CN217012133U - Water-saving irrigation device for land planning design - Google Patents

Abstract

The utility model provides a water-saving irrigation device for land planning design, which relates to the technical field of irrigation devices and comprises a base component and an irrigation mechanism, wherein a water storage component is arranged above one end of the base component, and a reversing component assembled by bolts is arranged at one end of the water storage component; the utility model mainly utilizes a plurality of groups of spherical structures which are distributed in parallel and arranged in the flow resisting pipeline, and a plurality of groups of spherical plugs with porous structures are arranged on the spheres, so that when a water body flows into the flow resisting pipeline, the resistance is higher, the circulation time can be greatly prolonged, the flow speed and the flow of the water body can reach a more gentle state, the operation time of the flow resisting pipeline can be prolonged under the action of a pump body, the water-saving effect is realized, and the top side of the flow resisting pipeline is formed by two groups of nozzles with rotating functions, and the effect of adjusting the jet flow can be realized due to different nozzle numbers, so that the irrigation quality is improved.

Description

Water-saving irrigation device for land planning design

Technical Field

The utility model relates to the technical field of irrigation devices, in particular to a water-saving irrigation device for land planning design.

Background

Irrigation mainly refers to irrigation operation carried out on agricultural cultivation areas, and irrigation modes can be generally divided into traditional ground irrigation, common spray irrigation and micro-irrigation.

The utility model provides a water-saving irrigation device for land planning design, which solves the problems in the prior art.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a water-saving irrigation device for land planning design, which mainly utilizes a plurality of groups of spherical structures distributed in parallel in a flow-resisting pipeline, and a plurality of groups of spherical plugs with porous structures are arranged on the spheres, so that when a water body flows into the flow-resisting pipeline, the water-saving irrigation device has larger resistance, can greatly prolong the circulation time, and enables the flow velocity and the flow of the water body to reach a more gentle state, so that the operation time of the flow-resisting pipeline can be prolonged under the action of a pump body, thereby realizing the effect of saving water.

In order to realize the purpose of the utility model, the utility model is realized by the following technical scheme: a water-saving irrigation device for land planning design comprises a base component and an irrigation mechanism, wherein a water storage component is arranged above one end of the base component, a reversing component assembled by bolts is arranged at one end of the water storage component, and a sleeved irrigation mechanism is arranged at one end of the reversing component;

irrigate mechanism includes third outlet pipe, branch side pipe, choke pipe, porous ball stopper, atomizing nozzle, first push pipe, electric rotating multi-jet nozzle, second push pipe and electric rotating single jet nozzle, the third outlet pipe cup joints the one end of switching-over subassembly, the both sides of third outlet pipe are provided with branch side pipe, just the one end of dividing the side pipe has cup jointed choke pipe, choke pipe's inboard is provided with multiunit parallel distribution's porous ball stopper, choke pipe's below is provided with the atomizing nozzle that the equidistance distributes, choke pipe's one end top sets up first push pipe and the second push pipe that is parallel to each other, the top side of first push pipe is provided with swivelling joint's electric rotating multi-jet nozzle, the top side of second push pipe is provided with swivelling joint's electric rotating single jet nozzle.

In a further improvement, the multi-hole ball plug is in a multi-hole ball structure, the first jacking pipe and the second jacking pipe are parallel to each other, the electric rotating multi-nozzle is provided with six groups of nozzles, and the electric rotating single nozzle is provided with one group of nozzles.

The base component comprises a bolt base plate, a hoisting ring, a steel bottom plate and a bracket, wherein the hoisting ring is arranged on the top side of the bolt base plate, the steel bottom plate is arranged on the inner side of the hoisting ring, and the bracket assembled by bolts is arranged on the top side of the steel bottom plate.

The improved water storage assembly comprises a water storage tank, a supply port, a control panel, a pump body and a first motor, wherein the water storage tank is arranged above one end of the bracket, the top side of the water storage tank is provided with the supply port, one side of the water storage tank is provided with the control panel, the other side of the water storage tank is provided with the pump body, and the pump body is connected with the output end of the first motor.

The improved structure is characterized in that the reversing assembly comprises a flange pipe sleeve, a first water outlet pipe, a check valve body, an upper pipe, a cylinder, a push rod, a rotary plug, a second water outlet pipe and a nozzle, the flange pipe sleeve is connected with one end of the pump body through a bolt, one side of the flange pipe sleeve is connected with the check valve body through the first water outlet pipe, the top side of one end of the check valve body is provided with the upper pipe, the top side of the upper pipe is provided with the cylinder, the output end of the cylinder is connected with the push rod, and one end of the push rod is provided with the rotary plug which is connected in a rotating mode.

The improved structure is characterized in that a second water outlet pipe is arranged on one side of the upper pipe, a nozzle is arranged at one end of the second water outlet pipe, the one-way valve body has a three-way structure, and the rotary plug has a leakage pipe structure.

