Agricultural greenhouse management device
By designing a return water pipe in the agricultural greenhouse to serve the dual purpose of sprinkler irrigation and monitoring cameras, and combining it with a circulating pump and sprinkler heads, the problem of excessive space occupied by cameras and sensors was solved. This achieved the dual functions of sprinkler irrigation and environmental monitoring, ensuring the normal operation of irrigation work.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEILONGJIANG JIJI AGRICULTURAL TECHNOLOGY CO LTD
- Filing Date
- 2025-07-04
- Publication Date
- 2026-07-03
Smart Images

Figure CN224439827U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of agricultural greenhouse management technology, specifically an agricultural greenhouse management device. Background Technology
[0002] Agricultural greenhouse monitoring refers to the process of using modern technology to monitor and manage the environment and crops inside agricultural greenhouses in real time. By installing sensors, monitoring cameras and other equipment, environmental parameters such as temperature, humidity, light intensity, carbon dioxide concentration, and soil moisture, as well as information on crop growth status are collected, and this data is transmitted to the monitoring center through communication networks such as the Internet to achieve remote monitoring and management.
[0003] For example, the authorization announcement number "CN221424426U" is for a monitoring and management device for agricultural greenhouses. When the winding rope moves the fixed frame, it can also move the temperature and humidity sensor to detect the temperature and humidity at different locations inside the greenhouse, thus improving its practicality. Current monitoring and management devices for agricultural greenhouses use a fixed frame that runs horizontally through the entire interior of the greenhouse to support the sensors and cameras. However, the interior space of agricultural greenhouses is relatively limited. Not only are long fixed pipes required, but also more and more comprehensive sprinkler pipes are needed to ensure the irrigation requirements of crops inside the greenhouse. In the already limited space, the installation of cameras and sensors takes up too much space, which greatly affects irrigation and planting operations inside the agricultural greenhouse. Utility Model Content
[0004] The purpose of this utility model is to solve the problem that the existing monitoring and management devices for agricultural greenhouses occupy too much space due to cameras and sensors, which greatly affects irrigation and planting operations inside the greenhouses. Therefore, this utility model proposes an agricultural greenhouse management device.
[0005] To achieve the above objectives, this utility model provides the following technical solution:
[0006] Design an agricultural greenhouse management device, including a foundation, an agricultural greenhouse body, and a greenhouse inlet and outlet. The agricultural greenhouse body is fixedly connected to the top of the foundation. The greenhouse inlet and outlet are rotatably connected to the outer wall of the agricultural greenhouse body via hinges. The upper part of the interior of the agricultural greenhouse body is provided with a water supply spray and support structure. An irrigation water delivery control structure is provided above the foundation. Agricultural ventilation and temperature management structures are provided on both sides of the agricultural greenhouse body.
[0007] The water supply and spraying support structure includes a return water pipe and fixed plates. Multiple fixed plates are installed on the top of the inner wall of the main body of the agricultural greenhouse by screw threads. Support rings are fixedly connected to the outer side of the multiple fixed plates. The return water pipe is movably sleeved on the inner side of the support ring. Multiple spray heads are fixedly connected to the lower end of the return water pipe. Multiple monitoring cameras are movably connected to the outer wall of the return water pipe. A circulation pump is fixedly installed at the other end of the return water pipe.
[0008] This sprinkler head is designed to spray water downwards onto the plants after the water flows through the return pipe. At the same time, the outer wall of the return pipe, which runs horizontally through the entire main body of the agricultural greenhouse, can be used to install a monitoring camera. The monitoring camera is a top-mounted 4K high-definition camera, which can monitor and record the internal environment of the greenhouse in real time after being powered on. After the circulation pump is connected to the power supply and turned on, the circulation pump can guide the water flowing through the lower pipe upwards into the return pipe. Finally, the return pipe discharges the remaining water into the storage tank.
[0009] The irrigation water delivery control structure includes a water storage tank and a lower pipe. The lower pipe is fixedly installed above the foundation. The water storage tank is fixedly connected to one end of the lower pipe. A water pump is fixedly installed above the end of the lower pipe. Multiple drip irrigation heads are fixedly connected to the upper end of the lower pipe. A connecting pipe is fixedly connected to the other end of the lower pipe.
[0010] This system features a stainless steel water tank that stores irrigation water. Once the water pump is connected to a power source and started, it guides the water from the tank into the lower pipe. The lower pipe is laid beneath the main structure of the agricultural greenhouse, with the drip irrigation heads positioned close to the crop roots. As water flows through the lower pipe, the drip irrigation heads slowly guide the water to the plants for drip irrigation. The connecting pipe is used to connect the upper return water pipe to the lower pipe.
[0011] The other end of the connecting pipe is connected to the end of the return water pipe, and the top of the water storage tank is connected to the other end of the return water pipe.
