A fish protein raw material cleaning device
By designing a fish protein raw material cleaning device, and utilizing support and connection devices to achieve flexible adjustment and quick replacement of the number of nozzles, the problem of the fixed number of cleaning nozzles affecting efficiency in the existing technology is solved, thus improving work efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO JINGLING OCEAN TECH
- Filing Date
- 2025-07-16
- Publication Date
- 2026-06-30
AI Technical Summary
Existing fish skin cleaners cannot flexibly adjust the number of cleaning nozzles according to the amount of fish skin, and replacing the cleaning nozzles requires a lot of time and auxiliary tools, which affects work efficiency.
A fish protein raw material cleaning device was designed. Through the combination of a support device, a connecting device, and a diversion device, the number of cleaning nozzles can be flexibly adjusted and quickly replaced. The nozzles are fixed by the bracket, retaining ring, and nut structure on the support device, and the water is delivered and sprayed out through the pressure pump and connecting water pipe of the diversion device.
The system allows for flexible adjustment of the number of cleaning nozzles based on the amount of fish skin, improving the ease of operation and efficiency for staff, reducing the time spent changing nozzles, and increasing cleaning efficiency.
Smart Images

Figure CN224419968U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a fish protein raw material cleaning device, belonging to the technical field of fish skin cleaning equipment for fish protein production. Background Technology
[0002] Existing fish skin cleaners cannot adjust the number of cleaning nozzles according to the amount of fish skin, often requiring staff to perform secondary cleaning. Furthermore, replacing the cleaning nozzles requires a significant amount of time and auxiliary tools, making it inconvenient for staff to operate and reducing work efficiency. Utility Model Content
[0003] The purpose of this invention is to allow workers to increase or decrease the number of cleaning nozzles based on the amount of fish skin, and to quickly and easily replace the cleaning nozzles. It also allows for the cleaning of a larger number of blades at once, facilitating operation and improving work efficiency. The technical solution is as follows:
[0004] A fish protein raw material cleaning device includes a conveying tank 1, a support device 2, a connecting device 3, a cleaning nozzle 4, a connecting hose 5, a diversion device 6, and a connecting water pipe 7. The device is characterized in that: a plurality of support devices 2 are vertically arranged and evenly distributed in the middle of the upper surface of the conveying tank 1; a plurality of connecting devices 3 are horizontally arranged and evenly distributed in the front surface of each support device 2; a cleaning nozzle 4 is inserted at the middle of the front surface of each connecting device 3; and a connecting hose 5 is inserted at the center of the upper surface of each cleaning nozzle 4. 5. A diversion device 6 is inserted at the center of the other end. A connecting water pipe 7 is inserted at the middle of the front end of the diversion device 6. The support device 2 includes a bracket 2-1, a slot 2-2, a locking hole 2-3, and a support column 2-4. A slot 2-2 is provided at the middle of the upper surface of the front surface of the bracket 2-1. A locking hole 2-3 is provided at the middle of the upper surface inside the slot 2-2. Support columns 2-4 are symmetrically connected at the middle of the left and right edges of the lower surface of the bracket 2-1. The bracket 2-1 is concave in shape. The support columns 2-4 are inserted into the left and right edges of the upper surface of the water transfer tank 1. At the edge, the slot 2-2 and the locking hole 2-3 are rectangular in shape. The connecting device 3 includes a retaining ring 3-1, a pin 3-2, a locking pin 3-3, and a nut 3-4. The pin 3-2 is connected to the middle of the rear side surface of the retaining ring 3-1. The locking pin 3-3 is connected to the middle of the upper surface of the pin 3-2. The nut 3-4 is inserted into the upper side surface of the locking pin 3-3. The pin 3-2 is inserted into the slot 2-2, and the locking pin 3-3 is inserted into the locking hole 2-3. The cleaning nozzle 4 is tightened onto the retaining ring 3-1. At the inner center, the diversion device 6 includes a booster pump 6-1, branch pipes 6-2, valves 6-3, and connectors 6-4. Several branch pipes 6-2 are vertically and evenly distributed on the upper surface of the booster pump 6-1. Each branch pipe 6-2 is connected to a valve 6-3 at the middle of its side surface. A connector 6-4 is connected to the middle of the front surface of the booster pump 6-1. A connecting hose 5 is inserted above the branch pipes 6-2. A connecting water pipe 7 is inserted into the front surface of the connector 6-4. The booster pump 6-1 is connected to the side surface of the water transfer tank 1.
