A ring-spraying type disinfection fence for pig breeding
By introducing a diversion pipe adjustment component and a gate frame locking component into the ring spray disinfection fence for pig farming, the problems of inconvenient diversion pipe adjustment and unstable gate frame are solved, achieving convenient disinfection effect and stable fence gate frame operation, reducing human resource requirements and equipment costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 保山市畜牧工作站(保山市畜禽遗传资源研究所)
- Filing Date
- 2025-01-22
- Publication Date
- 2026-06-09
AI Technical Summary
Existing ring-spray disinfection fences for pig farming are inconvenient to adjust in height and disassemble due to the difficulty in using the diversion pipes, which affects the ease of use and disinfection effect. In addition, the door frame is unstable when closing, which can easily lead to the escape of pigs.
The design incorporates a diversion pipe adjustment assembly and a gate frame locking assembly, which utilize a servo motor and an electric push rod to facilitate convenient adjustment of the diversion pipe's height and angle, as well as quick locking and opening of the fence gate frame.
It improves the ease of use and disinfection effect of the diversion pipe, prevents pigs from escaping, and reduces the demand for human resources and equipment costs.
Smart Images

Figure CN224331267U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of disinfection fence technology, specifically relating to a ring-spray disinfection fence for pig farming. Background Technology
[0002] Pig farming is an agricultural production activity, primarily involving raising pigs for food consumption. The pig farming industry is an important sector of my country's agriculture, playing a crucial role in ensuring a safe supply of meat. my country's pig farming industry is transitioning from traditional to modern methods, with significant changes occurring in breeding models, regional distribution, production methods, and production capacity.
[0003] Chinese Patent Application No. 202420762087.5 discloses a ring-spray disinfection fence for large-scale pig farming, relating to the field of disinfection fence technology. It includes a disinfection mechanism with an adjustment mechanism fixedly fitted onto its outer wall, and a controller. In this invention, the controller controls the time interval of a timer under the action of the disinfection mechanism, thereby controlling the normal operation of the water pump. This allows for timed disinfection spraying according to user needs, reducing costs and manual operation, and improving safety and work efficiency. Furthermore, the water pump pressure allows the tee connector and diverter pipe connected to the outer wall of the bearing ring to rotate 360 degrees, enabling the nozzles installed on the outer wall of the diverter pipe to disinfect the pigpen in real time. This provides comprehensive disinfection, saves energy, improves disinfection efficiency, and ensures the normal growth of the pigs.
[0004] The aforementioned patent makes it inconvenient to adjust the height of the diversion pipe during use, wasting manpower and incurring high adjustment costs. Furthermore, the inconvenience of disassembling and assembling the diversion pipe affects the ease of use of the equipment and reduces the effectiveness of spray disinfection. When closing the fence gate, it is inconvenient to lock the gate, which may lead to collisions and opening after pigs enter, thus affecting the quality of disinfection. Utility Model Content
[0005] To address the problems mentioned in the background section, this invention provides a ring-spray disinfection fence for pig farming, featuring convenient adjustment of the diversion pipe and stable and convenient closure of the gate frame.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a ring-spray disinfection fence for pig farming, comprising a disinfectant tank, a water pipe inside the disinfectant tank, a flexible hose connected to one end of the water pipe, a tee connected to the bottom end of the flexible hose, diversion pipe bodies on both sides of the tee, several support columns on one side of the disinfectant tank, a fence door frame on one side of the support columns, a diversion pipe adjustment component on the surface of the tee corresponding to the diversion pipe body, and a door frame locking component on the surface of the fence door frame.
[0007] Preferably, the diverter adjustment assembly includes an adjustment device, a guide frame, a guide rod, a lead screw, a servo motor, and a stop block. The adjustment device is provided on one side of the hose, the guide frames are symmetrically arranged on both sides of the upper end of the tee, a servo motor is provided at one end of the guide frame, the output end of the servo motor is connected to the lead screw, a guide rod is provided on one side of the lead screw, and a stop block is provided between the lead screw and the guide rod.
[0008] Preferably, the upper end of the abutment block is provided with a limit slider corresponding to the guide frame, and the top end of the support column is provided with a top plate corresponding to the adjustment device.
