Epidemic prevention and disinfection atomization spraying device for culturing sika deer

By designing a sika deer disinfection device with a storage tank, a treatment frame, and an atomizing nozzle, the problems of uneven spraying and adaptability to body size differences in existing technologies have been solved, achieving a highly efficient and comprehensive disinfection effect for sika deer.

CN224462014UActive Publication Date: 2026-07-07湖北省尊禧鹿业有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
湖北省尊禧鹿业有限公司
Filing Date
2025-07-22
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing disinfection devices for sika deer farming are limited in achieving efficient and comprehensive disinfection, especially in terms of uneven spraying and adapting to the needs of deer of different sizes.

Method used

A device comprising a storage tank, a treatment frame, and an atomizing nozzle was designed. The device delivers disinfectant solution to a diverter plate via a pump and atomizes it for spraying. Combined with an adjustable side plate structure, it can accommodate sika deer of different sizes to ensure full coverage.

Benefits of technology

It achieves uniform atomization coverage of disinfectant, adapting to the needs of sika deer of different sizes, and improving the comprehensiveness and efficiency of disinfection.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model provides a sika deer is bred with epidemic prevention and disinfection atomization spraying device, including liquid storage tank and processing frame, its characterized in being that the disinfection epidemic prevention medicine water is injected in the inside of liquid storage tank, the processing frame is connected with liquid storage tank through connecting rod, the processing frame is by first side plate, second side plate and adjusting assembly component, first side plate and second side plate surface install first shunt plate and second shunt plate, first shunt plate and second shunt plate inside set up shunt cavity, first shunt plate and second shunt plate surface install atomization spray head. The utility model device stores disinfection epidemic prevention medicine water through liquid storage tank, utilizes pump body to convey medicine water to the shunt cavity of first shunt plate and second shunt plate, then atomization spraying through multiple atomization spray heads, can let disinfection medicine water with atomization form even cover sika deer body surface, promote the overall nature of disinfection, simultaneously, the through design of pump body and shunt plate, liquid storage tank guarantees medicine water conveying high efficiency, satisfies efficient disinfection demand.
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Description

Technical Field

[0001] This utility model relates to the field of epidemic prevention and disinfection technology, and in particular to an epidemic prevention and disinfection atomizing spraying device for sika deer breeding. Background Technology

[0002] A zoo is a place that collects and raises various animals, including some wild or exotic animals, within enclosures for scientific research and ex-situ conservation, and provides a space for public viewing, science popularization, and conservation education.

[0003] Because animals' bodies are prone to harboring bacteria and pests, regular disinfection is necessary to protect public health. In sika deer farming, this may also involve disease prevention and disinfection. Currently, commercially available disinfection devices for sika deer farming have many limitations in practical application and cannot meet the needs for efficient and comprehensive disinfection.

[0004] Therefore, it is necessary to provide a disinfection and atomization spraying device for sika deer farming to solve the above-mentioned technical problems. Utility Model Content

[0005] This utility model provides a disinfection and atomizing spraying device for sika deer breeding, which solves the problems in the background technology.

[0006] To solve the aforementioned technical problems, this utility model provides a disinfection and atomizing spraying device for sika deer farming, comprising a storage tank and a processing frame. The storage tank is filled with disinfectant and disease prevention solution, serving as the basic component of the device and providing the solution source for the entire disinfection process. The processing frame is connected to the storage tank via a connecting rod and is located on one side of the storage tank, forming a single unit for easy movement and operation. The processing frame consists of a first side plate, a second side plate, and an adjustment assembly, wherein the first and second side plates provide mounting support for subsequent components. A first diverting plate and a second diverting plate are installed on the surfaces of the first and second side plates, respectively, for receiving the delivered solution. Each plate has a diversion chamber inside, which can divert the solution to ensure even distribution. Atomizing nozzles are installed on the surfaces of the first and second diverting plates, and the diverted solution is atomized and sprayed out through the atomizing nozzles to disinfect the sika deer. A pump body is installed on the outer surface of the storage tank as a power component. The output and input ends of the pump body are connected to the first diversion plate, the second diversion plate, and the storage tank through hoses. The input end draws the anti-disinfection and anti-epidemic liquid from the storage tank through the hose, and the output end pressurizes the liquid and delivers it to the diversion chamber inside the first and second diversion plates through the hose, thus connecting the storage tank and the treatment frame and delivering the liquid.

