A sterilization and sorting device for fish fillets
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU YUEHAI AQUATIC TECH CO LTD
- Filing Date
- 2025-07-14
- Publication Date
- 2026-07-10
AI Technical Summary
[0002]随着人们生活水平的提高,对鱼类食品的需求日益增长,鱼片作为一种常见的鱼类加工产品,在市场上占据了重要地位,在鱼片的生产加工过程中,需要对鱼片进行杀菌处理,以此提升鱼片的保存周期,然而在传统的杀菌设备中,鱼片大多是堆积且统一进行输送的,导致鱼片在进入杀菌设备内部时难以均匀接受杀菌处理,大幅降低了杀菌效果,影响产品的质量,同时也大幅降低了鱼片的保存周期,为此特提出一种鱼片加工用杀菌分拣装置
[0032]1、本实用新型通过设置下料组件,具体是通过振动电机便于下料斗内部的鱼片进行滑落,再启动电机一带动转轴进行转动,在转轴转动的过程中会带动若干个柔性扇叶进行转动,在若干个柔性扇叶转动时会对滑落的鱼片进行均匀下料,通过对鱼片均匀下料,便于后续的杀菌处理,降低鱼片堆积输送的情况,大幅提升了鱼片的杀菌效果,提升了产品的质量,同时也降低了鱼片的保存周期。
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Figure CN224477557U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of fish fillet processing technology, and in particular relates to a sterilization and sorting device for fish fillet processing. Background Technology
[0002] With the improvement of people's living standards, the demand for fish products is increasing. Fish fillets, as a common processed fish product, occupy an important position in the market. In the production and processing of fish fillets, sterilization is required to extend their shelf life. However, in traditional sterilization equipment, fish fillets are mostly piled up and transported uniformly, which makes it difficult for the fish fillets to be uniformly sterilized when they enter the sterilization equipment, greatly reducing the sterilization effect, affecting product quality, and also significantly reducing the shelf life of the fish fillets. Therefore, a sterilization and sorting device for fish fillet processing is proposed. Utility Model Content
[0003] The purpose of this invention is to provide a sterilization and sorting device for fish fillet processing. By setting up a feeding component, specifically a vibrating motor to facilitate the sliding of fish fillets inside the feeding hopper, and then starting the motor to drive the rotating shaft to rotate, the rotating shaft will drive several flexible fan blades to rotate. When the flexible fan blades rotate, they will evenly feed the sliding fish fillets. This solves the problem in traditional sterilization equipment where fish fillets are mostly piled up and transported uniformly, which makes it difficult for the fish fillets to be evenly sterilized when they enter the sterilization equipment, greatly reducing the sterilization effect, affecting product quality, and also greatly reducing the shelf life of the fish fillets.
[0004] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:
[0005] This utility model relates to a sterilization and sorting device for fish fillet processing, comprising:
[0006] The sterilization section is used to sterilize the fish fillets;
[0007] The feeding section is located to the left of the sterilization section, and the sterilization section stores and feeds fish fillets.
[0008] A sorting section, located to the right of the sterilization section, is used to sort and sieve fish fillets by size; and
[0009] The cleaning section is connected to the sterilization section, and the cleaning section is used to remove impurities.
[0010] This equipment, with its integrated sterilization and sorting system, effectively improves work efficiency and reduces the workload of staff.
[0011] Furthermore, the sterilization unit includes a support assembly that provides a stable support foundation for the device; and
[0012] A conveying assembly, mounted above a support assembly, is used to convey fish fillets;
[0013] The conveying assembly connects the feeding section to the cleaning section and plays a crucial role in the fish fillet processing.
[0014] Furthermore, the feeding section includes a feeding assembly, which is disposed above the conveying assembly, and the feeding assembly employs a uniform feeding method; and
[0015] The temporary storage component is installed on the left side above the support component, and the feeding component is a vibration feeding method;
[0016] The feeding component ensures that the fish fillets are evenly fed through the feeding mechanism, which facilitates uniform sterilization and improves the sterilization effect.
[0017] Furthermore, the sorting unit includes a sorting assembly, which is installed on the right side of the conveying assembly. The sorting assembly uses vibration to sort the fish fillets by size.
[0018] Among them, the automated sorting method has greatly improved work efficiency compared to the traditional manual sorting.
[0019] Furthermore, the cleaning unit includes a scraping assembly installed on the bottom right side of the conveying assembly, the scraping assembly being used to clean the conveying assembly during equipment operation;
[0020] The scraping component cleans the conveying component, which improves its cleanliness and reduces the adhesion of fish fillets to the surface of the conveying component.
