CN216146855U - Constant temperature big-arch shelter with automatic irrigation - Google Patents

Abstract

The utility model discloses a constant-temperature greenhouse with automatic irrigation, and relates to the technical field of constant-temperature greenhouses. The technical key points are as follows: the constant-temperature greenhouse comprises a constant-temperature greenhouse body, wherein a water mist spraying device is arranged at the upper end inside the constant-temperature greenhouse body, a water sprinkling device is arranged at the lower end inside the constant-temperature greenhouse body, a reservoir is arranged outside the constant-temperature greenhouse body, a water delivery main pipe extending into the constant-temperature greenhouse is arranged in the reservoir, the water delivery main pipe, the spraying device and the water sprinkling device are communicated through a three-way electromagnetic valve, a water pump communicated with the water delivery main pipe is arranged in the reservoir, an air humidity sensor is arranged in the constant-temperature greenhouse, a plurality of soil humidity sensors which are uniformly distributed and are inserted into soil are arranged at the lower end of the constant-temperature greenhouse, and a control box which is electrically connected with the water pump, the air humidity sensors, the soil humidity sensors and the three-way electromagnetic valve and internally provided with a timing system is arranged in the constant-temperature greenhouse.

Description

Constant temperature big-arch shelter with automatic irrigation

Technical Field

The utility model relates to the technical field of constant-temperature greenhouses, in particular to a constant-temperature greenhouse with automatic irrigation function.

Background

The greenhouse can also be called a constant temperature greenhouse, can transmit light and keep (or heat) and is used as a facility for cultivating plants. In seasons unsuitable for plant growth, the method can provide the growth period of the greenhouse and increase the yield, and is mainly used for cultivating or raising seedlings of plants like warm vegetables, flowers and trees in low-temperature seasons. The types of greenhouses are various, and the greenhouses can be divided into a great number according to different roof truss materials, lighting materials, shapes, heating conditions and the like.

Most of irrigation of the existing greenhouse is that vegetables and fruits in the constant-temperature greenhouse are irrigated through manual irrigation of operators or manually controlled irrigation equipment, irrigation with different times is carried out in different growth periods of the vegetables and fruits, the process is complex, and therefore a space needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a constant-temperature greenhouse with automatic irrigation, which has the advantages of automatic irrigation and improvement of working efficiency.

In order to achieve the purpose, the utility model provides the following technical scheme:

a constant temperature greenhouse with automatic irrigation comprises a constant temperature greenhouse body, wherein the upper end inside the constant temperature greenhouse body is provided with a water mist spraying device, a watering device for irrigating vegetables is arranged at the lower end in the constant-temperature greenhouse body, a water storage tank is arranged outside the constant-temperature greenhouse body, a water delivery main pipe which extends into the constant-temperature greenhouse and is communicated with the water mist spraying device and the water spraying device is arranged in the reservoir, the main water pipe, the spraying device and the sprinkling device are communicated through a three-way electromagnetic valve, a water pump communicated with the main water pipe is arranged in the reservoir, an air humidity sensor is arranged in the constant-temperature greenhouse, a plurality of soil humidity sensors which are uniformly distributed and are inserted in soil are arranged at the lower end of the constant-temperature greenhouse, the constant temperature greenhouse is internally provided with a control box which is electrically connected with the water pump, the air humidity sensor, the soil humidity sensor and the three-way electromagnetic valve and is internally provided with a timing system.

By adopting the technical scheme, when the soil humidity of the vegetables planted in the greenhouse body does not meet the vegetable demand, the soil humidity sensor installed in the soil transmits the sensed soil humidity value to the control box through an electric signal, the control box compares the preset soil humidity value range with the soil humidity value detected by the soil humidity sensor, when the soil humidity value is lower than the preset soil humidity value range, the control box starts the water pump in the water storage tank through the electric signal and enables the water main pipe to be communicated with the water spraying device through the three-way electromagnetic valve, and the water pump irrigates the vegetables through the water spraying device by using the water in the water storage tank; when the air humidity in the greenhouse body does not reach the preset air humidity range, the air humidity sensor arranged in the greenhouse body transmits the sensed air humidity to the control box through an electric signal, the control box compares the preset air humidity range with the air humidity detected by the air humidity sensor, when the air humidity is lower than the preset air humidity range, the control box starts a water pump in the water storage tank through the electric signal and enables the water delivery main pipe to be communicated with the water mist spraying device through a three-way electromagnetic valve, and the water pump sprays water in the water storage tank into the greenhouse body through the water mist spraying device; and through the settlement of control box, can regularly be irrigated vegetables through watering device with the water in the cistern by the water pump.

