CN212414144U - Efficient and energy-saving garden irrigation device - Google Patents

Abstract

The utility model relates to an energy-efficient gardens irrigation equipment, including the stereoplasm water pipe, stereoplasm water pipe overcoat is equipped with a water storage section of thick bamboo, the bottom is provided with the bottom plate under the water storage section of thick bamboo, the stereoplasm water pipe lower extreme passes the bottom plate and stretches out, the water inlet of being connected with underground water pipe is seted up to stereoplasm water pipe lower extreme, the delivery port has been seted up to stereoplasm water pipe upper end, the subaerial mounting hole of having seted up, the vertical setting of stereoplasm water pipe is in the mounting hole, a water storage section of thick bamboo, stereoplasm water pipe and bottom plate enclose into the cavity that can impound, water storage section of thick bamboo and bottom plate sealing connection, the junction of stereoplasm water pipe and bottom. The utility model discloses a set up a water storage section of thick bamboo and vacuole formation outside the stereoplasm water pipe, set up the water outlet on a water storage section of thick bamboo, make the water in the cavity flow out in can following the apopore, have can directly guide the effect to the subsurface at plant rhizome place with irrigation water.

Description

Efficient and energy-saving garden irrigation device

Technical Field

The utility model belongs to the technical field of an irrigation equipment's technique and specifically relates to an energy-efficient gardens irrigation equipment is related to.

Background

Irrigation of gardens is a technical measure for supplementing soil moisture required by growth of garden plants so as to improve the growth conditions of garden plants. The soil moisture of garden greenbelts can be supplemented by different irrigation forms by using an artificial method or a mechanical method, and the moisture requirement of plants is met.

Application publication number is CN 1108040818A's patent document discloses a gardens irrigation equipment, including first barrel, second barrel and slide rail, second barrel level sets up and a plurality of first barrels of bottom along its length direction intercommunication, the side of second barrel is provided with the casing, the another side of casing and second barrel all is fixed with the slider, slider and slide rail sliding connection, the casing top is provided with the water tank, the water tank bottom is provided with first water pipe, first water pipe passes slider and horizontally second water pipe intercommunication, the second water pipe is vertical to be fixed in second barrel bottom through first pole and second pole, second water pipe bottom is provided with a plurality of vertical first shower nozzles along its length direction. The hydroenergy in the water tank can flow to first shower nozzle in through first water pipe and second water pipe, realizes the effect of irrigation plant.

However, in the above structure, the water flow for irrigation flows down from above the plant to above the plant and the ground, and cannot directly reach the ground surface under which the roots and stems of the plant are located, and a large amount of water is accumulated on the ground surface and evaporated, thereby causing water resource waste.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-efficient gardens irrigation equipment, it has can directly guide the effect to the subsurface at plant rhizome place with irrigation water.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides an energy-efficient gardens irrigation equipment, including the stereoplasm water pipe, stereoplasm water pipe overcoat is equipped with a water storage section of thick bamboo, bottom is provided with the bottom plate under the water storage section of thick bamboo, the diameter of bottom plate equals the diameter of a water storage section of thick bamboo, the stereoplasm water pipe lower extreme passes the bottom plate and stretches out, the water inlet with water piping connection is seted up to stereoplasm water pipe lower extreme, the delivery port has been seted up to the stereoplasm water pipe upper end, the subaerial mounting hole of having seted up, the stereoplasm water pipe is vertical to be buried underground in the mounting hole, delivery port and ground parallel and level, a water storage section of thick bamboo, the cavity that can impound is enclosed into to stereoplasm water pipe and bottom plate, water storage section of thick bamboo and bottom plate sealing connection, the junction of.

Through adopting above-mentioned technical scheme, through establishing a water storage cylinder at stereoplasm water pipe overcoat, at water storage cylinder bottom sealing connection bottom plate, make the cavity can collect and save the ponding that flows in from subaerial, through set up a plurality of apopores on water storage cylinder, make the ponding in the cavity flow out through the apopore, bury underground in the mounting hole through a water storage cylinder, make ponding can flow out to the outer earth of water storage cylinder in the apopore, increase the water absorption efficiency of plant rhizome, prevent that ponding from evaporating fast and causing the waste in the earth's surface, have and directly guide the effect to the subsurface at plant rhizome place with irrigation water.

The utility model discloses further set up to: the height and the length direction of the water outlet holes are different.

Through adopting above-mentioned technical scheme, height and length direction through with the apopore set up to all inequality, make ponding in the cavity flow from the apopore on can following different height and direction, make the ponding in the cavity can soak not equidirectional and high earth, increase the water absorption efficiency of plant and the utilization ratio of irrigating water.

