Meat raw material efficient cleaning equipment
By employing a rotating and sliding design for the drive motor and spray pipes, combined with traction rails and high-pressure spraying, the problem of uneven cleaning of meat raw materials is solved, achieving an efficient and automated cleaning process that improves cleaning quality and applicability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HENAN HUIWANJIA FOOD CO LTD
- Filing Date
- 2025-07-04
- Publication Date
- 2026-06-05
AI Technical Summary
Existing meat cleaning equipment is unable to fully cover all surfaces of meat raw materials, resulting in poor cleaning effects and affecting processing quality and efficiency.
A high-efficiency meat raw material cleaning device was designed. The device uses a drive motor to rotate the connecting rod, which in turn drives the spray pipe to rotate. Combined with the sliding of the traction rail and the spray pipe, it achieves multi-angle, high-pressure spraying and cleaning, and is then dried with a blower, forming an automated continuous cleaning process.
It achieves comprehensive cleaning of the surface of meat raw materials, improves cleaning effect and efficiency, adapts to the cleaning needs of meat of different sizes, and enhances the applicability and cleaning quality of the equipment.
Smart Images

Figure CN224320144U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of meat processing equipment, specifically to a high-efficiency cleaning device for meat raw materials. Background Technology
[0002] In the meat processing industry, cleaning raw meat is a crucial step. Existing cleaning equipment, with its simple internal structure, typically relies solely on fixed nozzles for spraying, making it difficult to comprehensively cover all surfaces of the meat. This results in ineffective cleaning and residual dirt, impacting processing quality and efficiency, and increasing costs. Therefore, there is an urgent need to design a new type of cleaning equipment to address these issues and meet the demands of modern meat processing. Utility Model Content
[0003] In view of this, the present invention provides a high-efficiency meat raw material cleaning device, which can drive the first gear to rotate the connecting rod by the drive motor, and the connecting plate rotates accordingly. The connecting plate drives the spray pipe to rotate and spray high-pressure water through the high-pressure nozzle to clean the meat.
[0004] To address the aforementioned technical problems, this utility model provides a high-efficiency meat raw material cleaning device. The cleaning tank is equipped with a traction rail, which is used to mount hooks and other items. The meat raw materials are hung on the hooks, and the traction rail drives the meat to move continuously, providing a stable conveying path for the entire cleaning process. Below the traction rail is a connecting housing, which protects the drive assembly from water contact and potential damage. The connecting housing not only supports and protects the internal structure but also provides a platform for the installation of subsequent components. A connecting rod is rotatably mounted on the connecting housing, and a spray pipe slides along the connecting rod. Rotation of the connecting rod drives the spray pipe to rotate, further expanding the cleaning range and enabling more comprehensive cleaning. A drive assembly is located on one side of the connecting rod, acting as a power source to precisely control the rotation angle and speed of the connecting rod, ensuring efficient and uniform cleaning.
[0005] A connecting plate is connected to the upper end of the connecting rod. The connecting plate is located above the connecting housing and is used to connect and fix other components. A first gear is provided at the lower end of the connecting rod. The first gear is rotatably installed inside the connecting housing. The first gear, through cooperation with other gears, realizes the transmission of power, enabling it to drive the connecting rod to rotate.
[0006] The drive assembly includes a drive motor connected and installed inside the connecting housing. The output end of the drive motor is connected to a second gear, which meshes with the first gear. The drive motor converts electrical energy into mechanical energy, and through the meshing transmission between the second gear and the first gear, it drives the connecting rod to rotate, thereby realizing multi-angle cleaning of the spray pipe.
[0007] Symmetrical grooves are arranged on the connecting plate, within which slide blocks slide. Spray pipes are connected to these slide blocks, and a drive unit connects the slide blocks. The cooperation between the grooves and slide blocks provides a stable track for the sliding of the spray pipes. The drive unit is a two-way cylinder located in the middle of the connecting plate, with its output end connected to the slide blocks. The two-way cylinder can precisely control the movement of the slide blocks, thereby flexibly adjusting the position of the spray pipes and achieving precise cleaning of items in different locations.
[0008] Multiple high-pressure nozzles are installed on the spray pipes. These nozzles can spray the cleaning solution at high pressure, enhancing the cleaning effect and effectively removing dirt from the surface of items.
[0009] The traction rail is installed on the cleaning tank above the connecting housing, and multiple blowers are installed at one end of the cleaning tank. The blowers are responsible for drying the cleaned items during the cleaning process. They work in conjunction with the cleaning function of the spray pipes to complete the entire cleaning and drying process, improving cleaning efficiency and quality.
[0010] The beneficial effects of the above-mentioned technical solution of this utility model are as follows:
[0011] 1. The spray pipe can slide on the connecting rod and the connecting rod can rotate, so that the water jet from the high-pressure nozzle can fully cover all surfaces of the meat raw materials, avoiding stains and residues. Compared with the traditional fixed nozzle cleaning method, the cleaning effect is better.
