CN210641792U - Liquid manure medicine control by temperature change integration sprinkler system - Google Patents

Abstract

The utility model relates to a spray irrigation technical field, concretely relates to liquid manure medicine control by temperature change integration sprinkler system, including water storage system, pumping device, aqueduct, shower and atomizer, still include control electronic box and be used for monitoring the temperature-sensing ware of ambient temperature, temperature-sensing ware with control electronic box signal connection, the control electronic box with pumping device signal connection, the aqueduct with water storage system links to each other, pumping device and shower along the water delivery direction of aqueduct in proper order with the aqueduct links to each other, the delivery end of shower links to each other with atomizer. Solves the problems that the environmental temperature is not easy to adjust and frost is easy to damage plants in the plant growth engineering.

Description

Liquid manure medicine control by temperature change integration sprinkler system

Technical Field

The utility model relates to a spray irrigation technical field, concretely relates to liquid manure medicine control by temperature change integration sprinkler system.

Background

At farming's in-process, not only need spray the plant and irrigate and still need prevent the emergence of frost scheduling problem, and in order to guarantee the good growth of plant, still need to keep ambient temperature's suitable, often adopt modes such as drip irrigation among the farming at present, can also play the effect of water conservation simultaneously, but this mode can not play fine regulation to the growing environment of plant, the condition emergence of also can not play frost prevention simultaneously, so need provide a liquid manure medicine control by temperature change integration sprinkler system, solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a liquid manure medicine control by temperature change integration sprinkler system solves the vegetation engineering, and ambient temperature is difficult for adjusting to it is the problem that the plant received the harm to cause the frost easily.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides a liquid manure medicine control by temperature change integration sprinkling system, includes water storage system, pumping device, aqueduct, shower and atomizer, still includes control electronic box and is used for monitoring the temperature-sensing ware of ambient temperature, temperature-sensing ware with control electronic box signal connection, control electronic box with pumping device signal connection, the aqueduct with water storage system links to each other, pumping device and shower along the water delivery direction of aqueduct in proper order with the aqueduct links to each other, the water outlet end of shower links to each other with atomizer.

The water distributor is characterized in that a plurality of shunt tubes are communicated and arranged on the water distributor along the water delivery direction, the other ends of the shunt tubes are communicated and arranged with a regional main tube, a plurality of regional branch tubes are communicated and arranged on the regional main tube along the water delivery direction, and the spray tubes are communicated with the regional branch tubes.

The technical scheme is that each shunt pipe is provided with a first electromagnetic valve for controlling whether the shunt pipe is conducted or not, and the first electromagnetic valve is in signal connection with the control electric box.

The water distributor is characterized in that a filtering device is further arranged on the water distributor, and the filtering device is arranged between the water pumping device and the first flow dividing pipe.

The further technical scheme is that a sewage draining outlet is formed in the lower end of the filtering device and communicated with a sewage draining pipe.

The technical scheme is that more than two spray pipes are arranged and are uniformly distributed along the water delivery direction of the regional branch pipes, and each spray pipe is vertically arranged on the regional branch pipes.

According to a further technical scheme, the area main pipes are all communicated with recovery branch pipes, the recovery branch pipes are all communicated to a recovery main pipe, and the recovery main pipe is communicated with a water storage system.

The further technical scheme is that each recovery branch pipe is provided with a second electromagnetic valve for controlling the conduction of the recovery branch pipe, and the second electromagnetic valve is in signal connection with the control electric box.

The technical scheme is that a threaded channel is communicated with the water inlet end of the atomizing nozzle and communicated with the spray pipe, a sealing washer is arranged at the joint of the threaded channel and the spray pipe, an atomizing separation blade is arranged at the water outlet end of the atomizing nozzle and is right opposite to the water outlet of the atomizing nozzle, and a spraying gap is reserved between the atomizing separation blade and the water outlet.

According to a further technical scheme, a connecting sleeve ring is arranged on the atomizing nozzle and provided with a connecting rod, and the connecting rod is connected with the atomizing blocking piece.

Compared with the prior art, the beneficial effects of the utility model are that: there is spray water storage system in storage, through set up pumping device on the aqueduct, pumping device can take the water in the water storage system out along the aqueduct, and circulate to the shower via the aqueduct, at last from atomizer blowout completion atomizing spray irrigation, respond to ambient temperature around setting up temperature-sensing ware, when sensing ambient temperature high, the signal that gives the control electronic box of temperature-sensing ware transmission alright make the control electronic box open pumping device, thereby form the atomizing and spray, plant the environment to around and cool down, when sensing ambient temperature and hang down, the signal that gives the control electronic box of temperature-sensing ware transmission alright make the control electronic box open pumping device, thereby form the atomizing and spray, and then avoid the plant of planting the condition that frost appears.

