CN220528886U - Landscape water saving system - Google Patents
Landscape water saving system Download PDFInfo
- Publication number
- CN220528886U CN220528886U CN202322121526.2U CN202322121526U CN220528886U CN 220528886 U CN220528886 U CN 220528886U CN 202322121526 U CN202322121526 U CN 202322121526U CN 220528886 U CN220528886 U CN 220528886U
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- water
- water inlet
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- disc
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 378
- 238000005507 spraying Methods 0.000 claims description 18
- 239000004744 fabric Substances 0.000 claims description 14
- 239000003795 chemical substances by application Substances 0.000 claims 1
- 230000001863 plant nutrition Effects 0.000 claims 1
- 238000000034 method Methods 0.000 abstract description 10
- 230000008569 process Effects 0.000 abstract description 8
- 230000000903 blocking effect Effects 0.000 abstract description 5
- 239000012535 impurity Substances 0.000 description 28
- 235000015097 nutrients Nutrition 0.000 description 10
- 238000003756 stirring Methods 0.000 description 4
- 238000004140 cleaning Methods 0.000 description 3
- 238000005086 pumping Methods 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 2
- 238000009825 accumulation Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 230000008676 import Effects 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000007789 sealing Methods 0.000 description 1
- 239000007921 spray Substances 0.000 description 1
- 230000006641 stabilisation Effects 0.000 description 1
- 238000011105 stabilization Methods 0.000 description 1
Classifications
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/108—Rainwater harvesting
Landscapes
- Sewage (AREA)
Abstract
The utility model discloses a landscape water saving system, which comprises a first water storage tank and a conical water inlet disc, wherein the first water storage tank is provided with a water inlet pipe; the conical water inlet disc is provided with an opening at the bottom and is arranged at the opening at the top of the first water storage tank, and the inner space of the conical water inlet disc is communicated with the interior of the first water storage tank; a plurality of water inlet holes are formed in the side face of the conical water inlet disc; the inner axis of the conical water inlet disc is provided with a rotating shaft, and the rotating shaft can rotate around the axis of the rotating shaft; the side wall of the rotating shaft is provided with a connecting piece, one end, far away from the rotating shaft, of the connecting piece is provided with a brush, and the brush is clung to the inner side wall of the conical water inlet disc. By adopting the scheme, in the water inlet process, the water inlet hole is continuously brushed through the hairbrush, so that the blocking rate of the water inlet hole can be reduced.
Description
Technical Field
The utility model relates to the technical field of garden water-saving design, in particular to a garden landscape water-saving system.
Background
The landscape needs to consume a large amount of water resources in the process of planting greening plants, water is needed to be saved in areas with relatively poor water resources, and in a water saving way, the most important part is to store rainwater in rainy seasons and reuse the stored rainwater when drought is reached.
Corresponding gardens rainwater collection device has been proposed among the prior art, if the publication number is: the ecological garden water-saving mechanism disclosed by CN218244901U can automatically collect and filter rainwater, clean rainwater is collected in a water storage tank, and impurities can be filtered and accumulation of the impurities can be avoided due to the conical dome; but its in long-time use, the toper top still can exist the condition that impurity blockked up the inlet opening, if there is not corresponding cleaning device, still can influence the inflow, leads to the rainwater to collect the speed slower, has reduced rainwater collection efficiency.
Disclosure of Invention
The utility model aims to solve the defects of the prior art, and aims to provide a landscape water saving system.
The utility model is realized by the following technical scheme:
a landscape water saving system comprises a first water storage tank and a conical water inlet disc;
the conical water inlet disc is provided with an opening at the bottom and is arranged at the opening at the top of the first water storage tank, and the inner space of the conical water inlet disc is communicated with the interior of the first water storage tank; a plurality of water inlet holes are formed in the side face of the conical water inlet disc;
the inner axis of the conical water inlet disc is provided with a rotating shaft, and the rotating shaft can rotate around the axis of the rotating shaft; the side wall of the rotating shaft is provided with a connecting piece, one end, far away from the rotating shaft, of the connecting piece is provided with a brush, and the brush is clung to the inner side wall of the conical water inlet disc.