[0007] Preferably, the adjustment assembly consists of an adjustment rod and an adjustment cylinder. The adjustment rod is slidably inserted into the adjustment cylinder, and the adjustment rod and adjustment cylinder are respectively connected to the first side plate and the second side plate, used to connect and adjust the distance between the first side plate and the second side plate. The adjustment rod has an adjustment hole on its surface, and the adjustment cylinder has a through-hole. The adjustment hole and the adjustment rod are fixed by a connecting rod. By sliding the adjustment rod inside the adjustment cylinder, the distance between the first side plate and the second side plate can be changed. When the distance is appropriate, inserting the connecting rod into the corresponding adjustment hole and fixing hole fixes the relative position of the adjustment rod and the adjustment cylinder, thus adapting to sika deer of different sizes and ensuring comprehensive disinfection.

[0008] Preferably, multiple atomizing nozzles are installed, and the multiple atomizing nozzles are installed at equal intervals on the surfaces of the first and second diverter plates. This distribution method allows the medicine atomized by the atomizing nozzles to more evenly cover the surface of the sika deer, thereby improving the disinfection effect.

[0009] Preferably, the adjustment holes are provided in multiple positions, and the multiple adjustment holes are equally spaced on the surface of the adjustment rod. In conjunction with the fixing holes and plug rods on the adjustment cylinder, more adjustment positions can be provided for adjusting the distance between the first side plate and the second side plate, making the adjustment more flexible and better adaptable to sika deer of different sizes.

[0010] Preferably, the storage tank is equipped with a sealing cap to prevent leakage and contamination of the disinfectant solution inside, ensuring the purity of the solution. A drain pipe is installed through the lower surface of the storage tank for draining any remaining or replaceable disinfectant solution when needed.

[0011] Preferably, the bottom of the liquid storage tank is equipped with casters, and multiple casters are installed at equal intervals on the bottom surface of the liquid storage tank. At the same time, a push handle is installed on the outer surface of the liquid storage tank. The staff can move the device flexibly by pushing the handle in conjunction with the casters, which facilitates the adjustment of the disinfection position and improves the ease of use of the device.

[0012] Preferably, a controller is installed on the outer surface of the liquid storage tank. The controller can control the start and stop of the pump, thereby controlling the entire disinfection process and making the operation more convenient and efficient.

[0013] Compared with related technologies, the disinfection and atomizing spraying device for sika deer breeding provided by this utility model has the following beneficial effects:

[0014] Compared with existing technologies, the device stores disinfectant and epidemic prevention solution in a storage tank, uses a pump to deliver the solution to the distribution chambers of the first and second distribution plates, and then sprays it through multiple atomizing nozzles. This allows the disinfectant solution to evenly cover the surface of the sika deer in a mist form, improving the comprehensiveness of disinfection. At the same time, the through design of the pump, distribution plates, and storage tank ensures efficient solution delivery and meets the requirements of high-efficiency disinfection.

[0015] Compared with existing technologies, the adjusting rod in the adjusting assembly can slide inside the adjusting cylinder and is fixed by the adjusting hole, fixing hole and plug rod. It can flexibly adjust the distance between the first side plate and the second side plate to adapt to the disinfection needs of sika deer of different sizes, avoid incomplete disinfection due to differences in body size, and enhance the applicability of the device.

[0016] The parts of the device not covered herein are the same as or can be implemented using existing technologies. Attached Figure Description

[0017] Figure 1 A schematic diagram of the structure of the disinfection and atomizing spraying device for sika deer breeding provided by this utility model;

[0018] Figure 2 A schematic diagram of the processing frame structure of the sika deer breeding disinfection atomizing spraying device provided by this utility model;

[0019] Figure 3 A schematic diagram of the atomizing nozzle structure of the disinfection atomizing spraying device for sika deer breeding provided by this utility model;

[0020] Figure 4 A schematic diagram of the adjusting cylinder structure of the disinfection atomizing spraying device for sika deer breeding provided by this utility model.

[0021] Numbering on the map:

[0022] 1. Storage tank; 2. Processing frame; 3. Push handle; 4. Sealing cap; 5. Controller; 6. Pump body; 7. Hoses; 8. Connecting rod; 9. Adjusting assembly; 10. Casters; 11. Connecting rod; 12. First diverter plate; 13. Second diverter plate; 14. Atomizing nozzle; 15. Adjusting rod; 16. Adjusting hole; 17. Fixing hole; 18. Adjusting cylinder. Detailed Implementation