[0021] Furthermore, the support assembly includes a support platform, a sterilization device is provided on the top of the support platform, and a support frame is welded to both the front and back of the sterilization device;
[0022] The conveying assembly includes a conveyor belt, and a support frame is provided on the outside of the conveyor belt. The bottom of the support frame is connected to the top of the support platform. Rotary rods are connected to the left and right sides inside the conveyor belt. A pulley is connected to the outer surface of the rotary rod on the left side. A belt is driven to the outer surface of the pulley. A second pulley is driven to the side of the belt away from the pulley.
[0023] The rotating rod located on the left side passes through the support frame and extends to the front, and the pulley is located on the front of the support frame.
[0024] Furthermore, the feeding assembly includes a motor, a motor bracket is welded to the outer surface of the motor, and a rotating shaft is connected to the output end of the motor via a coupling. Several flexible fan blades are installed on the outer surface of the rotating shaft.
[0025] The temporary storage component includes a feeding hopper, the front and back of which are connected to a support platform via a support frame, and a vibration motor is installed on the front of the feeding hopper.
[0026] The motor bracket is welded to the front of the hopper, the rotating shaft passes through the hopper and extends into it, the outer surface of the rotating shaft is rotatably connected to the inside of the hopper, and several flexible fan blades are arranged inside the hopper.
[0027] Furthermore, the sorting assembly includes a sorting filter plate, a second motor is provided at the bottom of the sorting filter plate, a fixed seat is installed on the outer surface of the second motor, the side of the fixed seat away from the second motor is welded to the right side of the support platform, the output end of the back of the second motor is connected to an eccentric turntable through a coupling, a support rod is connected to the back of the eccentric turntable, a sliding groove is provided on the side of the support rod away from the eccentric turntable, and a fixed bracket is welded to the right side of the bottom of the sorting filter plate, the fixed bracket is connected to the support rod through the sliding groove;
[0028] The left side of the sorting filter plate is rotatably connected to the right side of the support frame via a pin.
[0029] Furthermore, the scraping assembly includes a scraper, the top of which contacts the surface of the conveyor belt. A rotating rod is fixedly connected inside the scraper. Connecting blocks are connected to the front and back of the outer surface of the rotating rod. Springs are connected inside the two connecting blocks. Connecting seats are connected to the side of the two springs away from the connecting blocks. The side of the two connecting seats away from the springs is welded to the front and back of the left side of the support frame.
[0030] The support frame has protrusions on both the front and back sides at the bottom, and the two ends of the rotating rod pass through the protrusions. The two connecting blocks are respectively located on the sides of the protrusions that are far apart from each other.
[0031] This utility model has the following beneficial effects:
[0032] 1. This utility model, by setting up a feeding component, specifically uses a vibrating motor to facilitate the sliding of fish fillets inside the feeding hopper. Then, starting the motor drives the rotating shaft to rotate. During the rotation of the rotating shaft, several flexible fan blades will rotate, which will evenly feed the sliding fish fillets. By feeding the fish fillets evenly, it is easier to carry out subsequent sterilization treatment, reduce the accumulation of fish fillets during transportation, greatly improve the sterilization effect of the fish fillets, improve product quality, and also shorten the shelf life of the fish fillets.
[0033] 2. This utility model, through the setting of a sorting component, specifically involves starting a second motor to drive an eccentric turntable to rotate. During the rotation of the eccentric turntable, the support rod will swing left and right. During the swinging of the support rod, the fixed bracket will move together through the action of the sliding groove. Since the side of the sorting filter plate away from the fixed bracket is rotatably connected to the support frame, the sorting filter plate will perform up-and-down reciprocating flipping motion. During the reciprocating motion of the sorting filter plate, the fish fillets will be vibrated. At this time, fish fillets that do not meet the size standard will be filtered out from inside the sorting filter plate, thus achieving the sorting effect. Compared with the traditional manual sorting method, it greatly improves work efficiency and significantly reduces the workload of workers.
[0034] 3. This utility model incorporates a scraping component. Specifically, during the rotation of the conveyor belt, the scraper contacts the scraper at the bottom. The scraper, under the force of the scraper, causes the connecting block to swing via the rotating rod. During the movement of the connecting block, the spring is stretched. The spring, limited by the connecting seat, generates a certain rebound force and causes the connecting block to reset. During the reset of the connecting block, the scraper is also reset, ensuring that the scraper is always in contact with the surface of the conveyor belt. This effectively removes impurities from the surface of the conveyor belt, improving the cleanliness of the conveyor belt and the food safety of the fish fillets.
