CN216254420U - Water-saving irrigation system for garden greenbelt - Google Patents
Water-saving irrigation system for garden greenbelt Download PDFInfo
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- CN216254420U CN216254420U CN202122861262.5U CN202122861262U CN216254420U CN 216254420 U CN216254420 U CN 216254420U CN 202122861262 U CN202122861262 U CN 202122861262U CN 216254420 U CN216254420 U CN 216254420U
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Abstract
The utility model belongs to the technical field of gardens, and provides a water-saving irrigation system for a garden green land, which comprises: the main water pipes are distributed in vegetation of garden greenbelts; the rotary spray head is movably connected to the main water pipe and is used for spraying vegetation to be irrigated; the water delivery mechanism is connected to one side of the bottom end of the rotary spray head, and the other end of the water delivery mechanism is communicated with one side of the main water pipe and used for delivering water into the rotary spray head; and the moving mechanism is connected to the other side of the bottom end of the rotary spray head and used for controlling and driving the rotary spray head to move on the main water pipe, and comprises a sliding structure and a driving structure, and the sliding structure is respectively connected with the rotary spray head and the main water pipe. The utility model has the advantages that: the resource is saved, the automatic operation is realized, the spraying accuracy is high, and the effect is good.
Description
Technical Field
The utility model belongs to the technical field of gardens, and particularly relates to a water-saving irrigation system for a garden greenbelt.
Background
Present gardens greenery patches is when maintaining, because the vegetation of planting is numerous, need frequent irrigation, general irrigation equipment, lay the water pipe in gardens ground, then install a plurality of spray gun isotructures on the water pipe, when needing to irrigate, to water delivery in the water pipe, then outwards to be planted through spray gun and sprayed, this kind of irrigation mode, at first, when needing to irrigate local vegetation, because spray gun's rigidity, very difficult accurate vegetation to the required position sprays, if open spray gun too much, can cause the waste of water resource again, to this need design an irrigation system that can solve above-mentioned problem.
SUMMERY OF THE UTILITY MODEL
The embodiment of the utility model aims to provide a water-saving irrigation system for garden greenbelts, and aims to solve the problems.
The utility model is realized in this way, the structure diagram of the garden green land water-saving irrigation system includes: the main water pipe is distributed in vegetation in garden greenbelts, a rotary spray head is movably connected to the main water pipe and used for spraying vegetation to be irrigated, a water delivery mechanism and a moving mechanism are respectively connected to two sides of the bottom end of the rotary spray head and communicated with one side of the main water pipe and used for delivering water to the rotary spray head, the moving mechanism is used for controlling and driving the rotary spray head to move on the main water pipe and comprises a sliding structure and a driving structure, the sliding structure is respectively connected with the rotary spray head and the main water pipe, the rotary spray head is connected to the main water pipe in a sliding mode, and meanwhile the driving structure is used for driving the sliding structure to move;
wherein, rotatory nozzle passes through sliding construction sliding connection on main water pipe, then communicates rotatory nozzle and main water pipe through conveying mechanism, and when using, start drive structure control sliding construction and drive rotatory nozzle and arrange main water pipe in and remove, utilize water delivery among the water delivery mechanism case rotatory nozzle simultaneously, realize that rotatory nozzle accurately sprays the function of irrigating to the preparation of required position.
According to the garden green land water-saving irrigation system, the rotary spray head which is automatically controlled to move is arranged on the main water pipe, and the communicating valve head and the communicating valve port which are automatically communicated with water supply are arranged, so that vegetation at any position can be accurately and efficiently sprayed, water resources are saved while quick irrigation is realized, and the automation degree is improved.
Drawings
Fig. 1 is a schematic structural view of a garden green space water-saving irrigation system.
Fig. 2 is a schematic top view of a main water pipe in the garden green space water-saving irrigation system.
Fig. 3 is an enlarged schematic structural diagram of a1 in fig. 1.
FIG. 4 is a schematic view of a connection structure of a communication valve head and a communication valve port in the garden green land water-saving irrigation system;
in the drawings: the device comprises a main water pipe 10, an installation cone 11, an installation block 12, a communication valve port 13, a slide rail 14, an installation rod 15, a branch water pipe 16, a communication valve head 17, an air cylinder 18, a piston rod 19, a rotary spray head 20, a servo motor 21, a straight gear 22, a rack 23, a slide block 24, a valve sleeve 25, a telescopic cylinder 26, a spring 27, a water outlet 28, a water outlet mesh 29, a pressing cylinder 30, a sealing plate 31 and a sealing ring 32.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further 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 utility model and are not intended to limit the utility model.
