A miniature silent yard mosquito-repellent sprinkling irrigation system

The miniature silent courtyard mosquito repellent spray system, which integrates a mixing tank and a disinfection mechanism, solves the problems of large size and limited functionality, achieving silent, multi-functional spraying and mosquito repellent effects, and enabling precise control of the dosage.

CN224386575UActive Publication Date: 2026-06-23XIAMEN TINGXIN ECOLOGICAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAMEN TINGXIN ECOLOGICAL TECH CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing backyard mosquito spray systems are bulky, difficult to install, cannot simultaneously achieve localized irrigation and mosquito repellency, and cannot precisely control the dosage.

Method used

Design a miniature silent courtyard mosquito repellent spray irrigation system that integrates components such as a mixing tank, a storage tank, and a disinfection mechanism into the machine casing. The system uses a silent pump to extract the spray and the disinfection mechanism to achieve precise dosage control.

Benefits of technology

The system features miniaturized installation, quiet operation, dual functions of irrigation and mosquito repellency, and precise control of pesticide dosage.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224386575U_ABST
    Figure CN224386575U_ABST
Patent Text Reader

Abstract

This utility model relates to the field of mosquito control technology, specifically a miniature silent mosquito-repellent spray irrigation system for courtyards. It includes a housing, an internal partition, and a controller mounted on the surface of the partition. A mixing tank is mounted on one side of the partition via a U-shaped clamp. A filter and a mixing solenoid valve are mounted on the surface of the partition. A storage tank is mounted on the side of the partition next to the mixing tank. A dosing pump is fixed to the surface of the housing, and a disinfection mechanism is also provided on the surface of the partition. This utility model, through miniaturization, concentrates all components inside the housing, achieving a small footprint during installation. It also utilizes a silent pump for spraying, resulting in quiet operation. Furthermore, it can simultaneously perform pipe spraying and mosquito repellent functions, offering multi-functionality. Finally, the amount of mosquito repellent dispensed is precise; it can be dispensed first and then water added according to requirements, achieving accurate dosage control.
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Description

Technical Field

[0001] This utility model relates to the field of mosquito control technology, specifically a miniature silent courtyard mosquito repellent spray irrigation system. Background Technology

[0002] Mosquito control is frequently required in courtyards. Currently, existing courtyard mosquito spray systems are large in size, occupying a lot of space during installation and making them difficult to install, thus increasing the difficulty of use. Furthermore, existing courtyard mosquito spray systems cannot simultaneously perform the dual functions of localized irrigation and mosquito repellency, and they also cannot achieve precise dosage control. Utility Model Content

[0003] The purpose of this utility model is to provide a miniature silent courtyard mosquito repellent spray irrigation system to solve the problems mentioned in the background art, such as the existing technology being too large to install, unable to simultaneously perform the dual functions of local spraying and mosquito repellent, and unable to achieve precise control of the dosage.

[0004] To achieve the above objectives, this utility model provides the following technical solution: a miniature silent courtyard mosquito repellent spraying system, comprising a housing, an internal partition, and a controller mounted on the surface of the partition; a mixing tank is mounted on one side of the partition via a U-shaped clamp; a filter and a mixing solenoid valve are mounted on the surface of the partition, with one end of the mixing solenoid valve connected to the mixing tank via a pipe and the other end connected to the filter; a storage tank is mounted on the surface of the partition, located on one side of the mixing tank; a dosing pump is fixed on the surface of the housing, with its output and input ends connected to the mixing tank and the storage tank, respectively; and a disinfection mechanism is also provided on the surface of the partition.

[0005] Preferably, an irrigation solenoid valve is installed on the surface of the housing, and the water inlet of the irrigation solenoid valve is connected to a three-way pipe section, and an irrigation outlet pipe is installed on the water outlet of the irrigation solenoid valve, the other end of which extends to the outside of the housing for irrigation water discharge.

[0006] Preferably, one end of the filter is connected to a T-joint via a pipe, and a water inlet pipe is installed at the front end of the T-joint. The other end of the water inlet pipe extends to the outside of the housing for water intake.