[0012] 2. The meat raw materials move under the drive of the traction track, and at the same time, the various parts of the equipment work together to realize an automated and continuous cleaning process, which improves cleaning efficiency and overcomes the drawback of the meat being static during traditional equipment cleaning.
[0013] 3. By using a two-way cylinder to push the slider and drive the spray pipe to slide, the distance between the spray pipe and the meat can be changed, enabling the cleaning of meat of different sizes and enhancing the applicability of the equipment. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the main structure of a high-efficiency meat raw material cleaning device according to the present invention;
[0015] Figure 2 This is a schematic diagram of the left-side structure of this utility model;
[0016] Figure 3This is a cross-sectional structural diagram of the present utility model AA;
[0017] Figure 4 This is a side view of the structure of this utility model;
[0018] Figure 5 This is a cross-sectional structural diagram of the present utility model BB.
[0019] Explanation of reference numerals in the attached drawings: 100, cleaning tank; 101, traction rail; 102, connecting housing; 103, connecting rod; 104, spray pipe; 105, connecting plate; 106, first gear; 107, slide rail; 108, slider; 109, high-pressure nozzle; 110, drive assembly; 111, drive motor; 112, second gear; 113, double-acting cylinder; 114, blower. Detailed Implementation
[0020] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the following will be described in conjunction with the accompanying drawings of the embodiments of this utility model. Figure 1-4 The technical solutions of the embodiments of this utility model are clearly and completely described herein. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. All other embodiments obtained by those skilled in the art based on the described embodiments of this utility model are within the protection scope of this utility model.
[0021] like Figure 1-4 As shown:
[0022] This embodiment provides a high-efficiency meat raw material cleaning device. The cleaning tank 100 is equipped with a traction rail 101, which is used to mount hooks and other items. The meat raw materials are hung on the hooks, and the traction rail 101 drives the meat to move continuously, providing a stable conveying path for the entire cleaning process. The traction rail 101 is welded to the inner walls of both sides of the cleaning tank 100. In actual use, the meat raw materials are hung on specially designed hooks. The bottom of the hooks has protrusions that fit into slots, allowing them to be securely locked onto the rail. It is connected to an external motor-driven chain transmission system. A connecting housing 102 is located below the traction rail 101. The connecting housing 102 provides protection for the drive assembly 110, preventing it from contacting water and causing damage. The connecting housing 102 not only supports and protects the internal structure but also provides a base platform for the installation of subsequent components. The connecting housing 102 is tightly fixed to the bottom of the cleaning tank 100 with bolts. A connecting rod 103 is rotatably mounted on the connecting housing 102, and its rotation is achieved using a deep groove ball bearing. A spray pipe 104 slides on the connecting rod 103; rotation of the connecting rod 103 drives the spray pipe 104 to rotate, thus allowing the spray pipe to rotate. The cleaning range of the spray pipe 104 is further expanded, enabling more comprehensive cleaning of items. The spray pipe 104 is located on both sides of the traction rail 101, making it easy to place meat in the middle of the spray pipe 104 for easy cleaning. A drive assembly 110 is provided on one side of the connecting rod 103 to drive the connecting rod 103 to rotate. The drive assembly 110 serves as a power source, precisely controlling the rotation angle and speed of the connecting rod 103 to ensure efficient and uniform cleaning. The connecting rod 103 has a round hole, through which the rinsing water passes. A rotary joint is connected to one end of the pipe, and a T-joint is connected to the rotary joint. A water supply pipe is connected to the output end of the T-joint, and the water supply pipe is connected to the spray pipe 104.
[0023] A connecting plate 105 is connected to the upper end of the connecting rod 103. The upper end of the connecting rod 103 is connected to the connecting plate 105 through a flange. The connecting plate 105 is located above the connecting housing 102 and is used to connect and fix other components. A first gear 106 is provided at the lower end of the connecting rod 103. The first gear 106 is rotatably disposed inside the connecting housing 102. The first gear 106, through cooperation with other gears, realizes the transmission of power, enabling it to drive the connecting rod 103 to rotate.
[0024] The drive assembly 110 includes a drive motor 111 connected and disposed within the connecting housing 102. The drive motor 111 is a Y90S-4 model. A second gear 112 is connected to the output end of the drive motor 111. The second gear 112 meshes with the first gear 106. The drive motor 111 converts electrical energy into mechanical energy. Through the meshing transmission of the second gear 112 and the first gear 106, the connecting rod 103 is driven to rotate, thereby realizing multi-angle cleaning of the spray pipe 104.
[0025] A second implementation of the drive assembly 110: A variable frequency motor drive assembly 110 can be added. The variable frequency motor of this assembly is mounted on the side of the connecting housing 102 and connected to a drive shaft via a flexible coupling. The drive shaft passes through the connecting housing 102 and connects to a synchronous pulley inside. A synchronous pulley is also mounted on the connecting rod 103, and the two synchronous pulleys are connected by a synchronous belt. The variable frequency motor can flexibly adjust its speed according to actual cleaning needs, driving the connecting rod 103 to rotate via synchronous belt drive. Synchronous belt drive has advantages such as smooth transmission, low noise, and no need for lubrication, effectively improving the stability and reliability of equipment operation.
