CN219719359U - Automatic timing flower watering system for factory - Google Patents

Abstract

The utility model relates to a factory automatic timing flower watering system, which comprises a control system, a pipeline system and a rotary spray head, wherein the control system is used for controlling the flow of water in a factory; the control system comprises a control box, a time control switch, a main water pump, a water diversion pump and an electromagnetic valve; the time control switch is arranged on the control box; the time control switch is respectively connected with the main water pump, the water diversion pump and the electromagnetic valve through electric signals; the pipeline system is buried under the ground and comprises a water storage tank; a water inlet pipe is communicated with the water inlet end of the water storage tank; the water outlet end of the water storage tank is communicated with a main water pipe; the tail end of the main water pipe is respectively communicated with a plurality of branch water pipes; one end of each water distribution pipe is respectively communicated with a plurality of water distribution pipes, and the other end of each water distribution pipe penetrates out of the ground and is communicated with a rotary spray head; a main water pump is communicated with the main water pipe; the branch water pipes are positioned in front of the water inlet direction of each water distribution pipe and are communicated with a water distribution pump; the water diversion pipe is communicated with an electromagnetic valve. By arranging the time control switch, the flower watering time and the flower watering time can be controlled according to the change of seasons, and automatic, quantitative and stable flower watering is realized.

Description

Automatic timing flower watering system for factory

Technical Field

The utility model relates to a factory automatic timing flower watering system, and belongs to the technical field of greening.

Background

Greening plants to improve the activity of the environment. Greening refers to planting protection forests, roadside trees, crops, various plants in residential areas and parks, and the like. Greening can improve environmental sanitation and plays a variety of roles in maintaining ecological balance. With the advent of post industrialization, more and more green plants such as flowers and lawns are planted in the power plant, and the green power plant is more and more pursued by people. Water is the most basic need for plant survival, growth. Plants such as flowers and trees can grow healthily by regular watering and maintenance.

The patent publication No. CN206181987U 'S chinese patent, it discloses a greenbelt watering device, including the sprinkling irrigation water pipe, humidity detection device, S type dish support, drip irrigation water pipe, the filter, the water guide pipe, filter, water control valve have been connected gradually on sprinkling irrigation water pipe and the water guide pipe, sprinkling irrigation tap setting is connected on sprinkling irrigation water pipe, humidity detection device sets up on S type dish support, drip irrigation water pipe is fixed on the fixed clip and S type is coiled on S type dish support, drip irrigation water pipe passes through the adapter and links to each other with the water guide pipe, indent formula drip connector setting is installed on drip irrigation water pipe, the water pump of greenbelt watering device provides sufficient water pressure for sprinkling irrigation of sprinkling irrigation tap and drip irrigation of drip irrigation water pipe, water control valve control water pipe' S water supply, humidity detection device detects different degree of depth soil moisture, drip irrigation water pipe buries under soil, fixed clip fixes the drip irrigation water pipe, drip irrigation water pipe adopts the S type to coil on S type dish support, can water soil of different degree of depth.

Although the soil with different depths can be irrigated in the patent, the soil can not be used for regularly and timely supplementing water for flowers and lawns, so that flowers and plants die.

Disclosure of Invention

In order to overcome the problems, the utility model provides the automatic timing flower watering system for the factory, which can control the flower watering time and the flower watering time according to the change of seasons by arranging the time control switch, so as to realize automatic, quantitative and stable flower watering. Meanwhile, the timing spray type flower watering device can save water and fully absorb soil, so that the flower watering effect is good.