Specific implementations of the present invention are described in detail below with reference to specific embodiments.
As shown in fig. 1, a structure diagram of a garden green space water-saving irrigation system provided by an embodiment of the present invention includes: the main water pipe 10 is distributed in vegetation in garden greenbelts, the main water pipe 10 is movably connected with a rotary spray head 20, the rotary spray head 20 is used for spraying vegetation to be watered, two sides of the bottom end of the rotary spray head 20 are respectively connected with a water delivery mechanism and a moving mechanism, the water delivery mechanism is communicated with one side of the main water pipe 10 and is used for delivering water into the rotary spray head 20, the moving mechanism is used for controlling and driving the rotary spray head 20 to move on the main water pipe 10, the moving mechanism comprises a sliding structure and a driving structure, the sliding structure is respectively connected with the rotary spray head 20 and the main water pipe 10, the rotary spray head 20 is connected onto the main water pipe 10 in a sliding mode, and meanwhile the driving structure is used for driving the sliding structure to move;
wherein, rotatory nozzle 20 passes through sliding construction sliding connection on main water pipe 10, then communicates rotatory nozzle 20 and main water pipe 10 through conveying mechanism, and when using, start drive structure control sliding construction and drive rotatory nozzle 20 and place main water pipe 10 in and remove, utilize water delivery mechanism case rotatory nozzle 20 in water delivery mechanism case simultaneously and water delivery, realize rotatory nozzle 20 and accurately spray the function of irrigating to the preparation of required position.
In the embodiment of the present invention, the mounting cone 11 is fixedly mounted at the bottom of the main water pipe 10, the main water pipe 10 is stably mounted in the ground soil around the vegetation through the mounting cone 11, and the main water pipe 10 is provided with a hard pipe structure, so that the rotary nozzle 20 mounted and moved on the main water pipe 10 can stably move.
Referring to fig. 2 and 3, in an example of the present invention, the sliding structure includes an installation block 12 fixed on a side wall of the main water pipe 10, the installation block 12 is provided with a sliding rail 14 along a central axis of the main water pipe 10, the sliding rail 14 is connected with a sliding block 24 in a sliding manner, an installation rod 15 of an L-shaped structure is fixedly installed outside the sliding block 24, a telescopic assembly is installed at a top end of the installation rod 15 in a direction toward a central line of the main water pipe 10, the rotary nozzle 20 is arranged at an end of the telescopic assembly, and the rotary nozzle 20 slides in the sliding rail 14 through the sliding block 24, and then through connection between the installation rod 15 and the rotary nozzle 20, a function of adjusting a position of the rotary nozzle 20 along with the sliding block 24 in a sliding manner is realized;
the drive structure is including fixing rack 23 along the distribution of main water pipe 10 axis at main water pipe 10 positive top, and rack 23 top meshing rotation is connected with straight-toothed gear 22, and straight-toothed gear 22 installs the servo motor 21 on installation pole 15 towards one side fixedly connected with of installation pole 15, and it is rotatory through starting servo motor 21 drive straight-toothed gear 22, then through the meshing of straight-toothed gear 22 with rack 23 to drive sliding construction operation, drive rotatory nozzle 20 and remove.
As a preferred embodiment of the utility model, the water delivery mechanism comprises communicating valve ports 13 uniformly arranged on the main water pipe 10 at the opposite side of the slide rail 14 and uniformly distributed along the axis of the main water pipe 10, the distance between the communicating valve ports 13 is determined according to the actual need of spraying vegetation and the spraying range of the rotary sprayer 20, when the rotary sprayer 20 moves to each position, the water can be supplied to the rotary sprayer 20 through the water delivery mechanism, a communicating valve head 17 is connected with the outer side of the communicating valve port 13 in a pressing type, the tail end of the communicating valve head 17 is connected with a branch water pipe 16 with an L-shaped structure, the top end of the branch water pipe 16 is connected with the end of the telescopic assembly, the bottom end of the rotary sprayer 20 is communicated with the top of the branch water pipe 16, the water in the main water pipe 10 is input into the rotary sprayer 20 through the branch water pipe 16, and the branch water pipe 16 is driven to move transversely through the telescopic assembly, the communicating valve head 17 at the bottom end of the branch water pipe 16 is controlled to be in pressing contact with the communicating valve ports 13, the separation pressure relief is disconnected, and the automatic water delivery between the main water pipe 10 and the rotary spray head 20 is realized;
the communicating valve port 13 is set to be an automatic water-cut-off structure, and when no pressure is applied to the communicating valve port 13, the outward leakage of water is prevented by the outward pressure of water in the communicating valve port 13.