[0023] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0024] Example 1

[0025] Please refer to the following: Figures 1-4A disinfection and atomizing spraying device for sika deer farming includes a storage tank 1 and a treatment frame 2. The storage tank 1 is filled with disinfectant and disease prevention solution, serving as the basic supporting component of the device and providing a continuous supply of solution for the entire disinfection process. The treatment frame 2 is rigidly connected to the storage tank 1 via a connecting rod 11. Both ends of the connecting rod 11 are welded to the outer wall of the storage tank 1 and the first side plate (or second side plate) of the treatment frame 2, respectively, ensuring the treatment frame 2 is stably positioned on one side of the storage tank 1. This forms a stable overall structure, preventing relative swaying during movement. The treatment frame 2 is composed of a first side plate, a second side plate, and an adjusting component 9. The first and second side plates are arranged parallel to each other, and the adjusting component 9 connects them, forming an adjustable-width frame structure. A first diversion plate 12 and a second diversion plate 13 are bolted to the surfaces of the first and second side plates, and a sealing gasket is installed between the diversion plates and the side plates to prevent solution leakage. The flow-dividing cavities inside the first flow-dividing plate 12 and the second flow-dividing plate 13 are perpendicular to the plate surface, and the inner walls of the cavities are smoothed to reduce the flow resistance of the medicine. Atomizing nozzles 14 are installed on the surfaces of the first flow-dividing plate 12 and the second flow-dividing plate 13 via threaded connections. A one-way valve is installed at the point where the nozzle connects to the flow-dividing cavity to prevent backflow. A pump body 6 is fixedly installed on the outer surface of the storage tank 1 via a flange. The output and input ends of the pump body 6 are connected to the first flow-dividing plate 12, the second flow-dividing plate 13, and the storage tank 1 via corrosion-resistant hoses 7. Both ends of the hose 7 are secured to the corresponding interfaces with clamps.

[0026] In terms of installation logic, the storage tank 1 is first used as the foundation, and then the pump body 6, push handle 3, and other components are fixed in sequence. Then, the treatment frame 2 is installed through the connecting rod 11, and finally, the diverter plate and atomizing nozzles 14 are assembled and connected to the hose 7. During operation, the pump body 6 draws the medicine from the storage tank 1 and delivers it to the diversion chamber of the diverter plate through the hose 7. The diversion chamber evenly distributes the medicine to each atomizing nozzle 14. The atomizing nozzles 14 atomize the medicine to form a fine mist that covers the surface of the sika deer. Through this continuous connection of "storage-delivery-diversion-atomization", a highly efficient and comprehensive disinfection effect is achieved, solving the problem of uneven spraying in traditional devices.

[0027] Example 2

[0028] Please refer to the following: Figures 1-4The adjusting assembly 9 consists of an adjusting rod 15 and an adjusting cylinder 18. The adjusting rod 15 adopts a stepped shaft structure, and its diameter is slightly smaller than the inner diameter of the adjusting cylinder 18. It is slidably inserted into the adjusting cylinder 18 with a clearance fit. One end of the adjusting rod 15 is welded and fixed to the first side plate, and one end of the adjusting cylinder 18 is welded and fixed to the second side plate. The distance between the first and second side plates is directly changed by the relative sliding of the two. Adjusting holes 16 are equidistantly opened on the surface of the adjusting rod 15 along its length direction. Fixed holes 17 are opened through the corresponding positions on the surface of the adjusting cylinder 18. The diameters of the adjusting holes 16 and the fixed holes 17 are the same. The adjusting rod 8 is detachably fixed by a connecting rod 8. The connecting rod 8 and the hole adopt a transition fit to ensure that it will not fall off by itself after being fixed.

[0029] During installation, first insert the adjusting rod 15 into the adjusting cylinder 18, then weld both ends of the adjusting assembly 9 to the first and second side plates respectively, and finally assemble the plug-in rod 8. Mechanically, the width is adjusted by the sliding fit between the adjusting rod 15 and the adjusting cylinder 18, and the position is locked by the rigid fit between the plug-in rod 8 and the adjusting hole 16 and the fixing hole 17. When it is necessary to adapt to different sizes of sika deer, the plug-in rod 8 is pulled out, the spacing is adjusted, and then it is reinserted and fixed. This adjustable structure allows the device to adapt to the growth changes of sika deer, ensuring that the atomizing nozzle 14 is always at the optimal spraying distance, achieving a comprehensive coverage effect through flexible structural adjustment.

[0030] Example 3

[0031] Please refer to the following: Figures 1-4 The atomizing nozzle 14 adopts a high-pressure atomizing model, and the number is set to 6-10 according to the length of the flow divider plate. Multiple atomizing nozzles 14 are arranged at equal distances along the length of the flow divider plate, the distance between adjacent nozzles is 15-20cm, the nozzle spray angle is set to 60 degrees, and the spray range of adjacent nozzles overlaps with each other by 10%-15%.