[0035] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description
[0036] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0037] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0038] Figure 2 This is a schematic diagram of the cross-sectional structure of the feeding hopper of this utility model;
[0039] Figure 3 This utility model Figure 2 A schematic diagram of the enlarged structure of A in the diagram;
[0040] Figure 4 This is a schematic diagram of the overall structure of the scraper of this utility model;
[0041] Figure 5 This utility model Figure 4 A magnified structural diagram of B in the diagram;
[0042] Figure 6 This is a schematic diagram of the overall structure of the sorting filter plate of this utility model.
[0043] The attached diagram lists the components represented by each number as follows:
[0044] 1. Sterilization section; 11. Support assembly; 111. Support platform; 112. Sterilization device; 113. Support frame; 114. Collection box; 115. Support frame; 12. Conveying assembly; 121. Conveyor belt; 122. Rotating rod one; 123. Pulley one; 124. Belt; 125. Pulley two; 2. Unloading section; 21. Unloading assembly; 211. Motor one; 212. Motor bracket; 213. Rotating shaft; 214. Flexible fan 22. Leaf; 221. Temporary storage component; 222. Feed hopper; 222. Vibrating motor; 3. Sorting section; 31. Sorting component; 311. Sorting filter plate; 312. Fixed seat; 313. Motor II; 314. Eccentric turntable; 315. Support rod; 316. Slide chute; 317. Fixed bracket; 4. Cleaning section; 41. Scraping component; 411. Connecting block; 412. Scraper; 413. Rotating rod II; 414. Spring; 415. Connecting seat. Detailed Implementation
[0045] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0046] Please see Figures 1-6As shown, this utility model is a sterilization and sorting device for fish fillet processing, including: a sterilization section 1 for sterilizing fish fillets; a feeding section 2 located on the left side of the sterilization section 1 for storing and feeding fish fillets; a sorting section 3 located on the right side of the sterilization section 1 for sorting and sieving fish fillets by size; and a cleaning section 4 connected to the sterilization section 1 for cleaning impurities. This device, through its integrated sterilization and sorting design, effectively improves work efficiency and reduces the workload of workers. The sterilization section 1 includes a support assembly 11 providing a stable foundation for the device; and a conveying assembly 12 mounted on the support assembly 12. Above component 11, a conveying component 12 is used to convey fish fillets. The conveying component 12 supports the feeding section 2 above and connects to the cleaning section 4 below. The conveying component 12 plays a crucial role in the fish fillet processing. The feeding section 2 includes a feeding component 21, which is positioned above the conveying component 12 and uses a uniform feeding method. A temporary storage component 22 is installed on the left side above the support component 11. The feeding component 21 uses a vibrating feeding method. Uniform feeding via the feeding component 21 ensures that subsequent fish fillets are evenly received for sterilization, improving the sterilization effect. The sorting section 3 includes a sorting component 31, which is installed on the right side of the conveying component 12 and uses a vibrating method to sort the fillets. Fish fillets are sorted by size. Automated sorting significantly improves efficiency compared to traditional manual sorting. The cleaning unit 4 includes a scraping component 41, installed on the bottom right side of the conveyor assembly 12. The scraping component 41 cleans the conveyor assembly 12 during operation, improving its cleanliness and reducing fish fillet adhesion. The support assembly 11 includes a support platform 111 with a sterilization device 112 on top. Support frames 113 are welded to both the front and back of the sterilization device 112. The conveyor assembly 12 includes a conveyor belt 121. An external support frame 115 is provided, with its bottom connected to the top of the support platform 111. Inside the conveyor belt 121, rotating rods 122 are connected to both the left and right sides. A pulley 123 is connected to the outer surface of the left-side rotating rod 122, and a belt 124 is connected to the outer surface of the pulley 123. A second pulley 125 is connected to the side of the belt 124 furthest from the pulley 123. The left-side rotating rod 122 passes through the support frame 115 and extends to the front. The pulley 123 is located on the front of the support frame 115. The unloading assembly 21 includes a motor 211, with a motor bracket 212 welded to its outer surface. A rotating shaft 213 is connected to the output end of the motor 211 via a coupling.Several flexible fan blades 214 are mounted on the outer surface of the rotating shaft 213. The temporary storage assembly 22 includes a feeding hopper 221. The front and back of the feeding hopper 221 are also connected to the support platform 111 via a support frame 113. A vibration motor 222 is mounted on the front of the feeding hopper 221. The back of the motor bracket 212 is welded to the front of the