Referring to fig. 4, as a preferred embodiment of the present invention, the communicating valve port 13 includes a valve sleeve 25 disposed inside the wall of the main water pipe 10 and having an open end, a guide post having a T-shaped structure is fixedly mounted at the center of the valve sleeve 25, a water outlet 28 is formed at the valve sleeve 25 at the bottom end of the guide post and is communicated with the interior of the main water pipe 10, a telescopic cylinder 26 is sleeved in the valve sleeve 25 at the outer side of the guide post, a plurality of springs 27 having bottom ends fixed on the inner wall of the valve sleeve 25 are elastically connected to the bottom wall of the telescopic cylinder 26 at equal intervals in a ring shape, a water outlet mesh 29 is formed at the top edge of the guide post, water entering the valve sleeve 25 through the water outlet 28 can be discharged outwards through the water outlet mesh 29, a ring of sealing plate 31 is fixedly mounted at the top of the telescopic cylinder 26, the sealing plate 31 is connected with the inner side wall of the valve sleeve 25 in a sealing and sliding manner, and the top of the sealing plate 31 is connected with the water outlet mesh 29 in a contacting manner, a layer of sealing ring 32 is laid on the top surface of the sealing plate 31, and the sealing plate 31 is pushed upwards to be in close contact with the bottoms of the water outlet mesh holes 29 by the pressure of the bottom spring 27 and the pressure of water, so that the water in the valve sleeve 25 is prevented from flowing outwards;
the communicating valve head 17 comprises a pressing cylinder 30 in press contact with the top of a sealing plate 31, the inner side and the outer side of the pressing cylinder 30 slide in a sealing manner with the water outlet mesh 29 and the valve sleeve 25 to ensure that water cannot flow out through a connecting gap between the pressing cylinder 30 and the water outlet mesh 29 and between the pressing cylinder 30 and the valve sleeve 25, one end of the pressing cylinder 30, which is far away from the valve sleeve 25, is communicated with the branch water pipe 16, the pressing cylinder 30 is inserted into the top of the sealing plate 31, then the pressing cylinder 30 is driven to press the sealing plate 31 under the driving of a telescopic assembly, the spring 27 is compressed at the moment, then water is input into the valve sleeve 25 through the water outlet 28, and after the sealing plate 31 is separated from the water outlet mesh 29, the water is input into the pressing cylinder 30 along the water outlet mesh 29.
In a preferred embodiment of the present invention, the telescopic assembly includes a cylinder 18 fixed on the mounting rod 15, a piston rod 19 is connected to an end of the cylinder 18, an end of the piston rod 19 is connected to an end of the branch pipe 16 for controlling the branch pipe 16 to move laterally, and the branch pipe 16 is a rigid pipe body and is convenient to move along with the piston rod 19.
When the garden green land water-saving irrigation system is used, firstly, the main water pipe 10 is fixed in soil near vegetation according to a required distribution track through the mounting cone 11, then the mounting rod 15 is connected on the slide rail 14 in a sliding way through the slide block 24, meanwhile, the straight gear 22 is driven to be meshed with the rack 23 and rotate in a way that the servo motor 21 drives the straight gear 22, the mounting rod 15 is controlled to move on the main water pipe 10, then the rotary spray head 20 is fixedly connected to the end part of the piston rod 19, after the rotary spray head 20 is controlled to move to a required position, the piston rod 19 is driven to stretch and retract through the starting air cylinder 18, the communicating valve head 17 at the bottom end of the branch water pipe 16 is driven to be in press contact with the communicating valve port 13, the pressure cylinder 30 is used for applying pressure to the sealing plate 31, and then water entering the interior of the valve sleeve 25 is input into the pressure cylinder 30 through the water outlet mesh 29, then, under the communication of the branch water pipe 16, the water is input into the rotary nozzle 20 and sprayed outwards, when the position needs to be shifted, the cylinder 18 is started again to drive the pressing cylinder 30 to be separated from the sealing plate 31, under the water pressure and the elasticity of the spring 27, the sealing ring 32 on the top of the sealing plate 31 is tightly matched with the bottom of the water outlet mesh 29 to prevent the water in the valve sleeve 25 from flowing out, then the communication valve head 17 is separated from the communication valve port 13, and after the position is shifted to the next position, the operation is repeated again, and the vegetation can be sprayed.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.