Drawings

FIG. 1 is a schematic structural view of an embodiment of the temperature control integrated spraying system for reclaimed water fertilizer chemicals of the present invention.

Fig. 2 is a sectional view of the atomizing nozzle of the present invention.

Fig. 3 is a schematic structural diagram of another embodiment of the temperature control integrated spraying system for reclaimed water fertilizer.

Icon: 1-a water storage system, 2-a water pumping device, 3-a water guide pipe, 4-a spray pipe, 5-an atomization spray head, 6-a control electric box, 7-a temperature sensor, 8-a shunt pipe, 9-a regional main pipe, 10-a regional branch pipe, 12-a filtering device, 13-a blow-off pipe, 14-a first electromagnetic valve, 15-a threaded passage, 16-a sealing gasket, 17-an atomization baffle, 18-a spray gap, 19-a connecting lantern ring, 20-a connecting rod, 21-a limiting part, 22-a recovery branch pipe, 23-a recovery main pipe and 24-a second electromagnetic valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example (b):

fig. 1-3 show a preferred embodiment of the liquid manure and pesticide temperature control integrated spraying system of the utility model, which comprises a water storage system 1, a water pumping device 2, a water guide pipe 3, a spraying pipe 4, an atomizing nozzle 5, a control electric box 6 and a temperature sensor 7, wherein the temperature sensor 7 is used for sensing and monitoring the ambient temperature around the planting area, the temperature sensor 7 is in signal connection with the control electric box 6 through a data transmission line, meanwhile, the control electric box 6 is in signal connection with the water pumping device 2 through a data transmission line, the water pumping device 2 is arranged on the water guide pipe 3, one end of the water guide pipe 3 extends to the bottom of the water storage system 1, the other end of the water guide pipe 3 is connected with the water inlet end of the spray pipe 4, the water outlet end of the spray pipe 4 is connected with the atomizing nozzle 5, and the water pumping device 2 and the spray pipe 4 are sequentially connected with the water guide pipe 3 along the water conveying direction of the water guide pipe 3. Water is pumped by the water pumping device 2, water in the water storage system 1 is pumped into the spraying pipe 4 along the water guide pipe 3 and then is sprayed out from the atomizing nozzle 5 in an atomized water mode, and comprehensive and uniform irrigation is achieved. Meanwhile, when the temperature sensor 7 senses that the temperature of the surrounding environment is too high, the control electric box 6 can open the water pumping device 2 by signals transmitted to the control electric box 6 by the temperature sensor 7, so that atomized spraying is formed, and the surrounding planting environment is cooled; when the temperature sensor 7 senses that the ambient temperature is too low, the temperature sensor 7 transmits a signal to the control electric box 6, so that the control electric box 6 can open the water pumping device 2, atomized spraying is formed, and frost of the planted plants is avoided; and when the artificial discovery planting environment humidity is not enough or moisture is not enough, can control the work of pumping device 2 through manual operation control electronic box 6 to realize atomizing and spray irrigation.

The utility model discloses an among other embodiments, can also all be provided with a plurality of atomizer 5 on each shower 4, a plurality of atomizer 5 vertical distribution on shower 4, be the high difference of each atomizer 5 promptly, set up like this and to make each shower 4 have a plurality of atomizer 5 to go out water, can avoid the leaf of top to shelter from the atomizing water droplet and influence the irrigation to the leaf of below.

As shown in fig. 1, a plurality of branch pipes 8 are arranged on the water conduit 3 in a communication manner along the water delivery direction, one end of each branch pipe 8 is communicated with the side wall of the water conduit 3, the other end of each branch pipe 8 is communicated with an area main pipe 9, a plurality of area branch pipes 10 are arranged on the area main pipe 9 in a communication manner along the water delivery direction, and the shower pipes 4 are communicated with the area branch pipes 10. Thereby shunt through shunt tubes 8, in order to realize that the area of difference shunts irrigation, can realize the irrigation management respectively to the planting region in different districts through shunt tubes 8, it is very convenient, the regional person in charge 9 on shunt tubes 8 sets up along the length direction of planting regional edge, and regional minute pipe 10 will set up in planting the district, and set up along the direction in planting the area, and then utilize regional person in charge 9 and regional minute pipe 10 to plant the region of difference and plant the area and carry out the even branch irrigation.