[0007] Preferably, the top of the medicine storage tank is connected to a medicine inlet via a pipe, and the top of the casing is filled with a stopper cap, the bottom of which is located inside the medicine inlet.

[0008] Preferably, the disinfection mechanism includes a normally closed solenoid valve, a water pump, a four-way pipe joint, a disinfection nozzle connecting pipe, and a pressure gauge. The normally closed solenoid valve, water pump, and four-way pipe joint are all fixed to the surface of the partition. The input end of the water pump is connected to the mixing tank through a pipe, the output end of the water pump is connected to the four-way pipe joint through a pipe, and the four-way pipe joint is connected to the normally closed solenoid valve through a pipe. The normally closed solenoid valve is connected to the mixing tank through a pipe.

[0009] Preferably, one end of the four-way pipe section is connected to a pressure gauge via a pipe, and the pressure gauge is fixed to the surface of the partition via a bracket. The other end of the four-way pipe section is connected to a disinfection nozzle connecting pipe.

[0010] Compared with existing technologies, the beneficial effects of this utility model are as follows: When this miniature silent courtyard mosquito repellent spraying system is implemented, water enters the three-way pipe section through the inlet pipe via an external pump, passes through a filter, and then enters the mixing tank when the mixing solenoid valve is opened. Simultaneously, the cap is opened to add pesticide into the dosing port, and the pesticide solution enters the storage tank. After dosing, the dosing pump transports the pesticide solution from the storage tank to the mixing tank for mixing. Then, the mixed pesticide solution inside the storage tank is used for irrigation through the irrigation outlet pipe after the irrigation solenoid valve is opened. This utility model, through miniaturization, concentrates all components inside the casing, achieving a small footprint during installation. Simultaneously, by incorporating a pest control mechanism, it achieves pest control during use, improving the practicality of the mosquito spraying system. This utility model utilizes a silent pump for spraying, resulting in quiet operation. Furthermore, it can simultaneously achieve pipe spraying and mosquito repellent, offering multi-functionality. The amount of mosquito repellent dispensed is also precise; it can be dispensed first and then water added according to the owner's needs, achieving precise dosage control. Attached Figure Description

[0011] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0012] Figure 2 This is a schematic diagram of the internal front view structure of this utility model;

[0013] Figure 3 This is a schematic diagram of the internal rear view structure of this utility model;

[0014] Figure 4 This is a schematic diagram of the waterway structure of this utility model.

[0015] In the diagram: 1. Housing; 11. Plug; 2. Partition; 21. Controller; 3. Mixing tank; 4. Storage tank; 41. Dosing port; 5. Filter; 51. T-joint; 52. Inlet pipe; 6. Mixing solenoid valve; 7. Disinfection mechanism; 71. Normally closed solenoid valve; 72. Water pump; 73. Four-way joint; 74. Disinfection nozzle connection pipe; 75. Pressure gauge; 8. Irrigation solenoid valve; 81. Irrigation outlet pipe; 9. Dosing pump. Detailed Implementation

[0016] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0017] The structure of the miniature silent garden mosquito repellent sprinkler system provided by this utility model is as follows: Figure 1 as well as Figure 4 As shown, the device includes a housing 1, with a partition 2 installed inside the housing 1 and a controller 21 installed on the surface of the partition 2. A mixing tank 3 is installed on one side of the surface of the partition 2 via a U-shaped clamp. A filter 5 and a mixing solenoid valve 6 are installed on the surface of the partition 2. One end of the mixing solenoid valve 6 is connected to the mixing tank 3 via a pipe, and the other end of the mixing solenoid valve 6 is connected to the filter 5. One end of the filter 5 is connected to a three-way pipe section 51 via a pipe, and a water inlet pipe 52 is installed at the front end of the three-way pipe section 51. The other end of the water inlet pipe 52 extends to the outside of the housing 1 for water intake. An irrigation solenoid valve 8 is installed on the surface of the housing 1, and the water inlet end of the irrigation solenoid valve 8 is connected to the three-way pipe section 51. An irrigation outlet pipe 81 is installed at the outlet end of the irrigation solenoid valve 8, and the other end of the irrigation outlet pipe 81 extends to the outside of the housing 1 for irrigation outlet.