To sum up, the above-mentioned water in with the cistern is sprayed water and is irrigated this internal vegetables of big-arch shelter by water smoke spray set or watering device through soil moisture sensor, air humidity transducer and the steerable water pump of control box and three-way solenoid valve to reach automatic irrigation and improve work efficiency's purpose.

Furthermore, the spraying device comprises water mist nozzles which are arranged at the upper end inside the constant-temperature greenhouse body and are evenly distributed, and a first water delivery branch pipe which is communicated with the water mist nozzles and is communicated with the three-way electromagnetic valve.

Through adopting above-mentioned technical scheme, on the water pump was responsible for the water in with the cistern through the water delivery and is carried spray set with three-way solenoid valve, water was by a plurality of water smoke shower nozzles of water delivery branch pipe flow direction to spray water smoke inside the big-arch shelter body by water smoke shower nozzle.

Furthermore, the water mist spray head is in threaded connection with the first water delivery branch pipe.

Through adopting above-mentioned technical scheme, when the water smoke shower nozzle on the first water delivery branch pipe of needs change, by water smoke shower nozzle and first water delivery branch pipe threaded connection, can make things convenient for operating personnel to pull down the water smoke shower nozzle from first water delivery branch pipe and change.

Further, watering device is including setting up in the inside lower extreme of constant temperature big-arch shelter body and being used for irrigating a plurality of watering shower nozzles of vegetables and the second water delivery branch pipe that is linked together and is linked together with three solenoid valve with a plurality of watering shower nozzles, and is a plurality of watering shower nozzle evenly arranges at the constant temperature big-arch shelter lower extreme.

Through adopting above-mentioned technical scheme, when the water pump was responsible for the water in the cistern through the water delivery and is carried watering device with three way solenoid valve on, water was by in a plurality of watering shower nozzles of second water delivery branch pipe flow direction to spray water on vegetables and soil by watering shower nozzle, thereby carry out the vegetables and irrigate.

Furthermore, the upper end surface of the sprinkler head is in a semi-arc shape, and a plurality of water outlet holes are formed in the arc surface of the sprinkler head.

Through adopting above-mentioned technical scheme, a plurality of apopores have been seted up on the arcwall face that the sprinkler head upper end was half circular arc setting and sprinkler head to can effectively increase sprinkler head's water spray scope, thereby make sprinkler head bigger to vegetables irrigation scope.

Further, the cross-section of big-arch shelter main part length direction is the semicircle setting, big-arch shelter main part length direction's both sides all are provided with the water catch bowl that extends along big-arch shelter main part length direction, the cistern sets up in the underfloor, be provided with on the water catch bowl and extend to the collector pipe of cistern upper end.

Through adopting above-mentioned technical scheme, when raining, the rainwater flows to the water catch bowl of big-arch shelter body both sides through the big-arch shelter body in, flows to the cistern through the collector pipe after that and inside stores.

Furthermore, a filter screen is arranged at an opening at the upper end of the water collecting tank.

Through adopting above-mentioned technical scheme, the setting of filter screen can effectively avoid external impurity to enter into the cistern through the water catch bowl.

Furthermore, soil moisture sensor upper end is provided with the sign pole that extends to the soil outside.

Through adopting above-mentioned technical scheme, the setting of sign pole can make things convenient for operating personnel to discern the position of soil moisture sensor installation.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the water pump and the three-way electromagnetic valve can be controlled by the soil humidity sensor, the air humidity sensor and the control box to spray water and irrigate the vegetables in the greenhouse body by the water mist spraying device or the water sprinkling device, so that the aims of automatic irrigation and improvement of working efficiency are fulfilled;

(2) the upper end surface of the sprinkler head is arranged in a semicircular arc shape, and the arc surface of the sprinkler head is provided with a plurality of water outlet holes, so that the water spraying range of the sprinkler head can be effectively enlarged, and the vegetable irrigation range of the sprinkler head is larger;

(3) when raining, the rainwater flows to the water collecting grooves on two sides of the greenhouse body through the greenhouse body, and then flows to the inside of the water storage tank through the water collecting pipe to be stored.

Drawings

FIG. 1 is an overall view of the present embodiment;

fig. 2 is a schematic cross-sectional view of the present embodiment.

Reference numerals: 1. a constant temperature greenhouse body; 2. a reservoir; 3. a water delivery main pipe; 4. a three-way electromagnetic valve; 5. a water pump; 6. an air humidity sensor; 7. a soil humidity sensor; 8. a water collection tank; 9. a water collection pipe; 10. a filter screen; 11. an identification rod; 12. a water mist spray head; 13. a first water delivery branch pipe; 14. a sprinkler head; 15. a second water delivery branch pipe.