[0032] During installation, holes are pre-drilled and tapped on the surface of the distribution plate, and the nozzles are screwed in and fixed, ensuring a sealed connection with the distribution chamber. During operation, multiple nozzles work simultaneously, forming a continuous, seamless atomized coverage area through equidistant distribution and angle design. This solves the problem of limited spray range in traditional single-nozzle systems, achieving comprehensive disinfection through the coordinated distribution of the nozzles.

[0033] Example 4

[0034] Please refer to the following: Figures 1-4 The adjustment holes 16 are provided 10-15 times along the length of the adjustment rod 15, the distance between adjacent adjustment holes 16 is 5cm, the hole depth penetrates the diameter of the adjustment rod 15, and the fixing holes 17 on the surface of the adjustment cylinder 18 are concentrically arranged with the adjustment holes 16.

[0035] During installation, the adjustment hole 16 is formed in one step during the machining of the adjustment rod 15, ensuring positional accuracy. In use, by selecting different positions of the adjustment hole 16 to match the fixing hole 17, a spacing adjustment range of 5-70cm can be achieved, with each 5cm increment to meet the body size requirements of sika deer of different ages. This multi-position adjustment structure enhances the adaptability of the device by increasing the number of adjustment holes 16, enabling a single device to cover the disinfection needs of sika deer throughout their entire growth cycle.

[0036] Example 5

[0037] Please refer to the following: Figures 1-4 The top opening of the liquid storage tank 1 is machined with external threads, and the inner wall of the sealing cover 4 is machined with internal threads. The two are connected by threads to achieve a seal, and a rubber sealing ring is installed at the bottom of the cover to enhance the sealing performance. A drain pipe is welded through the surface of the liquid storage tank 1 at a 45-degree angle, and a ball valve is installed at the end of the drain pipe to control the on / off state.

[0038] In terms of installation sequence, after the storage tank 1 is formed, the drain pipe is welded first and the ball valve is installed, and finally the sealing cap 4 is assembled. The sealing cap 4 is quickly opened and closed through threaded connection, which facilitates the addition of medicine and prevents evaporation; the drain pipe is controlled by the ball valve, which facilitates the discharge of residual medicine and cleaning of the storage tank 1. The two work together to ensure the convenience of the storage process and the purity of the medicine, providing a qualified source of medicine for subsequent disinfection.

[0039] Example 6

[0040] Please refer to the following: Figures 1-4 The liquid storage tank 1 has four casters 10 fixed to the four corners of its bottom with bolts. The casters 10 are equipped with braking mechanisms and the wheels are made of wear-resistant rubber. A U-shaped push handle 3 is welded to the outer surface of the liquid storage tank 1. The height of the push handle 3 is level with the waist of an adult and the surface is covered with a non-slip rubber sleeve.

[0041] During installation, first secure the casters 10 to ensure the storage tank 1 is placed stably, then weld the push handle 3 to maintain balance with the center of gravity of the storage tank 1. During operation, the operator pushes the push handle 3, and the casters 10 rotate 360 ​​degrees. The braking mechanism can fix the position of the device. The mechanical cooperation of the two allows the device to be flexibly moved to any position in the breeding pen, solving the problem of difficult movement of traditional devices and improving the flexibility of disinfection operations.

[0042] Example 7

[0043] Please refer to the following: Figures 1-4 The outer surface of the liquid storage tank 1 is fixedly mounted with a controller 5 by screws. The internal circuit of the controller 5 is connected to the motor of the pump body 6 through wires. The control panel is equipped with start, stop and adjustment buttons.

[0044] During installation, first, pre-drill mounting holes on the surface of the storage tank 1. After fixing the controller 5, connect the wires and ensure waterproofing. During operation, the controller 5 sends electrical signals to control the start, stop, and speed of the pump body 6, thereby adjusting the amount of medicine delivered and allowing the atomization intensity to be adjusted as needed. Through the coordination of electrical control and mechanical structure, the ease of operation and controllability of disinfection effect are improved.

[0045] It should be noted that the control circuit of controller 5 can be implemented by those skilled in the art through simple programming, and is common knowledge in the field. It is only used and not modified, so the control method and circuit connection will not be described in detail.

[0046] The working principle of the disinfection and atomizing spraying device for sika deer breeding provided by this utility model is as follows:

[0047] The workflow of the disinfection and atomizing spraying device for sika deer farming revolves around the storage, transportation, adjustment, and atomization spraying of disinfectant. First, sufficient disinfectant is injected into the storage tank 1, and the sealing cap 4 is tightly closed to prevent leakage. When disinfection of the sika deer is required, the pump 6 is activated via the controller 5 on the outside of the storage tank 1. After the pump 6 starts operating, its input end draws disinfectant from the storage tank 1 through a hose 7, while its output end pressurizes the disinfectant and delivers it to the diversion chambers inside the first diversion plate 12 and the second diversion plate 13 through the hose 7.