[0009] Preferably, the adjusting device includes a pipe joint, a fixed protrusion, a limiting spring, a movable block, a positioning rod, a positioning ring, and an electric push rod. A pipe joint is provided between the hose and the tee. A fixed protrusion is provided on one side of the pipe joint. A limiting spring is provided inside the fixed protrusion. A movable block is fixed to one end of the limiting spring. A positioning rod is provided to one end of the movable block. A positioning ring is provided to one end of the fixed protrusion. An electric push rod is provided at the bottom end of the top plate corresponding to the positioning ring.
[0010] Preferably, the door frame locking assembly includes a pin, a mounting plate, a toggle block, a positioning spring, a fixing rod, and a clamp. The pin is provided on the surface of the fence door frame, a mounting plate is provided on one side of the pin, fixing rods are symmetrically arranged inside the mounting plate, a positioning spring is sleeved on the surface of the fixing rod, a toggle block is provided at one end of the positioning spring, and a clamp is provided on one side of the toggle block.
[0011] Preferably, the inner diameter of the clamp is the same as the diameter of the fence frame, and the inside of the actuating block has a through hole.
[0012] Compared with the prior art, the beneficial effects of this utility model are:
[0013] 1. This utility model, by setting up a diversion pipe adjustment component, allows for convenient adjustment of the height of the diversion pipe during disinfectant spraying, improving the disinfection effect on pigs and ensuring the quality of equipment use. At the same time, it allows for easy disassembly and replacement of the diversion pipe, and the angle of use of the diversion pipe can be adjusted to improve spraying quality, save manpower, and reduce equipment operating costs.
[0014] 2. By setting a door frame locking component, this utility model can quickly and stably lock the door frame after the pigs enter the enclosure, preventing the pigs from escaping, improving the convenience of opening and closing the door frame, and ensuring the quality of equipment use. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the structure of this utility model;
[0016] Figure 2 This is a schematic diagram of the structure of the diverter adjustment assembly of this utility model;
[0017] Figure 3 This is a schematic diagram of the adjustment device structure of this utility model;
[0018] Figure 4 This is a schematic diagram of the door frame locking component of this utility model.
[0019] In the diagram: 1. Hose; 2. Water pipe; 3. Disinfectant tank; 4. Diverter pipe adjustment assembly; 41. Adjustment device; 411. Pipe joint; 412. Fixing protrusion; 413. Limiting spring; 414. Movable block; 415. Positioning rod; 416. Positioning ring; 417. Electric push rod; 42. Guide frame; 43. Guide rod; 44. Lead screw; 45. Servo motor; 46. Abutment block; 5. Diverter pipe body; 6. Door frame locking assembly; 61. Pin; 62. Mounting plate; 63. Actuating block; 64. Positioning spring; 65. Fixing rod; 66. Clamp; 7. Fence door frame; 8. Support column; 9. T-junction. Detailed Implementation
[0020] 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.
[0021] Example 1
[0022] Please see Figure 1-4 The present invention provides the following technical solution: a ring spray disinfection fence for pig farming, including a disinfection tank 3, a water pipe 2 inside the disinfection tank 3, a flexible hose 1 connected to one end of the water pipe 2, a tee 9 connected to the bottom end of the flexible hose 1, a diversion pipe body 5 on both sides of the tee 9, a plurality of support columns 8 on one side of the disinfection tank 3, a fence door frame 7 on one side of the support columns 8, a diversion pipe adjustment component 4 on the surface of the tee 9 corresponding to the diversion pipe body 5, and a door frame locking component 6 on the surface of the fence door frame 7.
[0023] Specifically, the diverter adjustment assembly 4 includes an adjustment device 41, a guide frame 42, a guide rod 43, a lead screw 44, a servo motor 45, and a stop block 46. The adjustment device 41 is provided on one side of the hose 1, and the guide frames 42 are symmetrically arranged on both sides of the upper end of the tee 9. The servo motor 45 is provided at one end of the guide frame 42, and the output end of the servo motor 45 is connected to the lead screw 44. The guide rod 43 is provided on one side of the lead screw 44, and the stop block 46 is provided between the lead screw 44 and the guide rod 43.