Compared with the prior art, in the long-time use, the toper top still can have the condition that the inlet opening was blockked up to impurity, if there is not corresponding cleaning device, still can influence the inflow, leads to the rainwater to collect the speed slower, has reduced the problem of rainwater collection efficiency, and this scheme provides a landscape water saving system, adopts this scheme, in the in-process of intaking, last the brush through the brush and pass through the inlet opening, can reduce the inlet opening blocking rate. In the concrete scheme, as the prior art, a plurality of water inlet holes are formed in the conical water inlet disc, and rainwater falls on the conical water inlet disc and can enter the first water storage tank through the water inlet holes; and when the lateral surface of the conical water inlet disc is impacted by rainwater, impurities can be washed away along the slope, unlike the prior art, the scheme is characterized in that a rotating shaft is arranged in a first water storage tank, a connecting piece is arranged on the side surface of the upper end of the rotating shaft, a brush is arranged at the outer end of the connecting piece, the brush is parallel to the side surface of the conical water inlet disc in the rotating process of the rotating shaft and clings to the inner side of the conical water inlet disc, and at the moment, the brush continuously brushes a plurality of water inlet holes, so that the impurities blocked in the water inlet holes can be pushed away or taken away, excessive impurities are avoided, and the water inlet efficiency is slowed down.
In a further scheme, in order to improve the supporting strength, the connecting piece comprises a connecting flat plate, and two ends of the connecting flat plate are respectively connected with the rotating shaft and the brush; the plane of the connecting flat plate is parallel to the axial direction of the rotating shaft and perpendicular to the side surface of the conical water inlet disc; in the scheme, the plane of the connecting flat plate is vertically arranged, so that the area of the connecting flat plate can be reduced, and rainwater is prevented from falling from the water inlet hole; the connecting flat plate is perpendicular to the conical water inlet disc so as to improve the connecting support strength.
In a further aspect, as a detachable specific embodiment, two sides of the connecting flat plate are provided with clamping plates, and the clamping plates are fixed with the side wall of the rotating shaft; the two clamping plates clamp the connecting flat plate, and the connecting flat plate further comprises a first bolt for connecting the clamping plates and the connecting flat plate.
In a further scheme, as a specific implementation mode of the adjusting angle, the clamping plate is further provided with an arc-shaped bolt hole, the arc-shaped bolt hole is provided with a second bolt, and the second bolt sequentially penetrates through the arc-shaped bolt hole and the clamping plate; in this scheme, the connection is preliminary through first bolt location, and the second bolt can remove in the arc bolt hole, through the position of adjusting the second bolt to adjust the inclination of brush, make the brush be on a parallel with the side of toper water inlet tray, adjust in place after, the locking second bolt can.
In a further scheme, as a specific implementation mode of stable transmission, a rotating motor is arranged at the bottom of the first water storage tank, a shaft sleeve is arranged at the top of the inner side of the conical water inlet disc, the lower end of the rotating shaft is connected with the output end of the rotating motor, and the upper end of the rotating shaft is rotatably connected with the shaft sleeve; in this scheme, rotating electrical machines are located first water storage tank lower extreme, because the rotation axis needs to stretch into in the toper water inlet disk, required length is longer, consequently, for making its rotation stabilization, has the axle sleeve at toper water inlet disk inboard top, realizes rotating through axle sleeve and bearing and connects.
In a further scheme, the side wall of the first water storage tank is connected with an inlet pipeline, and the inlet pipeline is used for conveying plant nutrient to the first water storage tank; a blade is arranged on the rotating shaft part positioned in the first water storage tank; in this scheme, pour plant nutrient into first water storage tank through import pipeline to through the rotatory stirring of rotation axis and blade, make water and plant nutrient fully fuse.
In a further scheme, the outer side surface of the first water storage tank is also provided with a pump tank, a water pump is arranged in the pump tank, a water outlet pipe connected with the inlet of the water pump is arranged in the first water storage tank, the outlet of the water pump is connected with a spraying pipeline, and a spraying head is arranged on the spraying pipeline; in this scheme, as auxiliary pumping device through the water pump, the rainwater inside the first water storage tank is taken out through the outlet pipe to the water pump to aim at the plant through spraying pipeline and sprinkler head and spray, realized the rational utilization of water resource.
