CN210247842U - Water-saving backflow device - Google Patents

Water-saving backflow device Download PDF

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Publication number
CN210247842U
CN210247842U CN201921117305.5U CN201921117305U CN210247842U CN 210247842 U CN210247842 U CN 210247842U CN 201921117305 U CN201921117305 U CN 201921117305U CN 210247842 U CN210247842 U CN 210247842U
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water
backflow
saving
dissolver
cotton thread
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CN201921117305.5U
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马茂勇
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Abstract

The utility model discloses a water-saving backflow device, which comprises a light-blocking heat insulation plate, a cover, a water inlet, a water dissolver, a backflow water pipe, a water absorption cotton thread and a clamping groove, wherein the light-blocking heat insulation plate, the cover, the water inlet, the water dissolver, the backflow water pipe, the water absorption cotton thread and the clamping groove are combined into a first water-saving backflow device; the cover, the water inlet, the water dissolver, the backflow water pipe, the absorbent cotton and the clamping groove are combined into a second water-saving backflow device, the water inlet is arranged above the water dissolver, the backflow water pipe is arranged on one side of the water dissolver, and the rest of the backflow water pipe is the same as the first water-saving backflow device; the survival rate of the plants is improved, the plants are irrigated continuously, and each drop of water is reasonably utilized.