[0024] By adopting the above technical solution, when the diverter body 5 becomes clogged after long-term use and needs to be replaced, the servo motor 45 can be turned on to drive the lead screw 44 to rotate. At this time, the abutment block 46 no longer abuts and limits the diverter body 5, and then the diverter body 5 can be pulled out from inside the tee 9, ensuring the convenience of disassembling the diverter body 5. When reinstalling the diverter body 5, the installation angle of the diverter body 5 inside the tee 9 can be rotated according to the needs of use to improve the spraying effect. Then, the servo motor 45 is turned on to drive the lead screw 44 to reverse, so that the abutment block 46 abuts and limits the diverter body 5 again, ensuring the sealing effect of the diverter body 5 after installation and improving the quality of equipment use.
[0025] Specifically, the upper end of the abutment block 46 is provided with a limit slider corresponding to the guide frame 42, and the top of the support column 8 is provided with a top plate corresponding to the adjustment device 41.
[0026] By adopting the above technical solution, the accuracy and stability of the movement of the contact block 46 are ensured, and the fixing strength of the diversion pipe body 5 is improved.
[0027] Specifically, the adjusting device 41 includes a pipe joint 411, a fixed protrusion 412, a limiting spring 413, a movable block 414, a positioning rod 415, a positioning ring 416, and an electric push rod 417. The pipe joint 411 is provided between the hose 1 and the tee 9. A fixed protrusion 412 is provided on one side of the pipe joint 411. A limiting spring 413 is provided inside the fixed protrusion 412. A movable block 414 is fixed to one end of the limiting spring 413. A positioning rod 415 is provided to one end of the movable block 414. A positioning ring 416 is provided to one end of the fixed protrusion 412. An electric push rod 417 is provided at the bottom of the top plate corresponding to the positioning ring 416.
[0028] By adopting the above technical solution, the water pump inside the disinfectant tank 3 is turned on to pump water. The disinfectant inside the disinfectant tank 3 enters the hose 1 through the water pipe 2 and flows to the tee 9 for diversion. It is then sprayed out from the nozzle at the bottom of the diversion pipe body 5 to disinfect the pigs. When the diversion pipe body 5 is in use, the electric push rod 417 can be turned on to move the pipe joint 411 downward so that the position of the diversion pipe body 5 can be lowered, thereby improving the disinfection effect. When installing the electric push rod 417, the operator can directly pull the movable block 414 to compress the limit spring 413, and then pull the positioning rod 415 out from the bottom of the electric push rod 417. This improves the convenience of using the electric push rod 417, reduces the cost of use, and saves manpower.
[0029] In this embodiment, when in use: the water pump inside the disinfectant tank 3 is turned on to pump water. The disinfectant inside the disinfectant tank 3 enters the hose 1 through the water pipe 2 and flows to the tee 9 for diversion. It is then sprayed out from the nozzle at the bottom of the diversion pipe body 5 to disinfect the pigs. When the diversion pipe body 5 is in use, the electric push rod 417 can be turned on to move the pipe joint 411 downward so that the position of the diversion pipe body 5 can be lowered, thereby improving the disinfection effect. When installing the electric push rod 417, the operator can directly pull the movable block 414 to compress the limit spring 413, and then pull the positioning rod 415 out from the bottom of the electric push rod 417. This improves the convenience of using the electric push rod 417, reduces the cost of use, and saves manpower.
[0030] When the distributor pipe body 5 becomes clogged after long-term use and needs to be replaced, the servo motor 45 can be turned on to drive the lead screw 44 to rotate. At this time, the abutment block 46 will no longer abut and limit the distributor pipe body 5. Then, the distributor pipe body 5 can be pulled out from inside the tee 9, ensuring the convenience of disassembling the distributor pipe body 5. When reinstalling the distributor pipe body 5, the installation angle of the distributor pipe body 5 inside the tee 9 can be rotated according to the needs of use to improve the spraying effect. Then, the servo motor 45 can be turned on to drive the lead screw 44 to reverse, so that the abutment block 46 abuts and limits the distributor pipe body 5 again, ensuring the sealing effect of the distributor pipe body 5 after installation and improving the quality of equipment use.