The technical scheme of the utility model is as follows:

a factory automatic timing flower watering system comprises a control system, a pipeline system and a rotary spray head; the control system comprises a control box, a time control switch, a main water pump, a water diversion pump and an electromagnetic valve; the time control switch is arranged on the control box; the time control switch is respectively connected with the main water pump, the water diversion pump and the electromagnetic valve in an electric signal manner; the pipeline system is buried under the ground and comprises a water storage tank; a water inlet pipe is communicated with the water inlet end of the water storage tank; the water outlet end of the water storage tank is communicated with a main water pipe; the tail ends of the main water pipes are respectively communicated with a plurality of branch water pipes; one end of each branch water pipe is respectively communicated with a plurality of branch water pipes, and the other end of each branch water pipe penetrates out of the ground and is communicated with the rotary spray head; the main water pipe is communicated with the main water pump; the water diversion pipes are positioned in front of the water diversion pipes in the water inlet direction and are communicated with one water diversion pump; the water diversion pipe is communicated with the electromagnetic valve.

Further, the rotary spray head comprises a spray head main body, a connecting pipe and a side spray head; the spray head main body is hollow, and the bottom of the spray head main body is fixedly communicated with a base; the base is rotationally communicated with the periphery of the tail end of the water diversion pipe; the connecting pipes are uniformly fixed at intervals on the periphery of the nozzle body; one end of the connecting pipe is communicated with the inside of the nozzle main body, and the other end of the connecting pipe is fixedly communicated with one side nozzle; the spraying directions of the side spray heads of the same rotary spray head are the same.

Further, the upper end of the nozzle main body is also communicated with an upper nozzle.

Further, the connecting pipe is fixed with the nozzle main body through threads.

Further, the spraying directions of the side spraying heads of the adjacent two rotary spraying heads are opposite.

Further, the control system also comprises an inductor; the sensor is in electrical signal connection with the time control switch; the inductors are arranged on the ground and uniformly distributed at intervals on the periphery of the rotary spray head.

Further, the number of the side spray heads is three.

Further, the time control switch is a longitude and latitude time control switch.

The utility model has the following beneficial effects:

1. the automatic timing flower watering system in the factory can control the flower watering time and the flower watering time according to the change of seasons by arranging the time control switch, so that automatic, quantitative and stable flower watering is realized. Meanwhile, the timing spray type flower watering device can save water and fully absorb soil, so that the flower watering effect is good.

2. The side nozzle is connected with the nozzle main body through the connecting pipe, and when water flow is sprayed by the side nozzle, the side nozzle can start to automatically rotate through the reaction force generated by water flow spraying. Thus, the watering work can be uniformly performed in the watering area defined by each rotary nozzle.

3. The upper spray head can compensate the water spraying blind area of the side spray head, so that the coverage area of watering is wider, and the watering work is performed more comprehensively.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a right side view of fig. 1.

Fig. 3 is a top view of fig. 1.

Fig. 4 is a partial enlarged view at a of fig. 3.

Fig. 5 is a schematic diagram of the overall structure of the piping system.

Fig. 6 is a schematic view of the overall structure of the rotary sprayer.

The reference numerals in the drawings are as follows:

1. a control box; 11. a time-controlled switch; 12. a main water pump; 13. a water dividing pump; 14. an electromagnetic valve; 15. an inductor; 2. a pipeline system; 21. a water storage tank; 22. a water inlet pipe; 23. a main water pipe; 24. a branch water pipe; 25. a water diversion pipe; 3. rotating the spray head; 31. a base; 32. a head main body; 33. a connecting pipe; 34. a side nozzle; 35. and (5) an upper spray head.

Detailed Description

The utility model will now be described in detail with reference to the drawings and to specific embodiments.

In which the area a in fig. 1 represents the irrigation area of a single rotary nozzle 3. The arrow direction in fig. 3 and 4 indicates the rotation direction of the rotary head 3.