[0018] During implementation, water first enters the three-way pipe section 51 through the inlet pipe 52 via an external pump, and after being filtered by the filter 5, it enters the interior of the mixing tank 3 when the mixing solenoid valve 6 is opened. At the same time, the stopper 11 is opened to add medicine into the dosing port 41, and the medicine solution enters the interior of the storage tank 4. After the dosing is completed, the medicine solution in the storage tank 4 is transported to the mixing tank 3 by the dosing pump 9 for mixing. Then, the mixed medicine water inside the storage tank 4 is used for irrigation through the irrigation outlet pipe 81 when the irrigation solenoid valve 8 is opened.

[0019] Furthermore, such as Figure 2 , Figure 3 as well as Figure 4As shown, a storage tank 4 is installed on the surface of the partition 2 and on one side of the mixing tank 3. The top of the storage tank 4 is connected to a dosing port 41 via a pipe. A stopper 11 is plugged into the top of the housing 1, with the bottom end of the stopper 11 located inside the dosing port 41. A dosing pump 9 is fixed on the surface of the housing 1. The dosing pump 9 is a silent pump, and its output and input ends are respectively connected to the mixing tank 3 and the storage tank 4. A disinfection mechanism 7 is also provided on the surface of the partition 2. The disinfection mechanism 7 includes a normally closed solenoid valve 71, a water pump 72, a four-way pipe joint 73, and a disinfection nozzle connecting pipe 74. The pressure gauge 75, normally closed solenoid valve 71, water pump 72, and four-way pipe section 73 are all fixed to the surface of the partition plate 2. The input end of the water pump 72 is connected to the mixing tank 3 through a pipe, and the output end of the water pump 72 is connected to the four-way pipe section 73 through a pipe. The four-way pipe section 73 is connected to the normally closed solenoid valve 71 through a pipe. The normally closed solenoid valve 71 is connected to the mixing tank 3 through a pipe. One end of the four-way pipe section 73 is connected to the pressure gauge 75 through a pipe. The pressure gauge 75 is fixed to the surface of the partition plate 2 through a bracket. The other end of the four-way pipe section 73 is connected to the disinfection nozzle connecting pipe 74.

[0020] During implementation, the normally closed solenoid valve 71 and the water pump 72 are energized simultaneously. After being energized, the normally closed solenoid valve 71 switches from the normally closed state to the normally open state, the water pump 72 vents, and the water returns to the mixing tank 3. After 10 seconds, the normally closed solenoid valve 71 is de-energized and switches from the open state to the closed state. The water cannot return to the mixing tank 3 and is discharged through the disinfection nozzle connected to the disinfection nozzle connecting pipe 74. After disinfection is completed, the water pump 72 is de-energized, the normally closed solenoid valve 71 is energized for 5 seconds, and the normally closed solenoid valve 71 switches from the closed state to the open state, releasing the pressure in the water outlet pipeline. The normally closed solenoid valve 71 is then de-energized and returns to the normally closed state.

[0021] This invention utilizes a silent pump to extract the spray, making it relatively quiet during use; it can simultaneously achieve pipe irrigation and mosquito repellent, making it multifunctional; at the same time, the amount of mosquito repellent dispensed is quite precise, and the amount can be precisely controlled by dispensing the repellent first and then adding water according to the owner's needs.

[0022] Working principle: In use, water first enters the three-way pipe section 51 through the inlet pipe 52 via the external pump, and after being filtered by the filter 5, it enters the interior of the mixing tank 3 when the mixing solenoid valve 6 is opened. At the same time, the plug cap 11 is opened to add medicine into the dosing port 41, and the medicine will enter the interior of the storage tank 4. After the dosing is completed, the medicine in the storage tank 4 is transported to the mixing tank 3 by the dosing pump 9. Then, the mixed water in the storage tank 4 is used to irrigate by opening the irrigation solenoid valve 8 and using the irrigation outlet pipe 81.