[0048] The diversion chamber diverts the medicine, distributing it evenly to multiple atomizing nozzles 14 on the surfaces of the first diversion plate 12 and the second diversion plate 13. After being atomized by the atomizing nozzles 14, the medicine is sprayed out in a fine mist, achieving comprehensive disinfection of the sika deer's body surface.

[0049] Before disinfection, the width of the treatment frame 2 can be adjusted by adjusting the component 9 according to the size of the sika deer to be disinfected: pull out the plug rod 8, push the first side plate or the second side plate, so that the adjusting rod 15 slides in the adjusting cylinder 18, and change the distance between the first side plate and the second side plate; when the distance is appropriate, insert the plug rod 8 into the corresponding adjusting hole 16 and fixing hole 17 to fix the relative position of the adjusting rod 15 and the adjusting cylinder 18, so as to ensure that the first side plate and the second side plate can fit the size of the sika deer, so that the mist of medicine sprayed by the atomizing nozzle 14 can more accurately cover its body surface.

[0050] In addition, the casters 10 at the bottom of the storage tank 1 and the push handle 3 on the outside facilitate the movement of the device and allow for flexible adjustment of the disinfection position; if it is necessary to replace or drain the medicine, it can be operated through the drain pipe below the storage tank 1. The whole process works together efficiently to achieve comprehensive and efficient epidemic prevention and disinfection of sika deer.

[0051] It should be noted that all components used in this application are standard parts that can be purchased from the market. The specific connection methods of each part adopt conventional methods such as bolts, rivets and welding that are mature in the prior art. The mechanical parts and electrical equipment adopt conventional models in the prior art. The circuit connection adopts conventional connection methods in the prior art. The electrical equipment is connected to an external safe power source. These will not be described in detail here.

[0052] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the content of this utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.

Claims

1. A disinfection atomizing spraying device for sika deer farming, comprising a storage tank (1) and a treatment frame (2), characterized in that, The storage tank (1) is filled with disinfectant and epidemic prevention liquid. The processing frame (2) is connected to the storage tank (1) through a connecting rod (11). The processing frame (2) is composed of a first side plate, a second side plate and an adjustment component (9). A first diversion plate (12) and a second diversion plate (13) are installed on the surface of the first side plate and the second side plate. Diversion chambers are opened inside the first diversion plate (12) and the second diversion plate (13). Atomizing nozzles (14) are installed on the surface of the first diversion plate (12) and the second diversion plate (13). A pump body (6) is installed on the outer surface of the storage tank (1). The output end and the input end of the pump body (6) are connected to the first diversion plate (12), the second diversion plate (13) and the storage tank (1) through a hose (7).

2. The disinfection and atomizing spraying device for sika deer breeding according to claim 1, characterized in that, The adjustment assembly (9) consists of an adjustment rod (15) and an adjustment cylinder (18). The adjustment rod (15) is slidably inserted into the adjustment cylinder (18). An adjustment hole (16) is provided on the surface of the adjustment rod (15). A fixing hole (17) is provided through the surface of the adjustment cylinder (18). The adjustment hole (16) and the adjustment rod (15) are fixed by a connecting rod (8).

3. The disinfection and atomizing spraying device for sika deer breeding according to claim 1, characterized in that, Multiple atomizing nozzles (14) are installed, and the multiple atomizing nozzles (14) are installed at equal distances on the surfaces of the first split plate (12) and the second split plate (13).

4. The disinfection and atomizing spraying device for sika deer breeding according to claim 2, characterized in that, The adjustment holes (16) are provided in multiple ways, and the multiple adjustment holes (16) are equally spaced on the surface of the adjustment rod (15).

5. The disinfection and atomizing spraying device for sika deer breeding according to claim 1, characterized in that, The storage tank (1) is equipped with a sealing cap (4), and a drain pipe is installed through the lower surface of the storage tank (1).

6. The disinfection and atomizing spraying device for sika deer breeding according to claim 1, characterized in that, The bottom of the liquid storage tank (1) is equipped with casters (10), and multiple casters (10) are installed. The multiple casters (10) are installed at equal intervals on the bottom surface of the liquid storage tank (1). A push handle (3) is installed on the outer surface of the liquid storage tank (1).

7. The disinfection and atomizing spraying device for sika deer breeding according to claim 1, characterized in that, A controller (5) is installed on the outer surface of the liquid storage tank (1).