[0005] The beneficial effects of this utility model are: workers can increase or decrease the number of cleaning nozzles according to the amount of fish skin, and workers can quickly change the cleaning nozzles at any time. Workers can clean more blades at once, which is convenient for workers to operate and improves work efficiency. Attached Figure Description
[0006] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0007] Figure 2 This is a schematic diagram of the support device 2 of this utility model;
[0008] Figure 3 This is a schematic diagram of the connecting device 3 of this utility model;
[0009] Figure 4 This is a schematic diagram of the diversion device 6 of this utility model. Detailed Implementation
[0010] Reference Figure 1 Figure 2 Figure 3 Figure 4 The fish protein raw material cleaning device includes a conveying tank 1, a support device 2, a connecting device 3, a cleaning nozzle 4, a connecting hose 5, a diversion device 6, and a connecting water pipe 7. The device is characterized in that: several support devices 2 are vertically and evenly distributed in the middle of the upper surface of the conveying tank 1; several connecting devices 3 are horizontally and evenly distributed in the front surface of each support device 2; a cleaning nozzle 4 is inserted at the middle of the front surface of each connecting device 3; and a connecting hose 5 is inserted at the center of the upper surface of each cleaning nozzle 4. A diversion device 6 is inserted at the center of the other end of pipe 5. A connecting water pipe 7 is inserted at the middle of the front end of the diversion device 6. The support device 2 includes a bracket 2-1, a slot 2-2, a locking hole 2-3, and a support column 2-4. A slot 2-2 is provided at the middle of the upper surface of the front surface of the bracket 2-1. A locking hole 2-3 is provided at the middle of the upper surface inside the slot 2-2. Support columns 2-4 are symmetrically connected at the middle of the left and right edges of the lower surface of the bracket 2-1. The bracket 2-1 is concave in shape. The support columns 2-4 are inserted into the left and right edges of the upper surface of the water transfer tank 1. At the edge, the slot 2-2 and the locking hole 2-3 are rectangular in shape. The connecting device 3 includes a retaining ring 3-1, a post 3-2, a locking post 3-3, and a nut 3-4. The post 3-2 is connected to the middle of the rear side surface of the retaining ring 3-1. The locking post 3-3 is connected to the middle of the upper surface of the post 3-2. The nut 3-4 is inserted into the upper side surface of the locking post 3-3. The post 3-2 is inserted into the slot 2-2, and the locking post 3-3 is inserted into the locking hole 2-3. The cleaning nozzle 4 is tightened onto the retaining ring 3-1. At the inner center of the circle, the diversion device 6 includes a booster pump 6-1, branch pipes 6-2, valves 6-3, and connectors 6-4. Several branch pipes 6-2 are vertically and evenly distributed on the upper surface of the booster pump 6-1. Each branch pipe 6-2 is connected to a valve 6-3 at the middle of its side surface. A connector 6-4 is connected to the middle of the front surface of the booster pump 6-1. A connecting hose 5 is inserted above the branch pipes 6-2. A connecting water pipe 7 is inserted into the front surface of the connector 6-4. The booster pump 6-1 is connected to the side surface of the water transfer tank 1.
[0011] In use, first place the bracket 2-1 on the support device 2 above the water tank 1, and at the same time insert the support column 2-4 into the water tank 1 to fix the bracket 2-1. Then insert the insertion post 3-2 on the connecting rotating post 3 into the slot 2-2, and then rotate the insertion post 3-2 to insert the locking post 3-3 into the locking hole 2-3. Then tighten the nut 3-4 on the locking post 3-3 to fix the locking post 3-3. Then tighten the cleaning nozzle 4 inserted into the connecting hose 6 into the retaining ring 3-1. Then insert the other end of the connecting hose 6 into the branch pipe 6-2 on the diversion device 6. Then connect the two ends of the connecting water pipe 7 to the connector 6-4 and the water tank drain pipe respectively. Finally, start the pressure pump 6-1 to draw water into the pressure pump 6-1 through the connecting water pipe 7, and at the same time inject it into the cleaning nozzle 4 through the connecting hose 5 and spray it out to clean the fish skin. During the cleaning process, the water in the water tank 1 is discharged through the drain pipe.
[0012] Staff can adjust the number of cleaning nozzles 4 that can be opened by closing or opening the corresponding valves 6-3 according to the number of fish fillets.
[0013] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. A fish protein raw material cleaning device comprising a conveying water tank (1), a supporting device (2), a connecting device (3), a cleaning nozzle (4), a connecting hose (5), a shunting device (6), a connecting water pipe (7), characterized in that: The upper surface of the water tank (1) is vertically and evenly distributed with several support devices (2). Each support device (2) is horizontally and evenly distributed with several connecting devices (3). Each connecting device (3) is equipped with a cleaning nozzle (4) at the center of the front of its upper surface. A connecting hose (5) is inserted at the center of the upper surface of the cleaning nozzle (4). A diversion device (6) is inserted at the center of the other end of the connecting hose (5). A connecting water pipe (7) is inserted at the center of the front end of the diversion device (6).
2. The fish protein raw material cleaning device according to claim 1, characterized in that: The support device (2) includes a bracket (2-1), a slot (2-2), a locking hole (2-3), and a support column (2-4). The bracket (2-1) has a slot (2-2) at the middle of the upper surface of its front surface. The slot (2-2) has a locking hole (2-3) at the middle of the upper surface inside its interior. The support column (2-4) is symmetrically connected to the middle of the left and right edges of the lower surface of the bracket (2-1). The bracket (2-1) is concave in shape. The support column (2-4) is inserted into the left and right edges of the upper surface of the water tank (1). The slot (2-2) and the locking hole (2-3) are rectangular in shape.
3. The fish protein raw material cleaning device according to claim 2, characterized in that: The connecting device (3) includes a retaining ring (3-1), a plug (3-2), a retaining post (3-3), and a nut (3-4). The plug (3-2) is connected to the middle of the rear side surface of the retaining ring (3-1). The retaining post (3-3) is connected to the middle of the upper surface of the plug (3-2). The nut (3-4) is inserted into the upper side surface of the retaining post (3-3). The plug (3-2) is inserted into the slot (2-2). The retaining post (3-3) is inserted into the retaining hole (2-3). The cleaning nozzle (4) is tightened at the center of the inner circle of the retaining ring (3-1).
4. The fish protein raw material cleaning device according to claim 1, characterized in that: The diversion device (6) includes a booster pump (6-1), branch pipes (6-2), valves (6-3), and connectors (6-4). Several branch pipes (6-2) are vertically and evenly distributed on the upper surface of the booster pump (6-1). Each branch pipe (6-2) is connected to a valve (6-3) at the middle of its side surface. A connector (6-4) is connected to the middle of the front surface of the booster pump (6-1). A connecting hose (5) is inserted above the branch pipe (6-2). A connecting water pipe (7) is inserted into the front surface of the connector (6-4). The booster pump (6-1) is connected to the side surface of the water transfer tank (1).