All be provided with first solenoid valve 14 on each shunt tubes 8, first solenoid valve 14 is used for controlling whether shunt tubes 8 switch on to first solenoid valve 14 and control electronic box 6 signal connection can carry out solitary atomizing to spray to different planting regions through the control of first solenoid valve 14, can play the effect of water conservation. The spraying pipes 4 are arranged to be more than two and are evenly distributed along the water conveying direction of the regional branch pipes 10, and each spraying pipe 4 is vertically arranged on the regional branch pipe 10. And then the atomizing nozzle 5 for discharging water is positioned at a higher position, so that better atomizing and spraying are more convenient. The spray pipe 4 can be fixed in an auxiliary manner by arranging a fixed upright post, and the fixed upright post fixed to the ground and the spray pipe 4 are bound with each other, so that the stable placement of the spray pipe 4 is ensured; the utility model discloses an in other embodiments, can also be pre-buried with the lower extreme of regional branch pipe 10 and shower 4 to make shower 4 can stably place.

Still be equipped with filter equipment 12 on aqueduct 3, filter equipment 12 sets up between pumping device 2 and first shunt tubes 8, filter equipment 12's lower extreme is equipped with the drain, the drain is connected with blow off pipe 13, in pumping device 2 during operation, can be with the water in the water storage system 1 will follow aqueduct 3 circulation under pumping device 2's effect, pass through and filter water through filter equipment 12, can avoid aquatic impurity too much and make hou mian shunt tubes 8, the region is responsible for 9, regional branch pipe 10 and shower 4 etc. block up, the sewage of crossing out will be followed the drain and discharged, clean clear water just can circulate in proper order and advance shunt tubes 8, the region is responsible for 9, in regional branch pipe 10 and the shower 4, and flow from shower 4 and irrigate by atomizing, and then make the atomizing watering more even.

The regional main pipes 9 are all communicated with a recovery branch pipe 22, the recovery branch pipes 22 are all communicated with a recovery main pipe 23, the recovery main pipe 23 is communicated with the water storage system 1, each recovery branch pipe 22 is provided with a second electromagnetic valve 24 for controlling whether the recovery branch pipe 22 is communicated, and the second electromagnetic valve 24 is in signal connection with the control electric box 6. The water in the main area pipe 9 and the branch area pipe 10 of each planting area is recovered through the recovery branch pipe 22 and the recovery main pipe 23, when the recovery is needed, the first electromagnetic valve 14 is closed, the second electromagnetic valve 24 is opened, and the water is pumped through the operation of the water pump by arranging the water pump on the recovery main pipe 23, so that the recovery of the water in the main area pipe 9 and the branch area pipe 10 is realized.

The water storage system 1 is a water tank, the water pumping device 2 is a water pump, the temperature sensor 7, the filtering device 12, the control electronic box 6, the first electromagnetic valve 14 and the second electromagnetic valve 24 are commercially available devices, the control electronic box 6 is a control electronic box 6 with a PLC program, and specifically, the first electromagnetic valve 14 and the second electromagnetic valve 24 are valves manufactured by sutong automatic control valve limited.

The water inlet end of the atomizing nozzle 5 is communicated with a threaded passage 15, the threaded passage 15 is communicated with the spray pipe 4, a sealing washer 16 is arranged at the joint of the threaded passage 15 and the spray pipe 4, an atomizing baffle 17 is arranged at the water outlet end of the atomizing nozzle 5, the atomizing baffle 17 is right opposite to the water outlet of the atomizing nozzle 5, a spray gap 18 is reserved between the atomizing baffle 17 and the water outlet, an internal thread is arranged at the top of the spray pipe 4 and forms threaded connection with the external thread of the threaded passage 15 through the internal thread, so that stable connection between the spray pipe 4 and the atomizing nozzle 5 is realized, the sealing washer 16 is arranged at the joint of the threaded passage 15 and the spray pipe 4, so that good sealing is ensured, the occurrence of water leakage at the joint is avoided, water in the spray pipe 4 flows into the atomizing nozzle 5 along the threaded passage 15 and is sprayed out from the water outlet of the atomizing nozzle, because the atomizing baffle is just opposite to the water outlet of the atomizing nozzle 5, the sprayed water can be sprayed on the atomizing baffle, and when the water is sprayed on the atomizing baffle, the water can be scattered, so that foggy water drops are formed, and the watering is convenient.