The water receiving device further comprises an inverted cone-shaped water receiving disc, wherein the inverted cone-shaped water receiving disc is connected with the top of the first water storage tank through a lifting assembly, and the lifting assembly is used for driving the inverted cone-shaped water receiving disc to lift; an opening for the top of the conical water inlet disc to extend in is formed in the bottom of the inverted conical water receiving disc; according to the scheme, the upper end of the conical water inlet disc is provided with the inverted conical water receiving disc, a large amount of rainwater is collected through a large-size diameter port at the upper end of the inverted conical water receiving disc, and the bottom of the inverted conical water receiving disc is provided with an opening, so that the collected rainwater can fall above the conical water inlet disc from the bottom opening and flow down along the inclined plane of the conical water inlet disc, and the water inlet rate is improved by increasing the water passing amount per second; in addition, have lifting unit below the reverse cone water collector, preferably adopt electric telescopic handle, when not using, drive reverse cone water collector and descend, the upper end of toper water inlet disk gets into in the reverse cone water collector lower extreme opening this moment, until seal the lower extreme opening, can avoid when not raining, other impurity fall on the toper water collector through the lower extreme opening.
In a further scheme, as a specific implementation way for improving the water inflow again, the top of the first water storage tank is also provided with a second water storage tank, and the conical water inlet disc is positioned in the second water storage tank; the conical water inlet disc extends out of the opening at the top of the second water storage tank; a water inlet gap is reserved between the opening at the top of the second water storage tank and the outer side of the conical water inlet disc; in this scheme, be provided with the second water storage tank on first water storage tank, surround between the inboard and the toper water inlet disk outside of second water storage tank and form another water storage space, the water of top flow down can enter into in the second water storage tank along toper water inlet disk lateral surface and water inlet gap, a large amount of rainwater stores in the second water storage tank this moment to walk local inlet port, a large amount of rainwater of storing this moment all enter into in the first bin through the inlet port, in order to improve water storage efficiency.
In a further scheme, impurities are prevented from entering the inverted cone-shaped water receiving disc when the water storage device is not used, sliding rails are arranged on two sides of the second water storage tank, folding rain cloth is arranged above the inverted cone-shaped water receiving disc, sliding rods are connected to two ends of the folding rain cloth, and the sliding rods are connected with the sliding rails in a sliding mode and can slide transversely; in the scheme, when the folding rain cloth is positioned above the inverted cone-shaped water receiving disc, the upper end opening of the inverted cone-shaped water receiving disc can be covered when the folding rain cloth is unfolded, and the folding and unfolding of the folding rain cloth are realized through the sliding rails on the two sides; the same end positions of the two sliding rails are fixedly connected with a sliding rod respectively, the other end positions of the two sliding rails are provided with sliding blocks, and the sliding blocks are provided with sliding rods so as to drive the sliding rods to slide, for example, the publication number is CN218920990U, and the name is the prior art of an landscaping water-saving device.
Compared with the prior art, the utility model has the following advantages and beneficial effects:
1. the utility model provides a landscape water saving system, which adopts the scheme that in the water inlet process, the water inlet hole is continuously brushed through a hairbrush, so that the blocking rate of the water inlet hole can be reduced.
2. The utility model provides a landscape water saving system, which adopts the scheme that the inclined angle of a hairbrush is adjusted by adjusting the position of a second bolt, so that the hairbrush is parallel to the side surface of a conical water inlet disc.
3. The utility model provides a landscape water saving system, which adopts the scheme that plant nutrient is poured into a first water storage tank through an inlet pipeline, and water and the plant nutrient are fully fused through rotation of a rotating shaft and stirring of blades.
4. The utility model provides a landscape water saving system, which adopts the scheme that a large amount of rainwater can be collected through an inverted conical water receiving disc and flow down from the top of a conical water inlet disc, so that a large amount of rainwater flows through a water inlet hole, and the rainwater collecting efficiency is improved.
Drawings
The accompanying drawings, which are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this application, illustrate embodiments of the utility model. In the drawings:
fig. 1 is a schematic structural view of a landscape architecture water saving system according to an embodiment of the present utility model;
fig. 2 is a sectional view of a landscape architecture water saving device according to an embodiment of the present utility model;
fig. 3 is a sectional view of a conical water inlet tray of the landscape architecture water saving device according to an embodiment of the present utility model;
fig. 4 is a schematic view of a brush according to an embodiment of the present utility model.