[0031] Example 2
[0032] The difference between this embodiment and embodiment 1 is that, specifically, the door frame locking assembly 6 includes a pin 61, a mounting plate 62, a toggle block 63, a positioning spring 64, a fixing rod 65, and a clamp 66. The surface of the fence door frame 7 is provided with a pin 61, a mounting plate 62 is provided on one side of the pin 61, a fixing rod 65 is symmetrically arranged inside the mounting plate 62, a positioning spring 64 is sleeved on the surface of the fixing rod 65, a toggle block 63 is provided at one end of the positioning spring 64, and a clamp 66 is provided on one side of the toggle block 63.
[0033] By adopting the above technical solution, when pigs need to be disinfected during pig farming, the fence gate 7 needs to be opened to drive the pigs into the fence for disinfection. When opening the fence gate 7, the worker pulls the actuating block 63 to move along the fixed rod 65, causing the positioning spring 64 to be compressed. At this time, the clamp 66 separates from the surface of the fence gate 7. Then, the mounting plate 62 is rotated along the pin 61 to make the clamp 66 misaligned with the fence gate 7. At this time, the fence gate 7 can be rotated along the support column 8 to open it so that the pigs can enter. This ensures the convenience of opening and closing the fence gate 7, improves the quality of equipment use, and prevents the pigs from breaking through the fence gate 7 and escaping.
[0034] Specifically, the inner diameter of the clamp 66 is the same as the diameter of the fence frame 7, and the inside of the actuating block 63 has a through hole.
[0035] By adopting the above technical solutions, the convenience and comfort of using the toggle block 63 are ensured, and the quality of use of the clamp 66 is improved.
[0036] In this embodiment, when disinfection is required during pig farming, the fence gate 7 needs to be opened to drive the pigs into the enclosure for disinfection. When opening the fence gate 7, the worker pulls the actuating block 63 along the fixed rod 65, causing the positioning spring 64 to be compressed. At this time, the clamp 66 separates from the surface of the fence gate 7. Then, the mounting plate 62 is rotated along the pin 61 to make the clamp 66 misaligned with the fence gate 7. At this time, the fence gate 7 can be rotated along the support column 8 to open it so that the pigs can enter. This ensures the convenience of opening and closing the fence gate 7, improves the quality of equipment use, and prevents the pigs from breaking through the fence gate 7 and escaping.
[0037] In this utility model, the electric push rod 417 is a previously disclosed technology, and the selected model is HDL-30.
[0038] The structure and operating principle of the disinfectant tank 3, the diversion pipe body 5, and the fence frame 7 in this utility model have been disclosed in a ring spray disinfection fence for large-scale pig farming disclosed in Chinese patent application number 202420762087.5.
[0039] The working principle and usage process of this utility model are as follows: When using this utility model, if disinfection is required during pig farming, the fence gate 7 needs to be opened to drive the pigs into the fence for disinfection. When opening the fence gate 7, the worker pulls the actuating block 63 to move along the fixed rod 65, causing the positioning spring 64 to be compressed. At this time, the clamp 66 separates from the surface of the fence gate 7. Then, the mounting plate 62 is rotated along the pin 61 to make the clamp 66 misaligned with the fence gate 7. At this time, the fence gate 7 can be rotated along the support column 8 to open it so that the pigs can enter. This ensures the convenience of opening and closing the fence gate 7, improves the quality of equipment use, and prevents the pigs from breaking through the fence gate 7 and escaping.
[0040] Then, the water pump inside the disinfectant tank 3 is turned on to pump water. The disinfectant inside the disinfectant tank 3 enters the hose 1 through the water pipe 2 and flows to the tee 9 for diversion. It is then sprayed out from the nozzle at the bottom of the diversion pipe body 5 to disinfect the pigs. When the diversion pipe body 5 is in use, the electric push rod 417 can be turned on to move the pipe joint 411 downward so that the position of the diversion pipe body 5 can be lowered to improve the disinfection effect. When installing the electric push rod 417, the staff can directly pull the movable block 414 to compress the limit spring 413, and then pull the positioning rod 415 out from the bottom of the electric push rod 417. This improves the convenience of using the electric push rod 417, reduces the cost of use, and saves manpower.