[0012] The agricultural ventilation and temperature management structure includes ventilation windows and fixed hooks. Two ventilation windows are fixedly opened at both ends of the outer wall of the main body of the agricultural greenhouse. Exhaust fans are fixedly installed inside the two ventilation windows. The fixed hooks are fixedly installed on the inner wall of the main body of the agricultural greenhouse. Temperature and humidity monitors are movably connected to the bottom of the fixed hooks.
[0013] Once the exhaust fan is connected to the power supply and started, it will guide airflow through the interior of the agricultural greenhouse along the opposite ventilation windows on both sides, using airflow to cool the greenhouse. The temperature and humidity monitor is a relatively mature existing technology. The temperature and humidity monitor consists of a temperature sensor and a humidity sensor, which are fixed on a fixed hook at a suitable height on the inner wall of the agricultural greenhouse. The temperature sensor can detect changes in the temperature inside the greenhouse, while the humidity sensor can detect changes in the humidity inside the greenhouse. Together with a remote control terminal, the temperature and humidity data are displayed on a monitor, making it convenient for agricultural workers to manage and use the system. They can operate the sprinkler irrigation to adjust the humidity and use ventilation to regulate the temperature.
[0014] The temperature and humidity monitor is electrically connected to the water pump and the exhaust fan.
[0015] The agricultural greenhouse management device proposed in this utility model has the following advantages: the return water pipe allows for the flow of irrigation water through the inside of the sprinkler pipe, which is inserted into the support ring. The sprinkler head can spray the plants downwards after the water flows through the return water pipe. At the same time, the outer wall of the return water pipe, which runs horizontally through the entire main body of the agricultural greenhouse, can be used to install a monitoring camera. The monitoring camera is a top-mounted 4K high-definition camera, which can monitor and capture the internal environment of the greenhouse in real time after being powered on. After the circulation pump is connected to the power supply and turned on, the circulation pump can guide the water flowing through the lower pipe upwards into the return water pipe. Finally, the return water pipe discharges the remaining water into the storage tank. Therefore, with the above structure, the return water pipe can be used to support the monitoring camera and also as a sprinkler pipe, providing two functions in one pipe. It occupies little space and does not affect normal irrigation. Attached Figure Description
[0016] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0017] Figure 2 for Figure 1 A frontal sectional view;
[0018] Figure 3 for Figure 1 Top view diagram;
[0019] Figure 4 for Figure 2 Enlarged sectional view of section A in the middle;
[0020] Figure 5 for Figure 2 Enlarged sectional view of section B in the middle;
[0021] Figure 6 for Figure 2 Enlarged sectional view of section C.
[0022] In the diagram: 1. Foundation; 2. Main body of the agricultural greenhouse; 3. Greenhouse entrance and exit; 4. Irrigation water delivery and control structure; 41. Water storage tank; 42. Water pump; 43. Lower pipe; 44. Drip irrigation head; 45. Connecting pipe; 5. Water delivery, spraying and support structure; 51. Return water pipe; 52. Fixing plate; 53. Support ring; 54. Sprinkler head; 55. Monitoring camera; 56. Circulation pump; 6. Agricultural ventilation and temperature management structure; 61. Ventilation window; 62. Exhaust fan; 63. Fixing hook; 64. Temperature and humidity monitor. Detailed Implementation
[0023] The present invention will be further described below with reference to the accompanying drawings:
[0024] Please see Figure 1-6 In this embodiment, an agricultural greenhouse management device includes a foundation 1, an agricultural greenhouse body 2, and a greenhouse inlet / outlet 3. The agricultural greenhouse body 2 is fixedly connected to the top of the foundation 1. The greenhouse inlet / outlet 3 is rotatably connected to the outer wall of the agricultural greenhouse body 2 via hinges. The upper part of the interior of the agricultural greenhouse body 2 is provided with a water supply spray and support structure 5. An irrigation water delivery control structure 4 is provided above the foundation 1. Agricultural ventilation and temperature management structures 6 are provided on both sides of the agricultural greenhouse body 2.