Referring to fig. 1-6, an automatic timing flower watering system for a factory comprises a control system, a pipeline system 2 and a rotary spray head 3; the control system comprises a control box 1, a time control switch 11, a main water pump 12, a water diversion pump 13 and an electromagnetic valve 14; the time control switch 11 is arranged on the control box 1; the time control switch 11 is respectively connected with the main water pump 12, the water diversion pump 13 and the electromagnetic valve 14 in an electric signal manner; the pipeline system 2 is buried under the ground and comprises a water storage tank 21; a water inlet pipe 22 is communicated with the water inlet end of the water storage tank 21; the water outlet end of the water storage tank 21 is communicated with a main water pipe 23; the tail ends of the main water pipes 23 are respectively communicated with a plurality of branch water pipes 24; one end of each branch water pipe 24 is respectively communicated with a plurality of branch water pipes 25, and the other end of each branch water pipe 25 penetrates out of the ground and is communicated with the rotary spray head 3; the main water pipe 23 is communicated with the main water pump 12; the branch water pipes 24 are positioned in front of the water inlet direction of each water diversion pipe 25 and are communicated with one water diversion pump 13; the water diversion pipe 25 is communicated with the electromagnetic valve 14.

According to the above description, the automatic timing flower watering system of the factory mainly comprises a control system, a pipeline system 2 and a rotary spray head 3. The control system comprises a control box 1, a time control switch 11, a main water pump 12, a water diversion pump 13 and an electromagnetic valve 14. The pipe system 2 comprises a reservoir 21, a main water pipe 23, a branch water pipe 24 and a shunt water pipe 25. The time control switch 11 is a main control element of the automatic timing flower watering system in the factory and is used for controlling the flower watering time and the flower watering time, so that the lawn in the factory can be watered in different areas and different periods and with different timing. The water storage tank 21 is filled with water and stores the water through the water inlet pipe 22, and then is conveyed to each rotary spray head 3 through the main water pipe 23, the branch water pipe 24 and the water diversion pipe 25 in sequence, and water is sprayed and irrigated by the rotary spray heads 3. The main water pump 12 and the water diversion pump 13 are respectively used for pressurizing the main water pipe 23 and the water diversion pipe 25, so that the water delivery capacity is improved, and the shortage of water finally delivered to the rotary spray head 3 is prevented. The electromagnetic valve 14 is connected to the water diversion pipe 25, and then the electromagnetic valve 14 is controlled by the time control switch 11, so that automatic timing and quantitative flower watering can be realized. The automatic timing flower watering system in the factory can control the flower watering time and the flower watering time according to the change of seasons by arranging the time control switch 11, realize automatic, quantitative and stable flower watering, and is suitable for more scattered and numerous lawns. Meanwhile, the timing spray type flower watering device can save water and fully absorb soil, so that the flower watering effect is good.

Further, the rotary sprayer 3 includes a sprayer body 32, a connection pipe 33, and a side sprayer 34; the spray head main body 32 is arranged in a hollow manner, and the bottom of the spray head main body is fixedly communicated with the base 31; the base 31 is rotationally communicated with the periphery of the tail end of the water diversion pipe 25; the plurality of connection pipes 33 are fixed at uniform intervals to the outer circumference of the head main body 32; one end of the connecting pipe 33 is communicated with the inside of the nozzle main body 32, and the other end is fixedly communicated with one side nozzle 34; the same rotary head 3 has the same spray direction of the side heads 34.

According to the above description, the rotary jetting head 3 includes the head main body 32, the connection pipe 33, and the side jetting head 34. The base 31 at the bottom of the nozzle body 32 is rotationally communicated with the periphery of the tail end of the water diversion pipe 25, so that the rotation function of the rotary nozzle 3 is realized; the side nozzle 34 is connected to the nozzle body 32 through a connection pipe 33, and when water is ejected from the side nozzle 34, the side nozzle 34 automatically rotates by a reaction force generated by the water jet. In this way, the watering work can be uniformly performed in the watering area defined by each rotary nozzle 3.

Further, the upper end of the nozzle body 32 is further connected to an upper nozzle 35. The upper spray head 35 can compensate the water spraying blind area of the side spray head 34, so that the coverage area of watering is wider, and the watering work is performed more comprehensively.

Further, the connection pipe 33 is screwed to the head body 32. The tail end of the connecting pipe 33 is provided with external threads and is in threaded fixation with the nozzle body 32, so that the installation is convenient on one hand; on the other hand, on the premise that the connecting pipe 33 is installed in place and no water leakage occurs, the angle of the connecting pipe 33 can be slightly adjusted so as to finely adjust the injection angle and the injection range of the side nozzle 34.