[0026] Symmetrical grooves 107 are arranged on the connecting plate 105, and sliders 108 slide within the grooves 107. Spray pipes 104 are connected to sliders 108 via bolts, and a drive device connects the sliders 108. The cooperation between the grooves 107 and sliders 108 provides a stable track for the sliding of the spray pipes 104. The drive device is a bidirectional cylinder 113 located in the middle of the connecting plate 105. The selected bidirectional cylinder 113 (model SC-50-100) has its output end connected to the sliders 108 via a spherical bearing, allowing precise control of the slider 108's movement and flexible adjustment of the spray pipe 104's position for accurate cleaning. The bidirectional cylinder 113 precisely controls the movement of the sliders 108, thereby flexibly adjusting the position of the spray pipes 104 and achieving precise cleaning of items in different locations.
[0027] Multiple high-pressure nozzles 109 are installed on the spray pipe 104. These high-pressure nozzles 109 can spray the cleaning liquid in a high-pressure form, which enhances the cleaning effect and effectively removes dirt from the surface of the item.
[0028] The traction rail 101 is installed on the cleaning box 100 above the connecting housing 102. Multiple centrifugal blowers 114 of model 4-72-11No.4A are installed at one end of the cleaning box 100. The blowers 114 are responsible for drying the cleaned items in the cleaning process. They work in conjunction with the cleaning function of the spray pipe 104 to complete the entire cleaning and drying process, thereby improving cleaning efficiency and quality.
[0029] Working Principle: During operation, the drive motor 111 starts, and the second gear 112 at its output end drives the first gear 106, which meshes with it, to rotate. This causes the connecting rod 103 connected to the first gear 106 to rotate within the connecting housing 102, and the connecting plate 105 at the upper end of the connecting rod 103 rotates accordingly. The bidirectional cylinder 113 on the connecting plate 105 is activated, pushing the slider 108 to slide within the slide groove 107. This causes the spray pipe 104 connected to the slider 108 to slide along the connecting rod 103, changing the distance between the spray pipe 104 and the meat, thus completing the cleaning of meat of different sizes and ensuring a more thorough cleaning. Multiple high-pressure nozzles 109 on the spray pipe 104 spray high-pressure water jets to clean the meat raw materials located on the traction rail 101 within the cleaning tank 100. After cleaning, multiple blowers 114 at one end of the cleaning tank 100 are activated to dry the cleaned meat raw materials. Throughout the entire process, the meat raw materials move under the drive of the traction track 101, achieving continuous and efficient cleaning.
[0030] Furthermore, it should be noted that, in the description of this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0031] The above description is the preferred embodiment of this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications should also be considered within the protection scope of this utility model.
Claims
1. A high-efficiency meat raw material cleaning device, comprising a cleaning tank (100), wherein the cleaning tank (100) is provided with a traction rail (101), characterized in that: A connecting housing (102) is provided below the traction rail (101), a connecting rod (103) is rotatably provided on the connecting housing (102), a spray pipe (104) is slidably provided on the connecting rod (103), and a drive assembly (110) for driving the connecting rod (103) to rotate is provided on one side of the connecting rod (103).
2. The high-efficiency meat raw material cleaning equipment as described in claim 1, characterized in that: The upper end of the connecting rod (103) is connected to a connecting plate (105), the connecting plate (105) is located above the connecting housing (102), and the lower end of the connecting rod (103) is provided with a first gear (106), the first gear (106) is rotatably disposed inside the connecting housing (102).
3. The high-efficiency meat raw material cleaning equipment as described in claim 2, characterized in that: The drive assembly (110) includes a drive motor (111) connected and disposed in the connecting housing (102), and a second gear (112) is connected to the output end of the drive motor (111), the second gear (112) meshing with the first gear (106).
4. The high-efficiency meat raw material cleaning equipment as described in claim 3, characterized in that: The connecting plate (105) is symmetrically provided with sliding grooves (107), and a slider (108) is slidably provided in the sliding groove (107). The spray pipe (104) is connected to the slider (108), and a driving device is connected between the sliders (108).
5. The high-efficiency meat raw material cleaning equipment as described in claim 4, characterized in that: The driving device is a bidirectional cylinder (113) located in the middle of the connecting plate (105), and the output end of the bidirectional cylinder (113) is connected to the slider (108).
6. The high-efficiency meat raw material cleaning equipment as described in claim 5, characterized in that: The spray pipe (104) is equipped with multiple high-pressure nozzles (109).
7. The high-efficiency meat raw material cleaning equipment as described in claim 6, characterized in that: The traction rail (101) is mounted on the cleaning box (100) above the connecting housing (102), and one end of the cleaning box (100) is provided with multiple blowers (114).