Description

Water-saving backflow device
Technical Field
The utility model relates to an irrigation equipment specifically indicates a water conservation flows backward device.
Background
As is well known, the survival rate of the tree planting in the desert is low, the water evaporation is fast, the water resource is in short supply, and the tree planting and raising cost is high. The existing drip irrigation technology can be realized only by using a tap water pipeline, the cost is too high, the temperature in desert is too high, the water loss and evaporation are easy to happen by using the common watering technology, and the limited water resource cannot be reasonably utilized. Therefore, a low-cost water-saving backflow device capable of preventing water loss and evaporated water reuse is a problem to be solved urgently in society.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is that prior art moisture runs off serious, with high costs scheduling problem.
In order to solve the technical problem, the utility model provides a technical scheme does: a water-saving backflow device comprises a light-blocking heat-insulating plate, a cover, a water inlet, a water dissolver, a backflow water pipe, a water absorbing cotton thread and a clamping groove, wherein the light-blocking heat-insulating plate, the cover, the water inlet, the water dissolver, the backflow water pipe, the water absorbing cotton thread and the clamping groove are combined into a first water-saving backflow device;
the cover, the water inlet, dissolve hydrophone, refluence water pipe, cotton and draw-in groove make up into water conservation backward flow device two, the water inlet sets up and is dissolving hydrophone top, the cover sets up on the water inlet, cover and water inlet swing joint, the refluence water pipe sets up and is dissolving hydrophone one side, the draw-in groove sets up in refluence water pipe top, cotton one end setting of absorbing water is dissolving in the hydrophone, the cotton other end of absorbing water is drawn forth from the refluence water pipe.
Further, the diameter of the cover is larger than that of the water inlet.
Furthermore, the first water-saving backflow device is arranged in a barrel shape.
Furthermore, the first water-saving backflow device is provided with a plurality of backflow water pipes, and a water absorbing cotton thread is led out of each backflow water pipe from the water dissolving device.
Furthermore, the thickness and the length of the water absorption cotton thread can be adjusted.
Furthermore, a water dissolving device in the first water-saving backflow device is arranged in a hollow interlayer shape, a containing cavity is arranged in the middle of the water dissolving device, the light blocking and heat insulating plate comprises a baffle and a blocking sheet, the blocking sheet is arranged in a leaf shape, a notch is arranged in the middle of the blocking sheet, and the notch and the cavity are integrated.
Furthermore, the second water-saving backflow device is arranged in a cylindrical shape.
Compared with the prior art, the utility model has the advantages that: the utility model adopts the matching structure of the water dissolver, the light blocking heat insulation plate, the backflow water pipe, the clamping groove and the water absorption cotton, so that water drops formed by water evaporation in the water dissolver flow into the backflow water pipe through the clamping groove in hot high-temperature weather of desert and are transmitted to the root of the plant through the water absorption cotton; if the water-absorbing cotton threads are damaged or rotten after long-time use, the clamping grooves above the backflow water pipe can continuously provide water for the roots of the plants; the utility model provides the high survival rate of plant under dry weather's environment provides the irrigation mode who lasts the water supply, and simple manufacture, cost are very low, and no matter be to the seedling or irrigate the plant that has taken shape and can both use this device, have enlarged the range of application of this device, and the installation of this device is simple, swift simultaneously.
Drawings
FIG. 1 is a structural diagram of a first water-saving backflow device;
FIG. 2 is a structural view of a second water-saving backflow device;
as shown in the figure: 1. the water-saving backflow device comprises a light-blocking heat-insulating plate, 2, a cover, 3, a water inlet, 4, a water dissolving device, 5, a backflow water pipe, 6, a water absorbing cotton thread, 7, a clamping groove, 8, a first water-saving backflow device, 9, a second water-saving backflow device, 10, a containing cavity, 11, a baffle, 12, a baffle, 13 and a notch.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
The present invention will be described in detail with reference to the accompanying drawings.
The utility model provides a water conservation flows backward device when concrete implementation, including heat insulating board 1, lid 2, water inlet 3 that is in the light, dissolve hydrophone 4, backflow water pipe 5, the cotton thread 6 and draw-in groove 7 that absorb water, its characterized in that: the water-saving backflow device comprises a light-blocking heat-insulating plate 1, a cover 2, a water inlet 3, a water dissolver 4, a backflow water pipe 5, a water absorbing cotton thread 6 and a clamping groove 7, wherein the light-blocking heat-insulating plate 1, the cover 2, the water dissolver 4, the backflow water pipe 5, the water absorbing cotton thread 6 and the clamping groove 7 are combined to form a first water-saving backflow device 8;
lid 2, water inlet 3, dissolve hydrophone 4, refluence water pipe 5, cotton 6 and draw-in groove 7 and make up into water conservation backward flow device two 9, water inlet 3 sets up and is dissolving 4 tops of hydrophone, lid 2 sets up on water inlet 3, lid 2 and 3 swing joint of water inlet, water pipe 4 one side is being dissolved in setting of refluence water pipe 5, draw-in groove 7 sets up in the water pipe 5 top that refluences, 6 one end settings of cotton thread that absorbs water are dissolving in hydrophone 4, the cotton thread 6 other end that absorbs water is drawn forth from the water pipe 5 that refluxes.
The utility model relates to a water conservation flows backward device's theory of operation and concrete implementation process as follows: example 1: irrigating seedlings by using a first water-saving irrigation device 8, firstly putting sand and roots of plants into a containing cavity 10, then opening a cover 2, pouring prepared water into a water dissolver 4 through a water inlet 3, covering the cover 2, absorbing a small amount of water from the water dissolver 4 by using a water absorbing cotton thread 6, and transporting the water to the roots of the plants through a backflow water pipe 5; because the temperature in the desert is higher, part of water in the water dissolver 4 is evaporated to become water vapor which rises upwards, the water vapor forms water drops on the top of the water dissolver, the water drops flow downwards into the clamping groove 7, the clamping groove 7 flows into the backflow water pipe 5, and finally the water drops flow to the roots of the plants; oxygen enters the cavity 10 from the notch 13 on the light-blocking heat-insulating plate 1 to provide oxygen required by the growth of the plant seedlings.
Example 2: the second water-saving backflow device 9 is used for irrigating the formed plants, firstly, the cover 2 is opened, the prepared water is poured into the water dissolver 4 through the water inlet 3, the cover 2 is closed, the absorbent cotton thread 6 absorbs a small amount of water from the water dissolver 4, and the water is transported to the roots of the plants through the backflow water pipe 5; because the temperature is higher in the desert, water in the water dissolving device 4 is partly evaporated and becomes vapor and rises, and vapor forms the water droplet at the water dissolving device top, and the water droplet flows down in draw-in groove 7, and draw-in groove 7 flows to in the refluence water pipe 5, still will flow to the root of the plant at last.
The utility model adopts the matching structure of the water dissolver 4, the light blocking and heat insulating plate 1, the backflow water pipe 5, the clamping groove 7 and the water absorbing cotton thread 6, so that water drops formed by water evaporation in the water dissolver 4 flow to the backflow water pipe in hot high-temperature weather of desert and are transmitted to the root of the plant through the water absorbing cotton thread 6; if the water absorption cotton thread 6 is damaged or is rotten after long-time use, the clamping groove 7 above the backflow water pipe 5 can continuously provide water for the plant roots; the utility model improves the survival rate of plants in dry climate environment, provides an irrigation mode of continuous water supply, has simple manufacture and low cost, can be used for irrigating seedlings or shaped plants, enlarges the application range of the device, and is simple and rapid to install; adopt the utility model discloses it is faster than the growth rate of current kind of tree technique about 2-4 times to plant the tree about, it needs 2-3 years to be equivalent to plant a tree in desert kind of tree prior art, adopts the utility model discloses it just can reach to plant into a same tree only need one year, because the climatic feature of the dry high temperature in desert, will be evaporated for a long time after trees have watered, this also is the important factor that desert kind of tree grows slowly and is difficult to survive, and the utility model discloses a principle is that what provide the persistence draws water to the root of a tree, so growth nature and survival rate also have very big improvement.
The present invention and its embodiments have been described above, but the description is not limited thereto, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (7)