feeding hopper 221. The rotating shaft 213 passes through the feeding hopper 221 and extends into it. The outer surface of the rotating shaft 213 is rotatably connected to the inside of the feeding hopper 221. Several flexible fan blades 214 are arranged inside the feeding hopper 221. The vibration motor 222 facilitates the sliding of fish fillets inside the feeding hopper 221. When the motor 211 is started, it drives the rotating shaft 213 to rotate. During the rotation of the rotating shaft 213, it drives the several flexible fan blades 214 to rotate. The rotating flexible fan blades 214 evenly distribute the falling fish fillets, facilitating subsequent sterilization and reducing accumulation during transport. This significantly improves the sterilization effect, enhances product quality, and shortens the shelf life of the fish fillets. The sorting assembly 31 includes a sorting filter plate 311. A second motor 313 is mounted at the bottom of the filter plate 311. A fixed seat 312 is installed on the outer surface of the second motor 313. The side of the fixed seat 312 away from the second motor 313 is welded to the right side of the support platform 111. An eccentric turntable 314 is connected to the output end of the second motor 313 via a coupling. A support rod 315 is connected to the back of the eccentric turntable 314. A groove 315 is provided on the side of the support rod 315 away from the eccentric turntable 314. 16. A fixed bracket 317 is welded to the right side of the bottom of the sorting filter plate 311. The fixed bracket 317 is connected to the support rod 315 through a sliding groove 316. The left side inside the sorting filter plate 311 is rotatably connected to the right side of the support frame 115 through a pin. When the motor 313 is started, it drives the eccentric turntable 314 to rotate. During the rotation of the eccentric turntable 314, it drives the support rod 315 to swing left and right. During the swinging of the support rod 315, it drives the fixed bracket 317 to move together through the sliding groove 316. Since the side of the sorting filter plate 311 away from the fixed bracket 317 is rotatably connected to the support frame 115, the sorting filter plate 311 will perform a reciprocating up-and-down flipping motion. During the reciprocating motion of the sorting filter plate 311, it will sort the fish fillets. The vibration effect causes fish fillets that do not meet size standards to be filtered out from inside the sorting filter plate 311, achieving the sorting effect. Compared with the traditional manual sorting method, this significantly improves work efficiency and reduces the workload of workers. The scraping component 41 includes a scraper 412, the top of which contacts the surface of the conveyor belt 121. A rotating rod 413 is fixedly connected inside the scraper 412. Connecting blocks 411 are connected to the front and back of the outer surface of the rotating rod 413. Springs 414 are connected inside the two connecting blocks 411. Connecting seats 415 are connected to the side of the two springs 414 away from the connecting blocks 411. The side of the two connecting seats 415 away from the springs 414 is welded to the front and back of the left side of the support frame 115.The support frame 115 has protrusions on both the front and back of its bottom. The rotating rod 413 passes through both ends of these protrusions. Two connecting blocks 411 are located on opposite sides of the protrusions. During the rotation of the conveyor belt 121, these blocks contact the scraper 412 at the bottom. The scraper 412, under pressure, causes the connecting blocks 411 to swing via the rotating rod 413. This movement stretches the spring 414, which, limited by the connecting seat 415, generates a rebound force that resets the connecting blocks 411. This reset of the connecting blocks 411 also resets the scraper 412, ensuring that the scraper 412 remains in contact with the surface of the conveyor belt 121. This effectively removes impurities from the conveyor belt 121, improving its cleanliness and the safety of the fish fillets.
[0047] A specific application of this embodiment is as follows: In use, the fish fillets to be processed are first added into the hopper 221, and then the vibration motor 222 is started to drive the hopper 221 to vibrate. The vibration of the vibration motor 222 facilitates the fish fillets to slide down inside the hopper 221. At the same time, the inside of the hopper 221 is smoothly designed. Then, the motor 211 is started to drive the rotating shaft 213 to rotate. At the same time, the motor bracket 212 provides a certain support force for the motor 211 through the fixed connection with the hopper 221. During the rotation of the rotating shaft 213, several flexible fan blades 214 will be driven to rotate. When the flexible fan blades 214 rotate, they will evenly feed the sliding fish fillets. By feeding the fish fillets evenly, it is convenient for subsequent sterilization treatment, reducing the accumulation of fish fillets during transportation, greatly improving the sterilization effect of the fish fillets, improving the quality of the product, and also reducing the shelf life of the fish fillets.