The beneficial effects of the utility model are as follows:

the utility model mainly utilizes a plurality of groups of spherical structures which are distributed in parallel and arranged in the flow resisting pipeline, and a plurality of groups of spherical plugs with porous structures are arranged on the spheres, so that when a water body flows into the flow resisting pipeline, the resistance is higher, the circulation time can be greatly prolonged, the flow speed and the flow of the water body can reach a more gentle state, the operation time of the flow resisting pipeline can be prolonged under the action of a pump body, the effect of saving water is realized, and the top side of the flow resisting pipeline is formed by two groups of nozzles with rotating functions, and the effect of adjusting the jet flow can be realized due to different nozzle numbers, so that the effect of improving the irrigation quality is realized.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side-view perspective of the present invention;

FIG. 3 is a schematic view of a check valve body of the present invention;

FIG. 4 is a schematic view of the structure of the choke tube and the porous ball plug of the present invention.

Wherein: 1. a base member; 101. a bolt base plate; 102. hoisting a ring; 103. a steel bottom plate; 104. a bracket; 2. a water storage assembly; 201. a water storage tank; 202. a supply port; 203. a control panel; 204. a pump body; 205. a first motor; 3. a reversing component; 301. a flange pipe sleeve; 302. a first water outlet pipe; 303. a check valve body; 304. feeding a pipe; 305. a cylinder; 306. a push rod; 307. a rotating plug; 308. a second water outlet pipe; 309. a spout; 4. an irrigation mechanism; 401. a third water outlet pipe; 402. side pipe separation; 403. a choke tube; 404. a porous ball plug; 405. an atomizing nozzle; 406. a first jacking pipe; 407. electrically rotating the multi-nozzle; 408. a second jacking pipe; 409. the single nozzle was rotated electrically.

Detailed Description

In order to further understand the present invention, the following detailed description will be made with reference to the following examples, which are only used for explaining the present invention and are not to be construed as limiting the scope of the present invention.

According to the drawings of fig. 1-4, the embodiment provides a water-saving irrigation device for land planning design, which comprises a base member 1 and an irrigation mechanism 4, wherein a water storage component 2 is arranged above one end of the base member 1, a reversing component 3 assembled by bolts is arranged at one end of the water storage component 2, and a sleeved irrigation mechanism 4 is arranged at one end of the reversing component 3;

the irrigation mechanism 4 comprises a third water outlet pipe 401, branch side pipes 402, a choke pipe 403, a porous ball plug 404, an atomizing nozzle 405, a first top pipe 406, an electric rotating multi-nozzle 407, a second top pipe 408 and an electric rotating single nozzle 409, wherein the third water outlet pipe 401 is sleeved at one end of the reversing assembly 3, the branch side pipes 402 are arranged on two sides of the third water outlet pipe 401, the choke pipe 403 is sleeved at one end of the branch side pipes 402, a plurality of groups of porous ball plugs 404 distributed in parallel are arranged on the inner side of the choke pipe 403, the atomizing nozzles 405 distributed equidistantly are arranged below the choke pipe 403, the first top pipe 406 and the second top pipe 408 which are parallel to each other are arranged above one end of the choke pipe 403, the electric rotating multi-nozzle 407 is arranged on the top side of the first top pipe 406, and the electric rotating single nozzle 409 is arranged on the top side of the second top pipe 408.

The porous ball plunger 404 has a porous spherical structure, the first top pipe 406 and the second top pipe 408 are parallel to each other, the electric rotary multi-nozzle 407 has six sets of nozzles, and the electric rotary single-nozzle 409 has one set of nozzles.

In this embodiment, when the water body flows into the branch pipe 402 through the side of the third outlet pipe 401, then the water body flows into the flow blocking pipe 403 at one end through the branch pipe 402, because the inner side of the flow blocking pipe 403 has a plurality of groups of porous ball plugs 404, and the porous ball plugs 404 are in a porous spherical structure, when the water body flows in, the water body can have a certain delay property, so as to prolong the time for discharging the water body, and achieve the effect of saving the water body, so that the water body is sprayed out through the atomizing nozzles 405 below the flow blocking pipe 403 to achieve the effect of irrigation, because the first top pipe 406 and the second top pipe 408 are parallel to each other, so that the electric rotating single nozzle 409 and the electric rotating multi-nozzle 407 are matched with each other, and the irrigation quality of the device is improved.

The base member 1 includes a bolt base plate 101, a hoisting ring 102, a steel bottom plate 103, and a bracket 104, the hoisting ring 102 is provided on the top side of the bolt base plate 101, the steel bottom plate 103 is provided on the inner side of the hoisting ring 102, and the bracket 104 for bolt assembly is provided on the top side of the steel bottom plate 103.