In the drawings, the reference numerals and corresponding part names:
1-first water storage tank, 101-spraying pipeline, 2-inverted cone-shaped water receiving disc, 3-cone-shaped water feeding disc, 301-water inlet hole, 302-top area, 303-water inlet area, 304-bottom area, 305-shaft sleeve, 4-lifting component, 5-second water storage tank, 501-slide rail, 6-telescopic pipe, 7-annular inclined plate, 8-hinge door, 9-universal wheel, 10-rotation shaft, 1001-blade, 11-connecting piece, 1101-connecting plate, 1102-clamping plate, 1103-first bolt, 1104-arc bolt hole, 1105-second bolt, 12-brush, 13-rotation motor, 14-inlet pipeline, 15-pump box, 16-water outlet pipe and 17-folding rain cloth.
Detailed Description
For the purpose of making apparent the objects, technical solutions and advantages of the present utility model, the present utility model will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present utility model and the descriptions thereof are for illustrating the present utility model only and are not to be construed as limiting the present utility model.
Example 1: the embodiment 1 provides a landscape water saving system, which comprises a first water storage tank 1 and a conical water inlet disc 3 as shown in fig. 1-4;
the bottom of the conical water inlet disc 3 is provided with an opening, and the conical water inlet disc is arranged at the opening at the top of the first water storage tank 1, and the inner space of the conical water inlet disc 3 is communicated with the interior of the first water storage tank 1; a plurality of water inlet holes 301 are formed in the side face of the conical water inlet disc 3;
a rotating shaft 10 is arranged on the inner axis of the conical water inlet disc 3, and the rotating shaft 10 can rotate around the self axis; the side wall of the rotating shaft 10 is provided with a connecting piece 11, one end of the connecting piece 11, which is far away from the rotating shaft 10, is provided with a brush 12, and the brush 12 is clung to the inner side wall of the conical water inlet disc 3.
Compared with the prior art, in the long-time use, the conical top still can have the condition that impurity blockked up inlet 301, if there is not corresponding cleaning device, still can influence the inflow, lead to the rainwater to collect the speed slower, reduced the problem of rainwater collection efficiency, this scheme provides a landscape water saving system, adopts this scheme, in the in-process of intaking, last brush inlet 301 through brush 12, can reduce inlet 301 blocking rate. In the concrete scheme, as the prior art, a plurality of water inlet holes 301 are formed in the conical water inlet disc 3, and rainwater falls on the conical water inlet disc 3 and can enter the first water storage tank 1 through the water inlet holes 301; and when the lateral surface of the conical water inlet disc 3 is impacted by rainwater, impurities can be washed away along the slope, unlike the prior art, the scheme is characterized in that the rotary shaft 10 is arranged in the first water storage tank 1, the side surface of the upper end of the rotary shaft 10 is provided with the connecting piece 11, the outer end of the connecting piece 11 is provided with the brush 12, the brush 12 is parallel to the side surface of the conical water inlet disc 3 and clings to the inner side of the conical water inlet disc 3 in the rotary shaft 10 rotation process, and at the moment, the brush 12 continuously brushes a plurality of water inlet holes 301, and can push away or take away the impurities blocked in the water inlet holes 301, so that excessive impurities are avoided, and the water inlet efficiency is slowed down.
In a further aspect, to enhance the supporting strength, the connecting member 11 includes a connecting plate 1101, and both ends of the connecting plate 1101 are respectively connected with the rotating shaft 10 and the brush 12; the plane of the connecting flat plate 1101 is parallel to the axial direction of the rotary shaft 10 and perpendicular to the side surface of the conical water inlet disc 3; in the scheme, the plane of the connecting flat plate 1101 is vertically arranged, so that the area of the connecting flat plate 1101 can be reduced, and rainwater is prevented from falling from the water inlet 301; the connection plate 1101 is perpendicular to the conical water inlet tray 3 to enhance the connection support strength.