1. The utility model provides a water conservation flows backward device, includes heat insulating board (1), lid (2), water inlet (3), dissolves hydrophone (4), refluence water pipe (5), cotton thread (6) and draw-in groove (7) absorb water, its characterized in that are in the light: the light-blocking heat-insulating plate (1), the cover (2), the water inlet (3), the water dissolver (4), the backflow water pipe (5), the water absorbing cotton thread (6) and the clamping groove (7) are combined into a water-saving backflow device I (8), the light-blocking heat-insulating plate (1) is arranged above the first water-saving backflow device (8), the water inlet (3) is arranged at one side of the light-blocking heat-insulating plate (1), the cover (2) is arranged on the water inlet (3), the cover (2) is movably connected with the water inlet (3), the water dissolver (4) is arranged below the water inlet (3), the backflow water pipe (5) is arranged above the water dissolver (4), the clamping groove (7) is arranged above the backflow water pipe (5), one end of the water absorbing cotton thread (6) is arranged in the water dissolver (4), and the other end of the water absorbing cotton thread (6) is led out from the backflow water pipe (5);
lid (2), water inlet (3), water dissolver (4), refluence water pipe (5), cotton thread (6) absorb water and draw-in groove (7) make up into water conservation backward flow device two (9), water inlet (3) set up in water dissolver (4) top, lid (2) set up on water inlet (3), lid (2) and water inlet (3) swing joint, refluence water pipe (5) set up in water dissolver (4) one side, draw-in groove (7) set up in refluence water pipe (5) top, cotton thread (6) one end that absorb water sets up in water dissolver (4), cotton thread (6) the other end that absorbs water is drawn forth from refluence water pipe (5).
2. A water-saving backflow device according to claim 1, wherein: the diameter of the cover (2) is larger than that of the water inlet (3).
3. A water-saving backflow device according to claim 1, wherein: the first water-saving backflow device (8) is arranged in a barrel shape.
4. A water-saving backflow device according to claim 1, wherein: the water-saving backflow device I (8) is provided with a plurality of backflow water pipes (5), and a water-absorbing cotton thread (6) is led out of the water dissolving device (4) in each backflow water pipe (5).
5. A water-saving backflow device according to claim 1, wherein: the thickness and the length of the water absorption cotton thread (6) can be adjusted.
6. A water-saving backflow device according to claim 1, wherein: the water dissolving device (4) in the first water-saving backflow device (8) is arranged in a hollow interlayer shape, the accommodating cavity (10) is arranged in the middle of the water dissolving device (4), the light blocking heat insulation plate (1) comprises a baffle (11) and a blocking piece (12), the blocking piece (12) is arranged in a leaf shape, a notch (13) is arranged in the middle of the blocking piece (12), and the notch (13) and the accommodating cavity (10) are integrated.
7. A water-saving backflow device according to claim 1, wherein: the second water-saving backflow device (9) is arranged in a cylindrical shape.
CN201921117305.5U 2019-07-17 2019-07-17 Water-saving backflow device Active CN210247842U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921117305.5U CN210247842U (en) 2019-07-17 2019-07-17 Water-saving backflow device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921117305.5U CN210247842U (en) 2019-07-17 2019-07-17 Water-saving backflow device

Publications (1)

Publication Number Publication Date
CN210247842U true CN210247842U (en) 2020-04-07

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CN201921117305.5U Active CN210247842U (en) 2019-07-17 2019-07-17 Water-saving backflow device

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110249983A (en) * 2019-07-17 2019-09-20 马茂勇 A kind of water-saving flowing backward device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110249983A (en) * 2019-07-17 2019-09-20 马茂勇 A kind of water-saving flowing backward device

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