[0023] When the disinfection mechanism 7 is activated, the normally closed solenoid valve 71 and the water pump 72 are energized simultaneously. After being energized, the normally closed solenoid valve 71 switches from the normally closed state to the normally open state, the water pump 72 vents air, and the water returns to the mixing tank 3. After 10 seconds, the normally closed solenoid valve 71 is de-energized and switches from the open state to the closed state. The water cannot return to the mixing tank 3 and is discharged through the disinfection nozzle connected to the disinfection nozzle connecting pipe 74. After disinfection is completed, the water pump 72 is de-energized, the normally closed solenoid valve 71 is energized for 5 seconds, and the normally closed solenoid valve 71 switches from the closed state to the open state, releasing the pressure in the water outlet pipe. The normally closed solenoid valve 71 is de-energized and returns to the normally closed state.

[0024] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention.

Claims

1. A miniature silent garden mosquito repellent sprinkler system, comprising a housing (1), characterized in that: The interior of the housing (1) is equipped with a partition (2), and a controller (21) is installed on the surface of the partition (2). A mixing tank (3) is installed on one side of the surface of the partition (2) by a U-shaped clamp. A filter (5) and a mixing solenoid valve (6) are installed on the surface of the partition (2). One end of the mixing solenoid valve (6) is connected to the mixing tank (3) through a pipe, and the other end of the mixing solenoid valve (6) is connected to the filter (5). A storage tank (4) is installed on the surface of the partition (2) and on one side of the mixing tank (3). A dosing pump (9) is fixed on the surface of the housing (1). The output end and input end of the dosing pump (9) are connected to the mixing tank (3) and the storage tank (4) respectively. A disinfection mechanism (7) is also provided on the surface of the partition (2).

2. The miniature silent garden mosquito repellent sprinkler system according to claim 1, characterized in that: An irrigation solenoid valve (8) is installed on the surface of the housing (1), and the water inlet of the irrigation solenoid valve (8) is connected to a three-way pipe section (51). An irrigation outlet pipe (81) is installed at the water outlet of the irrigation solenoid valve (8), and the other end of the irrigation outlet pipe (81) extends to the outside of the housing (1) for irrigation water discharge.

3. The miniature silent garden mosquito repellent sprinkler system according to claim 1, characterized in that: One end of the filter (5) is connected to a three-way pipe section (51) through a pipe, and a water inlet pipe (52) is installed at the front end of the three-way pipe section (51). The other end of the water inlet pipe (52) extends to the outside of the casing (1) for water intake.

4. A miniature silent garden mosquito repellent sprinkler system according to claim 1, characterized in that: The top of the medicine storage tank (4) is connected to a medicine inlet (41) through a pipe, and the top of the casing (1) is filled with a stopper (11), the bottom of which is located inside the medicine inlet (41).

5. A miniature silent garden mosquito repellent sprinkler system according to claim 1, characterized in that: The disinfection mechanism (7) includes a normally closed solenoid valve (71), a water pump (72), a four-way pipe joint (73), a disinfection nozzle connecting pipe (74), and a pressure gauge (75). The normally closed solenoid valve (71), the water pump (72), and the four-way pipe joint (73) are all fixed to the surface of the partition (2). The input end of the water pump (72) is connected to the mixing tank (3) through a pipe, and the output end of the water pump (72) is connected to the four-way pipe joint (73) through a pipe. The four-way pipe joint (73) is connected to the normally closed solenoid valve (71) through a pipe, and the normally closed solenoid valve (71) is connected to the mixing tank (3) through a pipe.

6. A miniature silent garden mosquito repellent sprinkler system according to claim 5, characterized in that: One end of the four-way pipe section (73) is connected to a pressure gauge (75) via a pipe. The pressure gauge (75) is fixed to the surface of the partition (2) by a bracket. The other end of the four-way pipe section (73) is connected to a disinfection nozzle connecting pipe (74).