[0048] At this time, the fish fillets fed by several flexible fan blades 214 fall onto the surface of the conveyor belt 121. Simultaneously, the rotation of the shaft 213 drives the second pulley 125 to rotate. During the rotation of the second pulley 125, the belt 124 drives the first pulley 123 to rotate. The rotation of the first pulley 123 then drives the left-side rotating rod 122 to rotate. This rotating rod 122 then drives the conveyor belt 121 to rotate, thus conveying the fish fillets. During the process, the fish fillets undergo sterilization at the bottom of sterilization device 112. Utilizing a dual sterilization method combining ultraviolet (UV) lamps and an ozone generator, the fish fillets are sterilized comprehensively and thoroughly. Sterilization device 112 employs both UV and ozone sterilization. UV light directly destroys the nucleic acid structure of bacteria and viruses, while ozone penetrates every corner of the fish fillets, oxidizing and decomposing microorganisms. This combined sterilization method significantly improves the efficiency and thoroughness of sterilization, effectively extending the shelf life of the fish fillets. Simultaneously, the fish fillets are also processed on the conveyor belt. Several holes are provided on the surface of 121 to allow residual water on the fish fillet surface to drip off. The dripped water will fall into the collection box 114 below for collection and subsequent unified processing. During the use of the equipment, the feeding hopper 221 and the sterilization device 112 are both welded to the support platform 111 via the support frame 113. As the conveyor belt 121 rotates, it will come into contact with the scraper 412 at the bottom. The scraper 412 will be subjected to force, which will drive the rotating rod 413 to rotate. During the rotation of the rotating rod 413, When the connecting block 411 swings, it stretches the spring 414. The spring 414, limited by the connecting seat 415, generates a certain rebound force and drives the connecting block 411 to reset. During the reset process, the connecting block 411 drives the scraper 412 to reset as well, ensuring that the scraper 412 is always in contact with the surface of the conveyor belt 121, thereby removing impurities from the surface of the conveyor belt 121, improving the cleanliness of the conveyor belt 121, and also improving the food safety of the fish fillets.
[0049] The fish fillets conveyed by conveyor belt 121 eventually enter the sorting filter plate 311. At this time, motor 313 is started to drive the eccentric turntable 314 to rotate. Simultaneously, the fixed seat 312 provides a certain support force for motor 313 through its fixed connection with the support platform 111. During the rotation of the eccentric turntable 314, the support rod 315 will swing left and right. During the swing of the support rod 315, the fixed bracket 317 will move together through the sliding groove 316. When the fixed bracket 317 moves, it will drive the sorting filter plate 311 to move. Since the side of the sorting filter plate 311 away from the fixed bracket 317 is rotatably connected to the support frame 115, the sorting filter plate 311 will perform up-and-down reciprocating flipping motion. During the reciprocating motion of the sorting filter plate 311, the fish fillets will vibrate. At this time, fish fillets that do not meet the size standard will be filtered out from the inside of the sorting filter plate 311, thus achieving the sorting effect. Compared with the traditional manual sorting method, this method greatly improves work efficiency and significantly reduces the workload of workers.
[0050] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0051] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the present utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of the present utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.
Claims
1. A sterilization and sorting device for fish fillet processing, characterized in that, include: Sterilization section (1), wherein the sterilization section (1) is used to sterilize fish fillets; The feeding section (2) is located on the left side of the sterilization section (1), and the sterilization section (1) stores and feeds fish fillets. The sorting section (3) is located to the right of the sterilization section (1) and is used to sort and sieve the fish fillets by size; and The cleaning section (4) is connected to the sterilization section (1) and the cleaning section (4) serves to clean impurities. This equipment, with its integrated sterilization and sorting system, effectively improves work efficiency and reduces the workload of staff.
2. The sterilization and sorting device for fish fillet processing according to claim 1, characterized in that, The sterilization unit (1) includes a support assembly (11) that provides a stable support foundation for the equipment; and A conveying assembly (12) is mounted above a support assembly (11) and is used to convey fish fillets. The conveying assembly (12) is connected to the feeding part (2) on the top and the cleaning part (4) on the bottom. The conveying assembly (12) plays a crucial role in the fish fillet processing process.