In this embodiment, first, the agricultural vehicle is bolted to the agricultural vehicle by using the bolt base plate 101 on the side of the steel base plate 103, and since the hoisting ring 102 is provided on the top side of the bolt base plate 101, hoisting by a crane is facilitated, and then the upper bracket 104 is bolted to the top side of the steel base plate 103.

The water storage assembly 2 comprises a water storage tank 201, a supply port 202, a control panel 203, a pump body 204 and a first motor 205, wherein the water storage tank 201 is arranged above one end of the bracket 104, the supply port 202 is arranged on the top side of the water storage tank 201, the control panel 203 is arranged on one side of the water storage tank 201, the pump body 204 is arranged on the other side of the water storage tank 201, and the pump body 204 is connected with an output end of the first motor 205.

In this embodiment, when bracket 104 bolted connection is in the top side of steel bottom plate 103, at the good water storage tank 201 of one end top fixed support of bracket 104 to utilize the supply mouth 202 on top side of water storage tank 201 to fill water with the inside of water storage tank 201, because one side of water storage tank 201 possesses control panel 203, in order to make things convenient for the user to operate and control, make first motor 205 output power drive pump body 204 operation, let pump body 204 extract the water among the water storage tank 201.

Reversing assembly 3 includes flange pipe sleeve 301, first outlet pipe 302, check valve body 303, upper tube 304, cylinder 305, push rod 306, rotatory stopper 307, second outlet pipe 308 and spout 309, flange pipe sleeve 301 bolted connection is in the one end of the pump body 204, one side of flange pipe sleeve 301 is connected with check valve body 303 through first outlet pipe 302, and the one end top side of check valve body 303 is provided with upper tube 304, the top side of upper tube 304 is provided with cylinder 305, the output of cylinder 305 is connected with push rod 306, the one end of push rod 306 is provided with swivelling joint's rotatory stopper 307.

In this embodiment, the pump body 204 drives the water to flow into the first water outlet pipe 302 through the flange pipe sleeve 301, so that the water in the first water outlet pipe 302 flows into the check valve body 303 through one end of the first water outlet pipe 302, because the check valve body 303 has a three-way structure, when the device stops operating, the rotary plug 307 at one end of the push rod 306 enables the leakage pipe of the rotary plug 307 to be back to one end of the first water outlet pipe 302, when a large amount of irrigation needs to be performed, the rotary plug 307 at one end of the push rod 306 is started to enable the leakage pipe of the rotary plug 307 to be directly opposite to one end of the first water outlet pipe 302, and the water flows into the second water outlet pipe 308 at one side of the upper pipe 304 through the rotary plug 307 and is ejected through the nozzle 309, so as to achieve the irrigation effect.

A second outlet pipe 308 is provided on one side of the upper pipe 304, a nozzle 309 is provided on one end of the second outlet pipe 308, the check valve body 303 has a three-way structure, and the rotary plug 307 has a leak pipe structure.

In this embodiment, when the water saving mode needs to be switched, the cylinder 305 is started to drive the push rod 306 to lift the rotating plug 307, and when the water reaches the inner side of the upper pipe 304, the water flows in through the third water outlet pipe 401 on one side of the check valve 303.

The working principle of the water-saving irrigation device for land planning design is as follows: firstly, on an agricultural carrier, a bolt base plate 101 on the side of a steel base plate 103 is connected to the agricultural carrier through a bolt, a hoisting ring 102 is arranged on the top side of the bolt base plate 101, so that a crane can hoist the agricultural carrier conveniently, then a bracket 104 is connected to the top side of the steel base plate 103 through a bolt, when the bracket 104 is connected to the top side of the steel base plate 103 through a bolt, a water storage tank 201 is fixedly supported above one end of the bracket 104, the water storage tank 201 is filled with water through a supply port 202 on the top side of the water storage tank 201, a control panel 203 is arranged on one side of the water storage tank 201, so that a user can conveniently operate and control the water storage tank 201, the pump body 204 is driven by the output power of a first motor 205 to drive the pump body 204 to operate, the pump body 204 pumps water in the water storage tank 201, the pump body 204 drives the water to flow into the first water outlet pipe 302 through a flange pipe sleeve 301, and then the water in the first water outlet pipe 302 flows into a one-way valve body 303 through one end of the first water outlet pipe 302, because the check valve 303 has a three-way structure, when the device stops operating, the rotating plug 307 at one end of the push rod 306 is used to make the leakage pipe of the rotating plug 307 back to one end of the first water outlet pipe 302, when a large amount of irrigation is needed, the rotating plug 307 at one end of the push rod 306 is started to make the leakage pipe of the rotating plug 307 directly face one end of the first water outlet pipe 302, so that the water flows into the second water outlet pipe 308 at one side of the upper pipe 304 through the rotating plug 307 and is sprayed out through the nozzle 309 to achieve the irrigation effect, when the water saving mode is needed, the air cylinder 305 is started to drive the push rod 306 to lift the rotating plug 307, when the water reaches the inner side of the upper pipe 304, the water flows in through the third water outlet pipe 401 at one side of the check valve 303, when the water flows into the branch pipe 402 through the side of the third water outlet pipe 401, then the water flows into the flow blocking pipe 403 at one end through the branch pipe 402, because the inner side of the flow blocking pipe 403 has multiple sets of porous ball plugs 404, and porous ball stopper 404 is the globular structure of porous for the water can possess certain delay when flowing in, in order to reach the time of extension water exhaust, reach the effect of water economy, the atomizing nozzle 405 that the water passed through choke pipe 403 below sprays out in order to reach the effect of irrigation like this, because first push pipe 406 is parallel to each other with second push pipe 408, make under the mutually supporting of electronic rotatory single nozzle 409 and electronic rotatory multinozzle 407, in order to promote the irrigation quality of equipment.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a water-saving irrigation device is used in design of land planning, includes base component (1) and irrigates mechanism (4), its characterized in that: a water storage component (2) is arranged above one end of the base component (1), a reversing component (3) assembled by bolts is arranged at one end of the water storage component (2), and a sleeved irrigation mechanism (4) is arranged at one end of the reversing component (3);

