 111 first shell, 112 first mounting hole, 113 inserting block, 114 fixing block, 121 second shell, 122 second mounting hole, 123 inserting hole, 130 magnetic plate, 310 frame body, 320 threaded rod, 330 limit rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a dehydrating device for processing fish skin comprises a dehydrating main body 100, a moving device 300 and a clamping device 200, wherein the dehydrating main body 100 is composed of an upper dehydrating assembly 110 and a lower dehydrating assembly 120, the clamping device 200 is arranged inside the upper dehydrating assembly 110 and the lower dehydrating assembly 120, the clamping device 200 is provided with a plurality of groups, the outer part of the upper dehydrating assembly 110 is connected with the moving device 300, and the clamping device 200 comprises a clamping assembly 210 and a clamping shell 230;

clamping assembly 210 is including pressing from both sides tight main part 211, it sets up to press from both sides tight main part 211 to be axisymmetric, it is provided with bottom plate 212 to press from both sides tight main part 211 both ends lateral wall symmetry, fixed mounting has expanding spring 213 on two bottom plates 212, it has traveller 214 to press from both sides tight main part 211 both ends top fixed mounting, press from both sides tight main part 211 bottom fixed mounting has reset spring 215, reset spring 215 upper end fixed mounting has clamp body 216, clamp body 216 upper end material is rubber, it has multiunit heating plate 217 to paste at clamp body 216 top, clamp body 216 bottom both sides and press from both sides tight main part 211 two inside walls and have all seted up spacing hole 218, it is connected with turning block 219 to rotate between two adjacent spacing holes 218, two turning block 219 middle parts are equipped with through-hole 220.

The clamping assembly 210 is arranged in the clamping shell 230, the clamping shell 230 is arranged in an axial symmetry manner, sliding grooves 231 are arranged on two sides in the clamping shell 230, the upper end of the telescopic spring 213 is fixedly connected with the top ends of the sliding grooves 231, the bottom plate 212 is connected with the side walls of the sliding grooves 231 in a sliding manner, two sliding holes 232 are arranged on the top of the clamping shell 230, sliding columns 214 are connected with the sliding holes 232 in a sliding manner, the clamping body 216 slidably penetrates through the clamping shell 230, two sets of limiting columns 233 are arranged on the clamping shell 230, and the two sets of limiting columns 233 fixedly penetrate through the through hole 220 and the clamping shell 230.

Go up dehydration subassembly 110 and include first casing 111, first casing 111 is inside to have seted up the first mounting hole 112 of multiunit, and the equal joint has clamping device 200 in the first mounting hole 112 of multiunit, and first casing 111 both sides wall fixed mounting has multiunit inserted block 113, and first casing 111 top is equipped with two fixed blocks 114, sets up fixed block 114 and can mesh with threaded rod 320 to make its motion.

Lower dehydration component 120 includes second casing 121, and second casing 121 is inside to have seted up multiunit second mounting hole 122, and equal joint has clamping device 200 in the multiunit second mounting hole 122, and second casing 121 both sides wall fixed mounting has multiunit jack 123, and inserted block 113 and jack 123 cooperation set up the cooperation of inserted block 113 and jack 123 and can make when last dehydration component 110 moves, and lower dehydration component 120 also can carry out the simultaneous movement.

The top surface of the second casing 121 and the bottom surface of the first casing 111 are both attached with magnetic plates 130, and the magnetic plates 130 are arranged to attach the upper dewatering assembly 110 and the lower dewatering assembly 120 together.

Mobile device 300 includes two support bodies 310, and two support body 310 inside walls rotate and are connected with same threaded rod 320, threaded rod 320 and fixed block 114 threaded connection, and two support body 310 inside wall fixed mounting have same gag lever post 330, gag lever post 330 and fixed block 114 sliding connection, and support body 310 one side is equipped with the motor, and motor output shaft and threaded rod 320 fixed connection set up mobile device 300 and can make dehydration main part 100 move to dewater whole fish skin.