Detailed Description

The utility model is described in detail below with reference to the figures and examples.

The constant-temperature greenhouse with automatic irrigation comprises a constant-temperature greenhouse body 1, a water mist spraying device is installed at the upper end inside the constant-temperature greenhouse body 1, a water sprinkling device for irrigating vegetables is installed at the lower end inside the constant-temperature greenhouse body 1, a water storage tank 2 is installed outside the constant-temperature greenhouse body 1, a water main pipe 3 which extends into the constant-temperature greenhouse and is communicated with the water mist spraying device and the water sprinkling device is installed in the water storage tank 2, the water main pipe 3, the spraying device and the water sprinkling device are communicated through a three-way electromagnetic valve 4, a water pump 5 communicated with the water main pipe 3 is installed in the water storage tank 2, an air humidity sensor 6 is installed in the constant-temperature greenhouse, a plurality of soil humidity sensors 7 which are uniformly distributed and are inserted in soil are installed at the lower end of the constant-temperature greenhouse, and a water pump 5, the air humidity sensor 6, a water pump and a water tank are installed in the constant-temperature greenhouse, Soil moisture sensor 7 and three solenoid valve 4 electric connection and internally mounted have timing system's control box.

As shown in fig. 1 and 2, the cross section of the greenhouse main body in the length direction is arranged in a semicircular arc shape, water collecting grooves 8 extending along the length direction of the greenhouse main body are arranged on two sides of the greenhouse main body in the length direction, the water storage tank 2 is arranged under the ground, and water collecting pipes 9 extending to the upper end of the water storage tank 2 are arranged on the water collecting grooves 8. When raining, rainwater flows into the water collecting grooves 8 on two sides of the greenhouse body through the greenhouse body, and then flows into the water storage tank 2 through the water collecting pipe 9 to be stored.

Furthermore, a filter screen 10 is installed at an opening at the upper end of the water collecting tank 8, so that external impurities can be effectively prevented from entering the reservoir 2 through the water collecting tank 8.

It is worth mentioning that the upper end of the soil humidity sensor 7 is fixed with an identification rod 11 extending to the outside of the soil, which is convenient for an operator to identify the installation position of the soil humidity sensor 7.

As shown in fig. 1 and 2, the spraying device comprises water mist nozzles 12 which are installed at the upper end inside the constant-temperature greenhouse body 1 and are uniformly distributed, and a first water delivery branch pipe 13 which is communicated with the water mist nozzles 12 and is communicated with the three-way electromagnetic valve 4. When the water pump 5 conveys the water in the reservoir 2 to the spraying device through the main water conveying pipe 3 and the three-way electromagnetic valve 4, the water flows to the water mist nozzles 12 through the first water conveying branch pipe 13, and the water mist nozzles 12 spray the water mist into the greenhouse body.

Further, the water mist nozzle 12 is screwed with the first branch water delivery pipe 13. When the water mist spray head 12 on the first water delivery branch pipe 13 needs to be replaced, the water mist spray head 12 is in threaded connection with the first water delivery branch pipe 13, so that an operator can conveniently detach and replace the water mist spray head 12 from the first water delivery branch pipe 13.

As shown in fig. 1 and 2, the sprinkler comprises a plurality of sprinkler heads 14 installed at the lower end inside the constant temperature greenhouse body 1 and used for irrigating vegetables and a second water delivery branch pipe 15 communicated with the sprinkler heads 14 and communicated with the three-way solenoid valve 4, wherein the sprinkler heads 14 are uniformly distributed at the lower end of the constant temperature greenhouse. When the water pump 5 conveys the water in the reservoir 2 to the sprinkling device through the main water conveying pipe 3 and the three-way electromagnetic valve 4, the water flows into the plurality of sprinkling nozzles 14 through the second water conveying branch pipes 15 and is sprinkled on vegetables and soil through the sprinkling nozzles 14, so that the vegetables are irrigated.

Further, the setting of semicircle arc is personally submitted to 14 upper ends of sprinkler head, is provided with a plurality of apopores on 14 the arcwall face of sprinkler head, can effectively increase 14 water spray ranges of sprinkler head to it is bigger to make 14 to vegetables irrigation ranges of sprinkler head.