The utility model discloses further set up to: the utility model discloses a water storage device, including a water storage barrel, baffle, bottom plate, water storage chamber, be provided with four baffles in the cavity, the baffle is vertical to be set up on the bottom plate upper surface, and a side of baffle is fixed on the outer wall of stereoplasm water pipe, and another side is fixed on the inner wall of water storage barrel, and the baffle is cut apart into four water storage chambers with the cavity, and the bottom height in every water storage chamber is all inequality, and a apop.

Through adopting above-mentioned technical scheme, through setting up four baffles in the cavity, make the baffle cut apart into four retaining chambeies with the cavity, highly set up to inequality through the bottom with four retaining chambeies, make the water level line in every retaining chamber and the direction of apopore all inequality.

The utility model discloses further set up to: the water outlet is formed in the bottom of the water storage cavity.

Through adopting above-mentioned technical scheme, through seting up the apopore in the bottom of retaining the chamber, make the apopore can be with the whole discharge of ponding of retaining the intracavity, prevent that ponding from piling up and breeding harmful microorganism and mosquito in the retaining intracavity.

The utility model discloses further set up to: a water-absorbing cotton rope is arranged in each water outlet hole, one end of the water-absorbing cotton rope is arranged in the water storage cavity, and the other end of the water-absorbing cotton rope penetrates through the water outlet hole and extends out of the water storage barrel.

Through adopting above-mentioned technical scheme, through setting up the cotton rope that absorbs water in every apopore, make the cotton rope one end setting that absorbs water at the retaining intracavity, the other end passes the apopore and stretches out outside the retaining section of thick bamboo, makes the cotton rope that absorbs water can absorb the ponding of retaining intracavity and make ponding transmit to the cotton rope that absorbs water on the outer one end of retaining section of thick bamboo along the cotton rope that absorbs water to can discharge the ponding of retaining intracavity entirely.

The utility model discloses further set up to: the water absorption cotton rope is in interference fit with the water outlet hole.

Through adopting above-mentioned technical scheme, set up to interference fit through cotton rope and the apopore of will absorbing water, make the cotton rope that absorbs water can plug up the apopore, and then reduce the outer earth of retaining section of thick bamboo and get into the retaining intracavity from the apopore.

The utility model discloses further set up to: the water outlet is connected with a spray head, the upper top surface of the spray head is provided with an arc surface, the lower bottom surface of the spray head is flush with the ground, the arc surface is uniformly provided with spray holes along a circle of the circumference, and the spray holes are communicated with the water outlet.

Through adopting above-mentioned technical scheme, through connecting the shower nozzle on the delivery port, set up the arc surface on the shower nozzle, make the arc surface play the effect of protection visitor, prevent that the visitor from because of kicking or stepping on the last top of shower nozzle and be injured, through evenly seting up the orifice along the circumference on the shower nozzle, on the user of service can be through receiving the water inlet with the running water, make the running water spout from the orifice, play the effect of even irrigation.

The utility model discloses further set up to: the water storage device is characterized in that a water diversion cover is arranged on the upper surface of the water storage cylinder and is of a round table structure, the diameter of the lower end of the water diversion cover is equal to that of the water storage cylinder, the diameter of the upper end of the water diversion cover is larger than that of the water storage cylinder, and the upper end face of the water diversion cover is flush with the ground.

Through adopting above-mentioned technical scheme, through set up the cover that draws water on the upper surface at a water storage section of thick bamboo, will draw the upper end of water cover to set up to with ground parallel and level, make subaerial ponding can flow in draw the water cover, set up the upper end diameter that draws the water cover to be greater than the diameter of drawing the water cover lower extreme, increase draws water and covers upper end open-ended area, has promoted the water yield that can follow in drawing the water cover inflow cavity.

To sum up, the utility model discloses a beneficial technological effect does:

1. the water storage cylinder is sleeved outside the hard water pipe, the bottom of the water storage cylinder is hermetically connected with the bottom plate, so that the cavity can collect and store accumulated water flowing from the ground, the water storage cylinder is provided with the water outlet holes, the accumulated water in the cavity can flow out through the water outlet holes, the water storage cylinder is embedded in the mounting hole, the accumulated water can flow out of the water outlet holes to soil outside the water storage cylinder, the water absorption efficiency of the plant roots and stems is increased, the waste caused by rapid evaporation of the accumulated water on the ground surface is prevented, and the irrigation water can be directly guided to the underground part where the plant roots and stems are located;

2. the cavity is divided into four water storage cavities by the partition plates, the directions of a water level line and a water outlet hole of each water storage cavity are different by setting the heights of the bottoms of the four water storage cavities to be different, and the water outlet holes are arranged at the bottoms of the water storage cavities to discharge all accumulated water in the water storage cavities;

3. through set up the cotton rope that absorbs water in every apopore, make the cotton rope one end setting that absorbs water at the retaining intracavity, the other end passes the apopore and stretches out outside the retaining section of thick bamboo, make the cotton rope that absorbs water can absorb the ponding of retaining intracavity and make ponding transmit to the cotton rope that absorbs water and serve outside the retaining section of thick bamboo along the cotton rope that absorbs water, thereby can discharge the ponding of retaining intracavity is whole, set up to interference fit through cotton rope and the apopore that will absorb water, make the cotton rope that absorbs water can plug up the apopore, and then reduce the outer earth of retaining section of thick bamboo and get into the retaining intracavity from the apopore.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic sectional view taken along the line A-A in FIG. 1;

fig. 3 is a schematic view in partial cross-section of a reservoir cartridge.