the irrigation mechanism (4) comprises a third water outlet pipe (401), branch side pipes (402), a flow blocking pipe (403), a porous ball plug (404), atomizing nozzles (405), a first top pipe (406), electric rotating multi-nozzles (407), a second top pipe (408) and an electric rotating single nozzle (409), wherein the third water outlet pipe (401) is sleeved at one end of the reversing assembly (3), the branch side pipes (402) are arranged at two sides of the third water outlet pipe (401), the flow blocking pipe (403) is sleeved at one end of the branch side pipes (402), a plurality of groups of porous ball plugs (404) distributed in parallel are arranged at the inner side of the flow blocking pipe (403), the atomizing nozzles (405) distributed at equal intervals are arranged below the flow blocking pipe (403), the first top pipe (406) and the second top pipe (408) which are parallel to each other are arranged above one end of the flow blocking pipe (403), and the electric rotating multi-nozzles (407) which are connected in a rotating manner are arranged at the top side of the first top pipe (406), the top side of the second top pipe (408) is provided with an electric rotating single nozzle (409) which is connected in a rotating way.

2. The water-saving irrigation device for land planning design according to claim 1, characterized in that: the multi-hole ball plug (404) is of a multi-hole ball structure, the first top pipe (406) and the second top pipe (408) are parallel to each other, the electric rotating multi-nozzle (407) is provided with six groups of nozzles, and the electric rotating single nozzle (409) is provided with one group of nozzles.

3. The water-saving irrigation device for land planning design according to claim 2, characterized in that: the base component (1) comprises a bolt base plate (101), a hoisting ring (102), a steel bottom plate (103) and a bracket (104), wherein the hoisting ring (102) is arranged on the top side of the bolt base plate (101), the steel bottom plate (103) is arranged on the inner side of the hoisting ring (102), and the bracket (104) assembled by bolts is arranged on the top side of the steel bottom plate (103).

4. The water-saving irrigation device for land planning design according to claim 1, characterized in that: the water storage assembly (2) comprises a water storage tank (201), a supply port (202), a control panel (203), a pump body (204) and a first motor (205), wherein the water storage tank (201) is arranged above one end of the bracket (104), the top side of the water storage tank (201) is provided with the supply port (202), one side of the water storage tank (201) is provided with the control panel (203), the other side of the water storage tank (201) is provided with the pump body (204), and the pump body (204) is connected with an output end of the first motor (205).

5. The water-saving irrigation device for land planning design according to claim 4, characterized in that: reversing assembly (3) include flange pipe box (301), first outlet pipe (302), check valve body (303), top tube (304), cylinder (305), push rod (306), rotatory stopper (307), second outlet pipe (308) and spout (309), flange pipe box (301) bolted connection is in the one end of the pump body (204), one side of flange pipe box (301) is connected with check valve body (303) through first outlet pipe (302), just the one end top side of check valve body (303) is provided with top tube (304), the top side of top tube (304) is provided with cylinder (305), the output of cylinder (305) is connected with push rod (306), the one end of push rod (306) is provided with swivelling joint's rotatory stopper (307).

6. The water-saving irrigation device for land planning design according to claim 5, wherein: a second water outlet pipe (308) is arranged on one side of the upper pipe (304), a nozzle (309) is arranged at one end of the second water outlet pipe (308), the one-way valve body (303) has a three-way structure, and the rotary plug (307) has a leakage pipe structure.

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