The atomizing nozzle 5 is provided with a connecting sleeve ring 19, the connecting sleeve ring 19 is provided with a connecting rod 20, and the connecting rod 20 is connected with the atomizing baffle 17 to realize the stability of the position of the atomizing baffle 17. Wherein the connecting rod 20 includes arc portion and vertical portion, and the one end of arc portion links to each other with the connection lantern ring 19, and the other end setting is at the offside of the delivery port of atomizer 5 to the upper end of vertical portion links to each other with the other end of arc portion, and the lower extreme of vertical portion links to each other with the upside of atomizing separation blade 17. The outer wall of the atomizing nozzle 5 is also provided with a limiting part 21, the limiting part 21 and the atomizing nozzle 5 are integrally formed, the limiting part 21 is arranged above the connecting sleeve ring 19, the connecting sleeve ring 19 is limited by the limiting part 21, and the connecting sleeve ring 19 is prevented from being flushed out of the atomizing nozzle 5 by water impact to affect atomizing irrigation.

The utility model is particularly suitable for the planting of fruit trees such as oranges, the sun is big in 8 months, the temperature is too high, the oranges are easy to be sunburned and scalded, the atomization spraying is carried out by utilizing the system about 9 o' clock at night, and the atomization spraying is carried out until the surfaces of the oranges keep moisture, thus preventing sunburn; the anti-frost is mainly to spray water at night, and the water spraying time is between 1 and 2 points in the early morning.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (10)

1. The utility model provides a liquid manure medicine control by temperature change integration sprinkling system, includes water storage system (1), pumping device (2), aqueduct (3), shower (4) and atomizer (5), its characterized in that: still including control electronic box (6) and temperature-sensing ware (7) that are used for monitoring ambient temperature, temperature-sensing ware (7) with control electronic box (6) signal connection, control electronic box (6) with pumping device (2) signal connection, aqueduct (3) with water storage system (1) links to each other, pumping device (2) and shower (4) along the water delivery direction of aqueduct (3) in proper order with aqueduct (3) link to each other, the water outlet end of shower (4) links to each other with atomizer (5).

2. The water-fertilizer-pesticide temperature-control integrated spraying system of claim 1, which is characterized in that: a plurality of shunt tubes (8) are communicated and arranged on the water guide pipe (3) along the water conveying direction, a regional main pipe (9) is communicated and arranged at the other end of each shunt tube (8), a plurality of regional branch pipes (10) are communicated and arranged on the regional main pipe (9) along the water conveying direction, and the spray pipes (4) are communicated with the regional branch pipes (10).

3. The water fertilizer and pesticide temperature control integrated spraying system of claim 2, characterized in that: each shunt tube (8) is provided with a first electromagnetic valve (14) for controlling whether the shunt tube (8) is conducted, and the first electromagnetic valve (14) is in signal connection with the control electric box (6).

4. The water fertilizer and pesticide temperature control integrated spraying system of claim 2, characterized in that: the water guide pipe (3) is also provided with a filtering device (12), and the filtering device (12) is arranged between the water pumping device (2) and the first shunt pipe (8).

5. The water-fertilizer-pesticide temperature-control integrated spraying system of claim 4, characterized in that: the lower end of the filtering device (12) is provided with a sewage draining outlet which is communicated with a sewage draining pipe (13).

6. The water fertilizer and pesticide temperature control integrated spraying system of claim 2, characterized in that: the spraying pipes (4) are arranged to be more than two and are uniformly distributed along the water conveying direction of the regional branch pipes (10), and each spraying pipe (4) is vertically arranged on the regional branch pipe (10).

7. The water fertilizer and pesticide temperature control integrated spraying system of claim 2, characterized in that: the regional main pipe (9) is provided with a recovery branch pipe (22) in a communicated manner, the recovery branch pipe (22) is communicated to a recovery main pipe (23), and the recovery main pipe (23) is communicated with the water storage system (1).

8. The water-fertilizer-pesticide temperature-control integrated spraying system of claim 7, characterized in that: each recovery branch pipe (22) is provided with a second electromagnetic valve (24) for controlling whether the recovery branch pipe (22) is conducted or not, and the second electromagnetic valve (24) is in signal connection with the control electric box (6).

9. The water-fertilizer-pesticide temperature-control integrated spraying system of claim 1, which is characterized in that: the end intercommunication of intaking of atomizer (5) is equipped with screw thread passageway (15), screw thread passageway (15) with shower (4) are linked together, and screw thread passageway (15) are equipped with seal ring (16) with the junction of shower (4), the play water end of atomizer (5) is equipped with atomizing separation blade (17), atomizing separation blade (17) are just to the delivery port of atomizer (5) to it is equipped with spray clearance (18) to leave between atomizing separation blade (17) and the delivery port.

10. The water fertilizer and pesticide temperature control integrated spraying system of claim 9, characterized in that: be equipped with on atomizer (5) and connect lantern ring (19), it is equipped with connecting rod (20) to connect lantern ring (19), connecting rod (20) with atomizing separation blade (17) link to each other.

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