In the figure, 1, a hard water pipe; 11. a water inlet; 12. a water outlet; 2. a spray head; 21. a circular arc surface; 22. spraying a hole; 3. a water storage cylinder; 31. a base plate; 32. a partition plate; 33. a cavity; 331. a water storage cavity; 34. a water outlet hole; 4. a water diversion cover; 5. a water absorbent cotton rope; 6. and (7) installing holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and fig. 2, for the utility model discloses a high-efficient energy-conserving gardens irrigation equipment, including stereoplasm water pipe 1, the vertical setting of stereoplasm water pipe 1. The mounting hole 6 has vertically been seted up on the ground, and stereoplasm water pipe 1 is vertical to be installed in mounting hole 6. The hard water pipe 1 is provided with a water inlet 11 and a water outlet 12, the water inlet 11 is arranged at the lower end of the hard water pipe 1, and the water outlet 12 is arranged at the upper end of the hard water pipe 1. The user can introduce the tap water into the water inlet 11 and flow out of the water outlet 12 by communicating the water inlet 11 with a water pipe installed underground. The water outlet 12 is provided with a spray head 2 for irrigating gardens. The spray head 2 is of a disc-shaped structure, an arc surface 21 is arranged on the upper top surface of the spray head 2, the lower bottom surface of the spray head 2 is flush with the ground, and the arc surface 21 is located on the ground. Through set up arc surface 21 on shower nozzle 2, can play the effect of protection visitor, prevent that the visitor from kicking or stepping on shower nozzle 2 when the walking and be injured. The circular arc surface 21 is uniformly provided with the spray holes 22 along a circle, the water outlet 12 is communicated with the spray holes 22, tap water can enter the hard water pipe 1 from the water inlet 11 and is uniformly sprayed out from the spray holes 22 in all directions, the area of water spraying irrigation is increased, and the utilization rate of irrigation water is increased.

Referring to fig. 2 and 3, a water storage cylinder 3 is sleeved outside the hard water pipe 1, and the water storage cylinder 3 is coaxially arranged outside the hard water pipe 1. The bottom plate 31 is arranged on the lower bottom surface of the water storage cylinder 3, the bottom plate 31 is of a circular plate-shaped structure, the diameter of the bottom plate 31 is the same as that of the water storage cylinder 3, and the connection part of the bottom plate 31 and the water storage cylinder 3 is in sealing connection. A cavity 33 is formed in the water storage cylinder 3, and the inner wall of the water storage cylinder 3, the outer wall of the hard water pipe 1 and the bottom plate 31 enclose the cavity 33. The lower end of the hard water pipe 1 passes through the bottom plate 31 and protrudes from the bottom plate 31. The joint of the hard water pipe 1 and the bottom plate 31 is hermetically connected, so that seeper in the cavity 33 is prevented from seeping out. The diameter of the mounting hole 6 is equal to that of the water storage cylinder 3, and the water storage cylinder 3 is buried by soil in the garden. Four partition plates 32 are arranged in the cavity 33, the four partition plates 32 are vertically arranged on the upper surface of the bottom plate 31, one side surface of each partition plate 32 is fixed on the outer wall of the hard water pipe 1, and the other side surface of each partition plate 32 is fixed on the inner wall of the water storage cylinder 3. The length direction of the partition plate 32 points to the circle center of the cross section of the water storage cylinder 3 and the hard water pipe 1. The cavity 33 is divided into four reservoir chambers 331 by four partitions 32, and the bottom heights of the reservoir chambers 331 are different from each other. The side wall of the bottom of each water storage cavity 331 is provided with a water outlet hole 34, and the water outlet hole 34 is arranged on the water storage cylinder 3. The height inequality of four apopores 34 is through seting up four apopores 34, can make the water in the retaining chamber 331 flow out to earth from apopore 34, plays the effect of irrigating gardens, improves irrigation efficiency, saves the water source. Through seting up apopore 34 in the bottom of retaining chamber 331, can make the ponding of retaining chamber 331 all flow out, prevent that ponding from piling up and can't flow out in retaining chamber 331, and then breed harmful microorganism and mosquito.