Further, the spraying directions of the side sprayers 34 of the adjacent two rotary sprayers 3 are opposite.

Further, the control system further comprises an inductor 15; the sensor 15 is electrically connected with the time control switch 11; the sensors 15 are arranged on the ground and uniformly distributed at intervals on the periphery of the rotary spray head 3. The data range detected by the sensor 15 comprises data such as temperature, humidity and the like, so that accurate detection of plant environments in different areas is realized under different days, and the data is fed back to the time control switch 11 in real time so as to adjust the watering strategy.

Further, the number of the side nozzles 34 is three.

Further, the time-controlled switch 11 is a longitude and latitude time-controlled switch. Through longitude and latitude time control switch, can be with automatic timing or artificial control mode for watering the system of watering flowers, still can realize regional time quantum control, solve the problem that watering effect is bad. When the automatic timing mode is adopted for flower watering, the flower watering operation can be completed every day according to a preset program, and the control is stable in no-time; the manual flower watering can be performed according to the actual situation.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (8)

1. An automatic timing flower watering system in a factory is characterized in that: comprises a control system, a pipeline system (2) and a rotary spray head (3); the control system comprises a control box (1), a time control switch (11), a main water pump (12), a water diversion pump (13) and an electromagnetic valve (14); the time control switch (11) is arranged on the control box (1); the time control switch (11) is respectively connected with the main water pump (12), the water diversion pump (13) and the electromagnetic valve (14) in an electric signal manner; the pipeline system (2) is buried under the ground and comprises a water storage tank (21); a water inlet pipe (22) is communicated with the water inlet end of the water storage tank (21); the water outlet end of the water storage tank (21) is communicated with a main water pipe (23); the tail ends of the main water pipes (23) are respectively communicated with a plurality of branch water pipes (24); one end of each branch water pipe (24) is respectively communicated with a plurality of branch water pipes (25), and the other end of each branch water pipe (25) penetrates out of the ground and is communicated with the rotary spray head (3); the main water pipe (23) is communicated with the main water pump (12); the water diversion pipes (24) are positioned at the front part of the water diversion pipe (25) in the water inlet direction and are communicated with a water diversion pump (13); the water diversion pipe (25) is communicated with the electromagnetic valve (14).

2. The factory floor self-timed watering system according to claim 1, wherein: the rotary spray head (3) comprises a spray head main body (32), a connecting pipe (33) and a side spray head (34); the spray head main body (32) is arranged in a hollow manner, and the bottom of the spray head main body is fixedly communicated with the base (31); the base (31) is rotationally communicated with the periphery of the tail end of the water diversion pipe (25); the plurality of connecting pipes (33) are uniformly fixed on the periphery of the nozzle main body (32) at intervals; one end of the connecting pipe (33) is communicated with the inside of the nozzle main body (32), and the other end is fixedly communicated with the side nozzle (34); the same rotary head (3) has the same spray direction of the side nozzle (34).

3. The factory floor self-timed watering system according to claim 2, wherein: the upper end of the nozzle main body (32) is also communicated with an upper nozzle (35).

4. The factory floor self-timed watering system according to claim 2, wherein: the connecting pipe (33) is in threaded connection with the spray head main body (32).

5. The factory floor self-timed watering system according to claim 2, wherein: two adjacent rotary spray heads (3) have opposite spray directions of the side spray heads (34).

6. The factory floor self-timed watering system according to claim 1, wherein: the control system further comprises an inductor (15); the inductor (15) is in electrical signal connection with the time control switch (11); the inductors (15) are arranged on the ground and uniformly distributed at intervals on the periphery of the rotary spray head (3).

7. The factory floor self-timed watering system according to claim 2, wherein: the number of the side spray heads (34) is three.

8. The factory floor self-timed watering system according to claim 1, wherein: the time control switch (11) is a longitude and latitude time control switch.