Still further, as a detachable embodiment, the two sides of the connecting plate 1101 are provided with clamping plates 1102, and the clamping plates 1102 are fixed to the side wall of the rotating shaft 10; two of the clamping plates 1102 clamp the connecting plate 1101 inside and further include a first bolt 1103 connecting the clamping plate 1102 and the connecting plate 1101.
In a further aspect, as a specific embodiment of the adjusting angle, the clamping plate 1102 is further provided with an arc bolt hole 1104, the arc bolt hole 1104 is provided with a second bolt 1105, and the second bolt 1105 sequentially passes through the arc bolt hole 1104 and the clamping plate 1102; in this scheme, the connection is preliminary through first bolt 1103 location, and the second bolt 1105 can remove in arc bolt hole 1104, through the position of adjusting the second bolt 1105 to adjust the inclination of brush 12, make brush 12 be on a parallel with the side of toper water inlet tray 3, adjust in place after, locking second bolt 1105 can.
In a further scheme, as a specific implementation manner of stable transmission, the bottom of the first water storage tank 1 is provided with a rotating motor 13, the top of the inner side of the conical water inlet disc 3 is provided with a shaft sleeve 305, the lower end of the rotating shaft 10 is connected with the output end of the rotating motor 13, and the upper end of the rotating shaft 10 is rotatably connected with the shaft sleeve 305; in this scheme, rotating electrical machines 13 are located first water storage tank 1 lower extreme, because rotation axis 10 needs to stretch into in the toper water inlet tray 3, required length is longer, consequently, for making its rotation stability, have axle sleeve 305 at toper water inlet tray 3 inboard top, realize rotating through axle sleeve 305 and bearing and connect.
In a further scheme, the side wall of the first water storage tank 1 is connected with an inlet pipeline 14, and the inlet pipeline 14 is used for conveying plant nutrient to the first water storage tank 1; a vane 1001 is provided on a portion of the rotation shaft 10 located in the first water storage tank 1; in this embodiment, the plant nutrient is poured into the first water storage tank 1 through the inlet pipe 14, and the water and the plant nutrient are sufficiently mixed by the rotation of the rotation shaft 10 and the stirring of the blade 1001.
In a further scheme, the outer side surface of the first water storage tank 1 is also provided with a pump box 15, a water pump is arranged in the pump box 15, a water outlet pipe 16 connected with an inlet of the water pump is arranged in the first water storage tank 1, an outlet of the water pump is connected with a spraying pipeline 101, and a spraying head is arranged on the spraying pipeline 101; in this scheme, as auxiliary pumping device through the water pump, the rainwater inside the first water storage tank 1 is taken out through outlet pipe 16 to the water pump is sprayed through spraying pipeline 101 and sprinkler head alignment plant, has realized the rational utilization of water resource.
Example 2: the embodiment 2 is further optimized on the basis of the embodiment 1, and provides a landscape water-saving device, which comprises a first water storage tank 1 and an inverted cone-shaped water receiving disc 2 as shown in fig. 1-3;
the inverted cone-shaped water receiving disc 2 is connected with the top of the first water storage tank 1 through a lifting assembly 4, and the lifting assembly 4 is used for driving the inverted cone-shaped water receiving disc 2 to lift; the bottom of the inverted cone-shaped water receiving disc 2 is provided with an opening for the top of the cone-shaped water inlet disc 3 to extend in.
Compared with the prior art, as the conical roof is used for dispersing and collecting water, rainwater is dispersed and falls on the conical roof, only a small amount of rainwater enters the water inlet 301, the rainwater falling process is too slow in rainwater collecting speed, enough rainwater can be collected only in a long time, and the water collecting efficiency is low. In the concrete scheme, as the prior art, a plurality of water inlet holes 301 are formed in the conical water inlet disc 3, and rainwater falls on the conical water inlet disc 3 and can enter the first water storage tank 1 through the water inlet holes 301; when the rainwater impacts the outer side surface of the conical water inlet disc 3, impurities can be washed away along the slope, unlike the prior art, the scheme is characterized in that the upper end of the conical water inlet disc 3 is provided with the inverted conical water receiving disc 2, a large amount of rainwater is collected through a large-size diameter port at the upper end of the inverted conical water receiving disc 2, and the bottom of the inverted conical water receiving disc 2 is provided with an opening, so that the collected rainwater can fall above the conical water inlet disc 3 from the bottom opening and flow down along the slope of the conical water inlet disc 3, and the water inlet rate is improved by increasing the water passing amount per second; in addition, have lifting unit 4 below reverse cone water collector 2, preferably adopt electric telescopic handle, when not using, drive reverse cone water collector 2 and descend, the upper end of toper water inlet tray 3 gets into in the lower extreme opening of reverse cone water collector 2 this moment, until the closed lower extreme opening, can avoid when not raining, other impurity fall on the toper water collector through the lower extreme opening.