Referring to fig. 2, the upper end of the water storage cylinder 3 is provided with a water diversion cover 4, the water diversion cover 4 is of a round table structure, the lower end of the water diversion cover 4 is arranged on the upper surface of the water storage cylinder 3, and the diameter of the lower end of the water diversion cover 4 is equal to that of the water storage cylinder 3. The upper end of diversion cover 4 is the same level with ground, and the upper surface diameter of diversion cover 4 is greater than the diameter of water storage cylinder 3, and subaerial rivers can flow to in the cavity 33 along diversion cover 4. The water guide cover 4 is arranged on the water storage cylinder 3, so that water flow flowing into the cavity 33 is increased, rainwater and water flow sprayed out of the spray head 2 on the ground can be conveniently collected, and the effect of saving water resources is achieved.

Referring to fig. 3, a water absorbing cotton rope 5 is arranged in each water storage cavity 331, one end of the water absorbing cotton rope 5 is arranged in the water storage cavity 331, and the other end of the water absorbing cotton rope extends out of the water storage barrel 3 through the water outlet hole 34. The end of the water storage cavity 331 far away from the water storage cotton rope 5 is arranged outside the water storage cylinder 3, so that the water storage cavity 331 can be absorbed by the water storage cotton rope 5, water flow is transmitted in the water storage cotton rope 5, and the water flow in the water storage cavity 331 can flow out of the water storage cylinder 3 and irrigate the land. The water outlet hole 34 is in interference fit with the water absorbing cotton rope 5, and the water absorbing cotton rope 5 can block the water outlet hole 34, so that the mud is reduced from entering the water storage cavity 331 from the water outlet hole 34.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an energy-efficient gardens irrigation equipment, includes stereoplasm water pipe (1), its characterized in that: the water storage device is characterized in that a water storage cylinder (3) is sleeved outside the hard water pipe (1), a bottom plate (31) is arranged at the lower bottom of the water storage cylinder (3), the diameter of the bottom plate (31) is equal to that of the water storage cylinder (3), the lower end of the hard water pipe (1) penetrates through the bottom plate (31) and extends out, a water inlet (11) connected with an underground water pipe is formed in the lower end of the hard water pipe (1), a water outlet (12) is formed in the upper end of the hard water pipe (1), a mounting hole (6) is formed in the ground, the hard water pipe (1) is vertically embedded in the mounting hole (6), the water outlet (12) is flush with the ground, the water storage cylinder (3), the hard water pipe (1) and the bottom plate (31) form a cavity (33) capable of storing water in a surrounding mode, the water storage cylinder (3) is in sealing connection with the bottom plate (31), the connection position of the hard water pipe (1) and the bottom, the length direction of the water outlet hole (34) is a horizontal direction.

2. The efficient and energy-saving garden irrigation device as defined in claim 1, wherein: the height and the length direction of the water outlet holes (34) are different.

3. An energy-efficient garden watering device according to claim 2 wherein: be provided with four baffles (32) in cavity (33), baffle (32) are vertical to be set up on bottom plate (31) upper surface, and a side of baffle (32) is fixed on the outer wall of stereoplasm water pipe (1), and another side is fixed on the inner wall of a water storage section of thick bamboo (3), and baffle (32) are cut apart into four water storage chamber (331) with cavity (33), and the bottom height inequality of every water storage chamber (331), has all seted up one apopore (34) in every water storage chamber (331).

4. An efficient and energy-saving garden irrigation device according to claim 3, characterized in that: the water outlet hole (34) is formed in the bottom of the water storage cavity (331).

5. The efficient and energy-saving garden irrigation device according to claim 4, wherein: a water absorbing cotton rope (5) is arranged in each water outlet hole (34), one end of the water absorbing cotton rope (5) is arranged in the water storage cavity (331), and the other end of the water absorbing cotton rope passes through the water outlet hole (34) and extends out of the water storage barrel (3).

6. An energy-efficient garden irrigation device according to claim 5, characterized in that: the water absorption cotton rope (5) is in interference fit with the water outlet hole (34).

7. The efficient and energy-saving garden irrigation device as defined in claim 1, wherein: the water outlet (12) is connected with a spray head (2), the upper top surface of the spray head (2) is provided with an arc surface (21), the lower bottom surface of the spray head (2) is flush with the ground, the arc surface (21) is uniformly provided with spray holes (22) along a circle of circumference, and the spray holes (22) are communicated with the water outlet (12).

8. The efficient and energy-saving garden irrigation device as defined in claim 1, wherein: the water storage device is characterized in that a water diversion cover (4) is arranged on the upper surface of the water storage cylinder (3), the water diversion cover (4) is of a round table structure, the diameter of the lower end of the water diversion cover (4) is equal to that of the water storage cylinder (3), the diameter of the upper end of the water diversion cover (4) is larger than that of the water storage cylinder (3), and the upper end face of the water diversion cover (4) is flush with the ground.

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