The working process and the beneficial effects of the utility model are as follows: when the soil humidity with vegetables planted in the greenhouse body cannot meet the vegetable demand, the soil humidity sensor 7 installed in the soil transmits the sensed soil humidity to the control box through an electric signal, the control box compares a preset soil humidity range with the soil humidity detected by the soil humidity sensor 7, when the soil humidity is lower than the preset soil humidity range, the control box starts the water pump 5 in the water storage tank 2 through the electric signal and enables the water delivery main pipe 3 to be communicated with the water spraying device through the three-way electromagnetic valve 4, and the water pump 5 irrigates the vegetables through the water spraying device by the water in the water storage tank 2; when the air humidity in the greenhouse body does not reach the preset air humidity value range, the air humidity sensor 6 installed in the greenhouse body transmits the sensed air humidity value to the control box through an electric signal, the control box compares the preset air humidity value range with the air humidity value detected by the air humidity sensor 6, when the air humidity value is lower than the preset air humidity value range, the control box starts a water pump 5 in the water storage tank 2 through the electric signal and enables the water main pipe 3 to be communicated with the water mist spraying device through a three-way electromagnetic valve 4, and the water pump 5 sprays the water in the water storage tank 2 to the interior of the greenhouse body through the water mist spraying device; and through the settlement of control box, can regularly be irrigated vegetables through watering device with the water in the cistern 2 by water pump 5.

In conclusion, the water in the water storage tank 2 is sprayed and irrigated by the water mist spraying device or the water spraying device through the soil humidity sensor 7, the air humidity sensor 6 and the controllable water pump 5 of the control box and the three-way electromagnetic valve 4, so that the purposes of automatic irrigation and improvement of the working efficiency are achieved.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (8)

1. The utility model provides a constant temperature big-arch shelter with automatic irrigation, includes constant temperature big-arch shelter body (1), its characterized in that: the inside upper end of constant temperature big-arch shelter body (1) is provided with water smoke spray set, the inside lower extreme of constant temperature big-arch shelter body (1) is provided with the watering device who is used for irrigating vegetables, constant temperature big-arch shelter body (1) outside is provided with cistern (2), be provided with in cistern (2) and extend to in the constant temperature big-arch shelter and be responsible for (3) with the water delivery that water smoke spray set and watering device are linked together, water delivery is responsible for (3), spray set and watering device are linked together through three solenoid valve (4), be provided with in cistern (2) and be responsible for (3) the water pump (5) that are linked together with the water delivery, be provided with air humidity transducer (6) in the constant temperature big-arch shelter, constant temperature big-arch shelter lower extreme is provided with a plurality of soil humidity transducer (7) of evenly arranging and pegging graft in soil, be provided with water pump (5) in the constant temperature big-arch shelter, Air humidity sensor (6), soil humidity sensor (7) and three solenoid valve (4) electric connection and internally mounted have timing system's control box.

2. The constant-temperature greenhouse with automatic irrigation as claimed in claim 1, wherein: the spraying device comprises water mist nozzles (12) which are arranged at the upper end inside the constant-temperature greenhouse body (1) and are evenly distributed, and first water delivery branch pipes (13) which are communicated with the water mist nozzles (12) and are communicated with the three-way electromagnetic valve (4).

3. The constant-temperature greenhouse with automatic irrigation as claimed in claim 2, wherein: the water mist spray head (12) is in threaded connection with the first water delivery branch pipe (13).

4. The constant-temperature greenhouse with automatic irrigation as claimed in claim 1, wherein: the watering device is including setting up in the inside lower extreme of constant temperature big-arch shelter body (1) and being used for irrigating a plurality of watering shower nozzles (14) of vegetables and with a plurality of watering shower nozzles (14) be linked together and with tee bend solenoid valve (4) be linked together second water delivery branch pipe (15), a plurality of watering shower nozzle (14) are evenly arranged at constant temperature big-arch shelter lower extreme.

5. The constant-temperature greenhouse with automatic irrigation as claimed in claim 4, wherein: the upper end surface of the sprinkling nozzle (14) is arranged in a semicircular arc shape, and a plurality of water outlet holes are formed in the arc-shaped surface of the sprinkling nozzle (14).

6. The constant-temperature greenhouse with automatic irrigation as claimed in claim 1, wherein: constant temperature big-arch shelter body length direction's cross-section is the semicircle setting, constant temperature big-arch shelter body length direction's both sides all are provided with water catch bowl (8) that extend along constant temperature big-arch shelter body length direction, cistern (2) set up in the basement, be provided with on water catch bowl (8) and extend to water-collecting pipe (9) of cistern (2) upper end.

7. The constant-temperature greenhouse with automatic irrigation as claimed in claim 6, wherein: and a filter screen (10) is arranged at an opening at the upper end of the water collecting tank (8).

8. The constant-temperature greenhouse with automatic irrigation as claimed in claim 1, wherein: the upper end of the soil humidity sensor (7) is provided with a marking rod (11) extending to the outside of soil.

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