[0025] The water supply and sprinkler system 5 includes a return water pipe 51 and fixing plates 52. Multiple fixing plates 52 are screwed and threaded onto the top of the inner wall of the main body 2 of the agricultural greenhouse. The fixing plates 52 are fixed to the upper part of the inner wall of the main body 2 using screws. Support rings 53 are fixedly connected to the outer sides of the multiple fixing plates 52. A transverse stainless steel support ring 53 is welded to the front end of the fixing plates 52. The return water pipe 51 is a stainless steel pipe, and the water flow for sprinkler irrigation passes through the inside of the return water pipe 51. The return water pipe 51 is inserted into the support ring 53 and is movably sleeved inside the support ring 53. Multiple sprinkler heads 54 are fixedly connected to the lower end of the return water pipe 51. The sprinkler heads 54 can... Water flows through the return water pipe 51 and sprays downwards onto the plants. At the same time, the outer wall of the return water pipe 51, which runs horizontally through the entire main body 2 of the agricultural greenhouse, can be used to install monitoring cameras 55. The monitoring cameras 55 are top-mounted 4K high-definition cameras, which can monitor and capture the internal environment of the greenhouse in real time after being powered on. Multiple monitoring cameras 55 are movably connected to the outer wall of the return water pipe 51. A circulation pump 56 is fixedly installed at the other end of the return water pipe 51. After the circulation pump 56 is connected to the power supply and turned on, the circulation pump 56 can guide the water flowing through the lower pipe 43 upwards into the return water pipe 51. Finally, the return water pipe 51 discharges the remaining water into the water storage tank 41.
[0026] The irrigation water delivery control structure 4 includes a water storage tank 41 and a lower pipe 43. The lower pipe 43 is laid under the main body 2 of the agricultural greenhouse. The drip irrigation heads 44 of the lower pipe 43 are close to the roots of the crops. When water flows through the lower pipe, the drip irrigation heads 44 slowly guide the water flow to the plants for drip irrigation. The lower pipe 43 is fixedly installed above the foundation 1. The end of the lower pipe 43 is fixedly connected to the water storage tank 41. The water storage tank 41 is made of stainless steel and can store irrigation water inside. A water pump 42 is fixedly installed above the end of the lower pipe 43. After the water pump 42 is connected to the power supply and started, it can guide the water inside the water storage tank 41 to flow into the lower pipe 43. Multiple drip irrigation heads 44 are fixedly connected to the upper end of the lower pipe 43. The other end of the lower pipe 43 is fixedly connected to a connecting pipe 45. The connecting pipe 45 is used to connect the upper return water pipe 51 and the lower pipe 43.
[0027] The other end of the connecting pipe 45 is connected to the end of the return water pipe 51, and the top of the water storage tank 41 is connected to the other end of the return water pipe 51.
[0028] The agricultural ventilation and temperature management structure 6 includes ventilation windows 61 and fixed hooks 63. Two ventilation windows 61 are fixedly opened at both ends of the outer wall of the main body 2 of the agricultural greenhouse. Exhaust fans 62 are fixedly installed inside the two ventilation windows 61. After the exhaust fans 62 are connected to the power supply and started, they will guide air to flow through the interior of the main body 2 of the agricultural greenhouse along the two opposite ventilation windows 61, using air flow to cool down. The fixed hooks 63 are fixedly installed on the inner wall of the main body 2 of the agricultural greenhouse. A temperature and humidity monitor 64 is movably connected to the bottom of the fixed hooks 63. The temperature and humidity monitor 64 is a relatively mature existing technology. The temperature and humidity monitor 64 is divided into a temperature sensor and a humidity sensor. It is fixed on the fixed hooks 63 at a suitable height on the inner wall of the main body 2 of the agricultural greenhouse. The temperature sensor 64 can detect the change of temperature inside the greenhouse, while the humidity sensor can detect the change of humidity inside the greenhouse. With the help of a remote control terminal, the temperature and humidity data are displayed on the monitor, which is convenient for agricultural workers to manage and use, operate the sprinkler irrigation to adjust the humidity, and regulate the temperature through ventilation.
[0029] Temperature and humidity monitor 64 is electrically connected to water pump 43 and temperature and humidity monitor 64 is electrically connected to exhaust fan 62.
[0030] Working principle:
[0031] The agricultural greenhouse management device monitors the temperature and humidity inside the greenhouse in real time, and works with agricultural cameras to monitor the greenhouse environment 24 hours a day. It can adjust humidity through sprinkler irrigation and adjust temperature through ventilation, thus enabling better management of the internal environment of the agricultural greenhouse.
[0032] The water storage tank 41 is made of stainless steel and can store irrigation water. After the water pump 42 is connected to the power supply and started, it can guide the water inside the water storage tank 41 to flow into the lower pipe 43. The lower pipe 43 is laid under the main body 2 of the agricultural greenhouse. The drip irrigation head 44 of the lower pipe 43 is close to the roots of the crops. When the water flows through the lower pipe, the drip irrigation head 44 slowly guides the water flow to the plants for drip irrigation. The connecting pipe 45 is used to connect the upper return water pipe 51 and the lower pipe 43.