[0041] When the distributor pipe body 5 becomes clogged after long-term use and needs to be replaced, the servo motor 45 can be turned on to drive the lead screw 44 to rotate. At this time, the abutment block 46 will no longer abut and limit the distributor pipe body 5. Then, the distributor pipe body 5 can be pulled out from inside the tee 9, ensuring the convenience of disassembling the distributor pipe body 5. When reinstalling the distributor pipe body 5, the installation angle of the distributor pipe body 5 inside the tee 9 can be rotated according to the needs of use to improve the spraying effect. Then, the servo motor 45 can be turned on to drive the lead screw 44 to reverse, so that the abutment block 46 abuts and limits the distributor pipe body 5 again, ensuring the sealing effect of the distributor pipe body 5 after installation and improving the quality of equipment use.
[0042] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A ring-spraying type disinfection fence for pig breeding, comprising a disinfection liquid tank (3), the inside of the disinfection liquid tank (3) is provided with a water pipe (2), one end of the water pipe (2) is connected with a hose (1), the bottom end of the hose (1) is connected with a tee joint (9), both sides of the tee joint (9) are provided with shunt pipe bodies (5), one side of the disinfection liquid tank (3) is provided with a plurality of support columns (8), one side of the support column (8) is provided with a fence door frame (7), characterized in that: The surface of the tee (9) is provided with a diversion pipe adjustment component (4) corresponding to the diversion pipe body (5), and the surface of the fence frame (7) is provided with a door frame locking component (6).
2. The ring-spray type disinfection fence for pig breeding according to claim 1, characterized in that: The diverter adjustment assembly (4) includes an adjustment device (41), a guide frame (42), a guide rod (43), a lead screw (44), a servo motor (45), and a stop block (46). The adjustment device (41) is provided on one side of the hose (1), and the guide frame (42) is symmetrically arranged on both sides of the upper end of the tee (9). The servo motor (45) is provided at one end of the guide frame (42), and the output end of the servo motor (45) is connected to the lead screw (44). The guide rod (43) is provided on one side of the lead screw (44), and the stop block (46) is provided between the lead screw (44) and the guide rod (43).
3. The ring-spray type disinfection fence for pig breeding according to claim 2, characterized in that: The upper end of the abutment block (46) is provided with a limit slider corresponding to the guide frame (42), and the top end of the support column (8) is provided with a top plate corresponding to the adjustment device (41).
4. The ring-spray type disinfection fence for pig breeding according to claim 3, characterized in that: The adjustment device (41) includes a pipe joint (411), a fixed protrusion (412), a limiting spring (413), a movable block (414), a positioning rod (415), a positioning ring (416), and an electric push rod (417). A pipe joint (411) is provided between the hose (1) and the tee (9). A fixed protrusion (412) is provided on one side of the pipe joint (411). A limiting spring (413) is provided inside the fixed protrusion (412). A movable block (414) is fixed at one end of the limiting spring (413). A positioning rod (415) is provided at one end of the movable block (414). A positioning ring (416) is provided at one end of the fixed protrusion (412). An electric push rod (417) is provided at the bottom of the top plate corresponding to the positioning ring (416).
5. The ring-spray type disinfection fence for pig breeding according to claim 1, characterized in that: The door frame locking assembly (6) includes a pin (61), a mounting plate (62), a toggle block (63), a positioning spring (64), a fixing rod (65), and a clamp (66). The surface of the fence door frame (7) is provided with a pin (61), a mounting plate (62) is provided on one side of the pin (61), a fixing rod (65) is symmetrically arranged inside the mounting plate (62), a positioning spring (64) is sleeved on the surface of the fixing rod (65), a toggle block (63) is provided at one end of the positioning spring (64), and a clamp (66) is provided on one side of the toggle block (63).
6. The ring-spray type disinfection fence for pig breeding according to claim 5, characterized in that: The inner diameter of the clamp (66) is the same as the diameter of the fence frame (7), and the inside of the actuating block (63) has a through hole.