In a further scheme, as a specific implementation way for improving the water inflow again, the top of the first water storage tank 1 is also provided with a second water storage tank 5, and the conical water inlet disc 3 is positioned in the second water storage tank 5; the conical water inlet disc 3 extends out of the opening at the top of the second water storage tank 5; a water inlet gap is reserved between the top opening of the second water storage tank 5 and the outer side of the conical water inlet disc 3; in this scheme, be provided with second water storage tank 5 on first water storage tank 1, surround between second water storage tank 5 inboard and the toper water inlet disk 3 outside and form another water storage space, the water of top flow down can enter into second water storage tank 5 along toper water inlet disk 3 lateral surface and water inlet gap, a large amount of rainwater stores in second water storage tank 5 this moment to walk local inlet opening 301, a large amount of rainwater that store this moment all enters into first bin through inlet opening 301 in order to improve water storage efficiency.
In the above scheme, because the space is provided between the second water storage tank 5 and the bottom opening of the inverted cone-shaped water receiving disc 2, in the rainwater downflow process, the outside impurity dust and the like can enter the cone-shaped water inlet disc 3 through the space between the second water storage tank 5 and the inverted cone-shaped water receiving disc 2, in order to seal the space between the upper end of the second water storage tank 5 and the lower end of the inverted cone-shaped water receiving disc 2, a telescopic pipe 6 is connected between the top of the second water storage tank 5 and the outer side wall of the inverted cone-shaped water receiving disc 2, and the bottom opening of the inverted cone-shaped water receiving disc 2 and the top opening of the second water storage tank 5 are both positioned in the telescopic pipe 6; the telescopic pipe 6 is in a round table shape with a small upper part and a large lower part; the telescopic pipe 6 can be a telescopic hose, the lower end of the telescopic pipe is connected with the upper end opening of the second water storage tank 5, the upper end of the telescopic pipe is connected with the side surface of the inverted cone-shaped water receiving disc 2, a water inlet channel is formed between the inner side of the telescopic pipe 6 and the outer side surface of the cone-shaped water inlet disc 3 at the moment, and rainwater is prevented from leaking; through the telescopic pipe 6, the lifting of the inverted cone-shaped water receiving disc 2 is adapted.
In the above scheme, when the device is not in use, if the top of the conical water inlet disc 3 entering the inverted conical water receiving disc 2 is provided with the water inlet hole 301, the water inlet hole 301 is exposed for a long time and can be polluted by impurities, so that in order to avoid the water inlet hole 301 being exposed, the conical water inlet disc 3 sequentially comprises a top area 302 and a water inlet area 303 from top to bottom, and a plurality of water inlet holes 301 are all positioned on the water inlet area 303; the projection of the bottom opening end of the inverted cone-shaped water pan 2 in the self-lifting direction is positioned on the top area 302; in this scheme, divide into the water inlet area 303 of top district 302 and middle part of top with toper water inlet disk 3, so when the water collector 2 of back taper descends, water inlet area 303 can not stretch into in the water collector 2 of back taper all the time.
In a further aspect, to precipitate more impurities, the conical water inlet tray 3 further includes a bottom area 304, and the bottom area 304 is located below the water inlet area 303; the bottom area 304 is coaxially provided with a circumferential inclined plate 7, the inner end of the circumferential inclined plate 7 is connected with the outer end of the bottom area 304, and the outer end of the circumferential inclined plate 7 is inclined downwards in a direction away from the bottom area 304; a gap is reserved between the outer end of the annular inclined plate 7 and the second water storage tank 5; in this scheme, set up annular inclined plate 7 in the circumference direction of bottom district 304, when impurity is washed down by rivers, can enter into the swash plate below through the swash plate, along with the rainwater flows this moment, a large amount of impurity can be blocked by annular inclined plate 7, avoids impurity to fluctuate to reduce inlet 301 plug rate.