[0033] The fixing plate 52 is fixed to the upper part of the inner wall of the main body 2 of the agricultural greenhouse with screws. The front end of the fixing plate 52 is welded with a horizontal stainless steel support ring 53. The return water pipe 51 is a stainless steel pipe. The water flow for sprinkler irrigation flows inside the return water pipe 51. The return water pipe 51 is inserted into the support ring 53. The sprinkler head 54 can spray the plants downward after the water flows through the return water pipe 51. At the same time, the outer wall of the return water pipe 51, which runs horizontally through the entire main body 2 of the agricultural greenhouse, can be used to install a monitoring camera 55. The monitoring camera 55 is a top-mounted 4K high-definition camera. It can monitor and capture the internal environment of the greenhouse in real time after being powered on. After the circulation pump 56 is connected to the power supply and turned on, the circulation pump 56 can guide the water flowing through the lower pipe 43 upward into the return water pipe 51. Finally, the return water pipe 51 discharges the remaining water into the water storage tank 41. Therefore, with the above structure, the return water pipe 51 can be used to support the monitoring camera and also as a sprinkler pipe. One pipe has two functions, which takes up little space and does not affect the normal irrigation work.
[0034] After the exhaust fan 62 is connected to the power supply and started, it will guide air to flow through the interior of the main body 2 of the agricultural greenhouse along the opposite ventilation windows 61 on both sides, using air flow to cool down. The temperature and humidity monitor 64 is a relatively mature existing technology. The temperature and humidity monitor 64 is divided into a temperature sensor and a humidity sensor. It is fixed on the fixed hook 63 at an appropriate height on the inner wall of the main body 2 of the agricultural greenhouse. The temperature sensor 64 can detect the change of temperature inside the greenhouse, while the humidity sensor can detect the change of humidity inside the greenhouse. With the help of the remote control terminal, the temperature and humidity data are displayed on the monitor, which is convenient for agricultural workers to manage and use, operate the sprinkler irrigation to adjust the humidity, and adjust the temperature through ventilation.
[0035] Although the present invention has been illustrated and described with reference to preferred embodiments, those skilled in the art should understand that various changes in form and detail are possible within the scope of the claims.
Claims
1. An agricultural greenhouse management device, comprising a foundation (1), an agricultural greenhouse body (2), and a greenhouse inlet / outlet (3), wherein the agricultural greenhouse body (2) is fixedly connected to the top of the foundation (1), and the greenhouse inlet / outlet (3) is rotatably connected to the outer wall of the agricultural greenhouse body (2) via hinges, characterized in that: The upper part of the main body (2) of the agricultural greenhouse is provided with a water supply spray and support structure (5), the foundation (1) is provided with an irrigation water delivery control structure (4), and the agricultural greenhouse main body (2) is provided with an agricultural ventilation temperature management structure (6) on both sides.
2. The agricultural greenhouse management device according to claim 1, characterized by: The water supply spray and support structure (5) includes a return water pipe (51) and a fixing plate (52). Multiple fixing plates (52) are installed on the top of the inner wall of the main body of the agricultural greenhouse (2) by screw threads. Support rings (53) are fixedly connected to the outer side of multiple fixing plates (52). The return water pipe (51) is movably sleeved on the inner side of the support ring (53). Multiple spray heads (54) are fixedly connected to the lower end of the return water pipe (51). Multiple monitoring cameras (55) are movably connected to the outer wall of the return water pipe (51). A circulation pump (56) is fixedly installed at the other end of the return water pipe (51).
3. The agricultural greenhouse management apparatus according to claim 2, characterized by: The irrigation water delivery control structure (4) includes a water storage tank (41) and a lower pipe (42). The lower pipe (42) is fixedly installed above the foundation (1). The water storage tank (41) is fixedly connected to the end of the lower pipe (42). A water pump (43) is fixedly installed above the end of the lower pipe (42). Multiple drip irrigation heads (44) are fixedly connected to the upper end of the lower pipe (42). The other end of the lower pipe (42) is fixedly connected to a connecting pipe (45).
4. The agricultural greenhouse management apparatus according to claim 3, characterized by: The other end of the connecting pipe (45) is connected to the end of the return water pipe (51), and the top of the water storage tank (41) is connected to the other end of the return water pipe (51).
5. The agricultural greenhouse management apparatus according to claim 4, characterized by: The agricultural ventilation temperature management structure (6) includes ventilation windows (61) and fixed hooks (63). The two ventilation windows (61) are fixedly opened at both ends of the outer wall of the main body of the agricultural greenhouse (2). The ventilation windows (61) are fixedly installed with exhaust fans (62) inside. The fixed hooks (63) are fixedly installed on the inner wall of the main body of the agricultural greenhouse (2). A temperature and humidity monitor (64) is movably connected to the bottom of the fixed hooks (63).
6. The agricultural greenhouse management device according to claim 5, characterized in that: The temperature and humidity monitor (64) is electrically connected to the water pump (43) and the temperature and humidity monitor (64) is electrically connected to the exhaust fan (62).