Claims (8)
1. Gardens greenery patches water-saving irrigation system, its characterized in that gardens greenery patches water-saving irrigation system includes: the main water pipes are distributed in vegetation of garden greenbelts;
the rotary spray head is movably connected to the main water pipe and is used for spraying vegetation to be irrigated;
the water delivery mechanism is connected to one side of the bottom end of the rotary spray head, and the other end of the water delivery mechanism is communicated with one side of the main water pipe and used for delivering water into the rotary spray head;
and the moving mechanism is connected to the other side of the bottom end of the rotary spray head and used for controlling and driving the rotary spray head to move on the main water pipe, and comprises a sliding structure and a driving structure, and the sliding structure is respectively connected with the rotary spray head and the main water pipe.
2. The garden green space water-saving irrigation system as defined in claim 1, wherein a mounting cone is fixedly mounted at the bottom of the main water pipe, and the main water pipe is provided with a hard pipe structure.
3. The garden green space water-saving irrigation system as defined in claim 1, wherein the sliding structure comprises a mounting block fixed on the side wall of the main water pipe, the mounting block is provided with a sliding rail along the central axis of the main water pipe, the sliding rail is connected with a sliding block in a sliding manner, the outer part of the sliding block is fixedly provided with a mounting rod of an L-shaped structure, the top end of the mounting rod is provided with a telescopic component towards the central line of the main water pipe, and the rotary nozzle is arranged at the end of the telescopic component.
4. The garden green space water-saving irrigation system as defined in claim 3, wherein the telescopic assembly comprises a cylinder fixed on the mounting rod, the end of the cylinder is connected with a piston rod, and the end of the piston rod is connected with the end of the branch pipe.
5. The garden green space water-saving irrigation system as defined in claim 1, wherein the driving structure comprises a rack fixed on the top of the main water pipe and distributed along the axis of the main water pipe, the top of the rack is engaged and rotatably connected with a spur gear, and one side of the spur gear facing the mounting rod is fixedly connected with a servo motor mounted on the mounting rod.
6. The garden green land water-saving irrigation system according to claim 1, wherein the water delivery mechanism comprises communicating valve ports uniformly arranged on the main water pipes on opposite sides of the slide rail and uniformly distributed along the axis of the main water pipe, the outside of the communicating valve ports is in press type communication with a communicating valve head, the end of the communicating valve head is communicated with a branch water pipe with an L-shaped structure, the top end of the branch water pipe is connected to the end of the telescopic assembly, and the bottom end of the rotary spray head is communicated with the top of the branch water pipe.
7. The garden greenbelt water-saving irrigation system as claimed in claim 6, wherein the communicating valve port is configured as an automatic water cut-off structure, the communicating valve port comprises a valve sleeve with an open end disposed inside the wall of the main water pipe, a guide pillar with a T-shaped structure is fixedly mounted at the center of the valve sleeve, a water outlet communicated with the inside of the main water pipe is formed in the valve sleeve at the bottom end of the guide pillar, a telescopic cylinder is sleeved in the valve sleeve outside the guide pillar, a plurality of springs with bottom ends fixed on the inner wall of the valve sleeve are elastically connected to the bottom wall of the telescopic cylinder at equal intervals in an annular shape, a water outlet hole is formed in the top edge of the guide pillar, a circle of sealing plate is fixedly mounted at the top of the telescopic cylinder, the sealing plate is connected with the inner side wall of the valve sleeve in a sealing and sliding manner, the top of the sealing plate is in contact with the water outlet hole, and a layer of sealing ring is laid on the top surface of the sealing plate.
8. The garden green space water-saving irrigation system as defined in claim 6, wherein the communicating valve head comprises a pressing cylinder in press-contact with the top of the sealing plate, the inner and outer sides of the pressing cylinder and the water outlet mesh and the valve sleeve slide in a sealing manner, and one end of the pressing cylinder, which is far away from the valve sleeve, is communicated with the branch pipe.
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CN202122861262.5U CN216254420U (en) | 2021-11-22 | 2021-11-22 | Water-saving irrigation system for garden greenbelt |
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CN202122861262.5U CN216254420U (en) | 2021-11-22 | 2021-11-22 | Water-saving irrigation system for garden greenbelt |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115316224A (en) * | 2022-05-16 | 2022-11-11 | 苏州三润景观工程有限公司 | Green automatic irrigation system of planting based on SSM |
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2021
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115316224A (en) * | 2022-05-16 | 2022-11-11 | 苏州三润景观工程有限公司 | Green automatic irrigation system of planting based on SSM |
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