3. The sterilization and sorting device for fish fillet processing according to claim 2, characterized in that, The feeding section (2) includes a feeding assembly (21), which is disposed above the conveying assembly (12). The feeding assembly (21) uses a uniform feeding method. A temporary storage component (22) is installed on the left side above the support component (11), and the feeding component (21) is used for vibratory feeding. The feeding component (21) feeds the fish fillets evenly, which makes it easier for the fillets to receive sterilization evenly and improves the sterilization effect.
4. The sterilization and sorting device for fish fillet processing according to claim 3, characterized in that, The sorting unit (3) includes a sorting component (31), which is installed on the right side of the conveying component (12). The sorting component (31) uses vibration to sort the fish fillets by size. Among them, the automated sorting method has greatly improved work efficiency compared to the traditional manual sorting.
5. The sterilization and sorting device for fish fillet processing according to claim 4, characterized in that, The cleaning unit (4) includes a scraping component (41), which is installed on the bottom right side of the conveying component (12). The scraping component (41) is used to clean the conveying component (12) during the operation of the equipment. The cleaning of the conveying component (12) by the scraping component (41) improves the cleanliness of the conveying component (12) and reduces the adhesion of fish fillets to the surface of the conveying component (12).
6. The sterilization and sorting device for fish fillet processing according to claim 5, characterized in that, The support assembly (11) includes a support platform (111), and a sterilization device (112) is provided on the top of the support platform (111). The front and back of the sterilization device (112) are both welded with support frames (113). The conveying assembly (12) includes a conveyor belt (121), and a support frame (115) is provided on the outside of the conveyor belt (121). The bottom of the support frame (115) is connected to the top of the support platform (111). A rotating rod (122) is connected to both the left and right sides inside the conveyor belt (121). A pulley (123) is connected to the outer surface of the rotating rod (122) on the left side. A belt (124) is connected to the outer surface of the pulley (123). A pulley (125) is connected to the side of the belt (124) away from the pulley (123). Among them, the rotating rod (122) located on the left side passes through the support frame (115) and extends to the front, and the pulley (123) is located on the front of the support frame (115).
7. The sterilization and sorting device for fish fillet processing according to claim 6, characterized in that, The feeding assembly (21) includes a motor (211), a motor bracket (212) is welded to the outer surface of the motor (211), and a rotating shaft (213) is connected to the output end of the back of the motor (211) through a coupling. Several flexible fan blades (214) are installed on the outer surface of the rotating shaft (213). The temporary storage component (22) includes a feeding hopper (221), the front and back of which are connected to the support platform (111) via a support frame (113), and a vibration motor (222) is installed on the front of the feeding hopper (221). The back of the motor bracket (212) is welded to the front of the hopper (221), the rotating shaft (213) passes through the hopper (221) and extends into the interior, the outer surface of the rotating shaft (213) is rotatably connected to the interior of the hopper (221), and several flexible fan blades (214) are arranged inside the hopper (221).
8. The sterilization and sorting device for fish fillet processing according to claim 7, characterized in that, The sorting assembly (31) includes a sorting filter plate (311). A second motor (313) is provided at the bottom of the sorting filter plate (311). A fixed seat (312) is installed on the outer surface of the second motor (313). The side of the fixed seat (312) away from the second motor (313) is welded to the right side of the support platform (111). An eccentric turntable (314) is connected to the output end of the back of the second motor (313) through a coupling. A support rod (315) is connected to the back of the eccentric turntable (314). A sliding groove (316) is provided on the side of the support rod (315) away from the eccentric turntable (314). A fixed bracket (317) is welded to the right side of the bottom of the sorting filter plate (311). The fixed bracket (317) is connected to the support rod (315) through the sliding groove (316). The left side of the sorting filter plate (311) is rotatably connected to the right side of the support frame (115) via a pin.
9. A sterilization and sorting device for fish fillet processing according to claim 8, characterized in that, The scraping assembly (41) includes a scraper (412), the top of which contacts the surface of the conveyor belt (121). A rotating rod (413) is fixedly connected inside the scraper (412). Connecting blocks (411) are connected to the front and back of the outer surface of the rotating rod (413). Springs (414) are connected inside the two connecting blocks (411). Connecting seats (415) are connected to the side of the two springs (414) away from the connecting blocks (411). The side of the two connecting seats (415) away from the springs (414) is welded to the front and back of the left side of the support frame (115). The support frame (115) has protrusions on both the front and back sides of its bottom. The two ends of the rotating rod (413) pass through the protrusions and through each other. The two connecting blocks (411) are respectively located on the side of the protrusions that are far apart from each other.