In a further scheme, the bottom of the second water storage tank 5 is circumferentially provided with a plurality of water outlets, and hinge doors 8 for opening or closing the water outlets are arranged at the water outlets; in the scheme, after the rainwater in the first water storage tank 1 is fully stored, the hinge door 8 can be opened to release the rainwater stored in the second water storage tank 5; in addition, if the rain potential is large, the rain amount is too much, when the second water storage tank 5 is full of rainwater, the first water storage tank 1 is not full of rainwater, at this time, too much rainwater can overflow the conical water inlet disc 3, so that the inclined surface of the conical water inlet disc 3 cannot be flushed, and therefore the hinge door 8 can be used for controlling the opening size of the hinge door 8 through controlling the opening size of the hinge door 8, and the rain amount released in the second water storage tank 5 is controlled through the upper-end water inlet and the lower-end opening so that the rainwater continuously flows downwards.
In a further scheme, a sealing ring is arranged at the opening at the bottom of the inverted cone-shaped water receiving disc 2.
In a further scheme, the first water storage tank 1 is further provided with a spraying pipeline 101, the spraying pipeline 101 is communicated with the interior of the first water storage tank 1, and the spraying pipeline 101 is provided with a spraying head.
In a further aspect, the bottom of the first water storage tank 1 is provided with a universal wheel 9.
In a further scheme, impurities are prevented from entering the inverted cone-shaped water receiving disc 2 when the water receiving disc is not used, sliding rails 501 are arranged on two sides of the second water storage tank 5, a folding rain cloth 17 is arranged above the inverted cone-shaped water receiving disc 2, sliding rods are connected to two ends of the folding rain cloth 17, and the sliding rods are connected with the sliding rails 501 in a sliding mode and can slide transversely; in the scheme, when the folding waterproof cloth 17 is positioned above the inverted cone-shaped water receiving disc 2, the upper end opening of the inverted cone-shaped water receiving disc 2 can be covered when the folding waterproof cloth is unfolded, and the folding waterproof cloth is unfolded and folded through the sliding rails 501 on the two sides; the same end positions of the two sliding rails 501 are fixedly connected with a sliding rod respectively, the other end positions of the two sliding rails 501 are provided with sliding blocks, and the sliding blocks are provided with sliding rods so as to drive the sliding rods to slide, for example, the publication number is CN218920990U, and the name is a landscaping water-saving device in the prior art.
The working principle of the scheme is as follows: when the outside is about to rain, the device is moved to the outside, the upper folding rain cloth 17 is unfolded, the lifting component 4 is controlled to drive the inverted cone-shaped water receiving disc 2 to move upwards, a large amount of rainwater is collected through a large-size diameter port at the upper end of the inverted cone-shaped water receiving disc 2, and the bottom of the inverted cone-shaped water receiving disc 2 is opened, so that the collected rainwater can fall above the cone-shaped water inlet disc 3 from the bottom opening and flow down along the inclined plane of the cone-shaped water inlet disc 3, and the water inlet rate is improved by increasing the water passing amount per second; the water flowing down from the upper part can enter the second water storage tank 5 along the outer side surface of the conical water inlet disc 3 and the water inlet gap, a large amount of rainwater is stored in the second water storage tank 5 and overflows the partial water inlet 301, and a large amount of rainwater stored at the moment enters the first storage tank through the water inlet 301 so as to improve water storage efficiency; the circumferential inclined plate 7 is arranged in the circumferential direction of the bottom area 304, when impurities are flushed down by water flow, the impurities enter the lower part of the inclined plate through the inclined plate, and at the moment, along with the flow of rainwater, a large amount of impurities can be blocked by the circumferential inclined plate 7, so that the fluctuation of the impurities is avoided, and the blocking rate of the water inlet 301 is reduced; if the rain potential is large and the rain amount is excessive, the opening size of the hinge door 8 is controlled, the rain amount released in the second water storage tank 5 is controlled, and the upper water inlet and the lower opening are controlled, so that the rainwater continuously flows downwards. In the continuous water inlet process, the rotary shaft 10 rotates to drive the hairbrush 12 to continuously brush through the water inlet holes 301, so that impurities blocked in the water inlet holes 301 can be pushed away or taken away, and the phenomenon that the water inlet efficiency is reduced due to excessive impurities is avoided; in addition, the plant nutrient is poured into the first water storage tank 1 through the inlet pipeline 14, and the water and the plant nutrient are fully fused through the rotation of the rotary shaft 10 and the stirring of the blades 1001; after the rainwater is collected, the rainwater in the first water storage tank 1 is pumped out by the water pump through the water outlet pipe 16 as an auxiliary water pumping device, and is sprayed by the spraying pipeline 101 and the spraying head aiming at plants, so that the reasonable utilization of water resources is realized.