The present invention starts the motor, the output shaft of the motor drives the threaded rod 320 to rotate, thereby tending to move the first casing 111 engaged with the threaded rod 320, by the cooperation of the insert 113 and the insert hole 123, the upper dewatering assembly 110 is assembled with the lower dewatering assembly 120, while a plurality of groups of skins are stacked together between the upper and lower dehydrating units 110 and 120, under the action of the magnetic plate 130, the upper dewatering assembly 110 and the lower dewatering assembly 120 will be attached together under the action of the magnetic plate 130, at the same time, the fish skin will press the clamping body 216, the clamping body 216 presses the return spring 215, thereby tending to cause the return spring 215 to press against the clamp body 211, thereby tending to cause the base plate 212 on the clamp body 211 to pull on the extension spring 213, so that the gripping body 216 is pressed tightly against the skin of the fish, while under the action of the heating plate 217, the skin of the fish is rapidly dehydrated by the moving means 300, thereby improving the dehydration efficiency.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The dehydration device for fish skin processing comprises a dehydration main body (100), a moving device (300) and a clamping device (200), wherein the dehydration main body (100) consists of an upper dehydration component (110) and a lower dehydration component (120), the clamping device (200) is arranged inside each of the upper dehydration component (110) and the lower dehydration component (120), the clamping device (200) is provided with a plurality of groups, and the outer part of the upper dehydration component (110) is connected with the moving device (300), and the dehydration device is characterized in that the clamping device (200) comprises a clamping component (210) and a clamping shell (230);

the clamping assembly (210) comprises a clamping body (211), the clamping body (211) is arranged in an axial symmetry manner, the side walls of two ends of the clamping main body (211) are symmetrically provided with bottom plates (212), the two bottom plates (212) are fixedly provided with extension springs (213), the tops of the two ends of the clamping main body (211) are fixedly provided with sliding columns (214), the bottom of the clamping main body (211) is fixedly provided with a return spring (215), the upper end of the return spring (215) is fixedly provided with a clamping body (216), the upper end of the clamping body (216) is made of rubber, the clamp is characterized in that a plurality of groups of heating sheets (217) are attached to the top of the clamp body (216), limiting holes (218) are formed in two inner side walls of the clamp body (216) and two inner side walls of the clamp body (211), two adjacent limiting holes (218) are rotatably connected with rotating blocks (219), and through holes (220) are formed in the middle of the rotating blocks (219).

2. The dehydrating device for processing the fish skin as claimed in claim 1, wherein the clamping assembly (210) is arranged inside the clamping shell (230), the clamping shell (230) is arranged in an axisymmetric manner, sliding grooves (231) are arranged on two sides inside the clamping shell (230), the upper end of the expansion spring (213) is fixedly connected with the top end of the sliding groove (231), the bottom plate (212) is slidably connected with the side wall of the sliding groove (231), two sliding holes (232) are arranged on the top of the clamping shell (230), the sliding columns (214) are slidably connected with the sliding holes (232), the clamping body (216) slidably penetrates through the clamping shell (230), two sets of limiting columns (233) are arranged on the clamping shell (230), and the two sets of limiting columns (233) fixedly penetrate through the through holes (220) and the clamping shell (230).

3. The dewatering device for processing fish skin according to claim 1, wherein the upper dewatering assembly (110) comprises a first casing (111), a plurality of groups of first mounting holes (112) are formed in the first casing (111), clamping devices (200) are clamped in the plurality of groups of first mounting holes (112), a plurality of groups of insertion blocks (113) are fixedly mounted on two side walls of the first casing (111), and two fixing blocks (114) are arranged at the top of the first casing (111).

4. The dewatering device for processing the fish skin according to claim 3, wherein the lower dewatering component (120) comprises a second shell (121), a plurality of groups of second mounting holes (122) are formed in the second shell (121), clamping devices (200) are clamped in the plurality of groups of second mounting holes (122), a plurality of groups of insertion holes (123) are fixedly mounted on two side walls of the second shell (121), and the insertion blocks (113) are matched with the insertion holes (123).

5. The dewatering device for fish skin processing according to claim 4, wherein the magnetic plates (130) are attached to both the top surface of the second casing (121) and the bottom surface of the first casing (111).

6. The dehydrating device for fish skin processing according to claim 3, wherein the moving device (300) comprises two frame bodies (310), two inner side walls of the frame bodies (310) are rotatably connected with the same threaded rod (320), the threaded rod (320) is in threaded connection with the fixing block (114), two inner side walls of the frame bodies (310) are fixedly provided with the same limiting rod (330), the limiting rod (330) is in sliding connection with the fixing block (114), one side of the frame body (310) is provided with a motor, and the motor output shaft is fixedly connected with the threaded rod (320).

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