The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the utility model, and is not meant to limit the scope of the utility model, but to limit the utility model to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the utility model are intended to be included within the scope of the utility model.
Claims (10)
1. The landscape water saving system comprises a first water storage tank (1), and is characterized by also comprising a conical water inlet disc (3);
the bottom of the conical water inlet disc (3) is provided with an opening, and the conical water inlet disc is arranged at the opening at the top of the first water storage tank (1), and the inner space of the conical water inlet disc (3) is communicated with the interior of the first water storage tank (1); a plurality of water inlet holes (301) are formed in the side face of the conical water inlet disc (3);
a rotating shaft (10) is arranged on the inner axis of the conical water inlet disc (3), and the rotating shaft (10) can rotate around the axis of the rotating shaft; the side wall of the rotating shaft (10) is provided with a connecting piece (11), one end, far away from the rotating shaft (10), of the connecting piece (11) is provided with a brush (12), and the brush (12) is clung to the inner side wall of the conical water inlet disc (3).
2. A landscape architecture water saving system according to claim 1, wherein the connecting piece (11) comprises a connecting plate (1101), both ends of the connecting plate (1101) are respectively connected with the rotating shaft (10) and a brush (12); the plane of the connecting flat plate (1101) is parallel to the axial direction of the rotating shaft (10) and perpendicular to the side surface of the conical water inlet disc (3).
3. A landscape architecture water saving system according to claim 2, wherein the two sides of the connecting plate (1101) are provided with clamping plates (1102), and the clamping plates (1102) and the side wall of the rotating shaft (10) are fixed; the two clamping plates (1102) clamp the connecting flat plate (1101) inside, and further comprise a first bolt (1103) connecting the clamping plates (1102) and the connecting flat plate (1101).
4. A landscape architecture water saving system according to claim 3, wherein the clamping plate (1102) is further provided with an arc bolt hole (1104), the arc bolt hole (1104) is provided with a second bolt (1105), and the second bolt (1105) sequentially passes through the arc bolt hole (1104) and the clamping plate (1102).
5. A landscape architecture water saving system according to claim 1, wherein the first water storage tank (1) has a rotary motor (13) at the bottom, a shaft sleeve (305) is provided at the top of the inner side of the conical water inlet tray (3), the lower end of the rotary shaft (10) is connected to the output end of the rotary motor (13), and the upper end of the rotary shaft (10) is rotatably connected to the shaft sleeve (305).
6. A landscape architecture water saving system according to claim 1, wherein the first water reservoir (1) side wall is connected with an inlet pipe (14), the inlet pipe (14) being used for delivering plant nutrition agent to the first water reservoir (1); the part of the rotating shaft (10) positioned in the first water storage tank (1) is provided with a blade (1001).
7. The landscape water saving system according to claim 1, wherein the outer side surface of the first water storage tank (1) is further provided with a pump box (15), a water pump is arranged in the pump box (15), a water outlet pipe (16) connected with the inlet of the water pump is arranged in the first water storage tank (1), the outlet of the water pump is connected with a spraying pipeline (101), and a spraying head is arranged on the spraying pipeline (101).
8. The landscape water saving system according to claim 1, further comprising an inverted cone-shaped water receiving disc (2), wherein the inverted cone-shaped water receiving disc (2) is connected with the top of the first water storage tank (1) through a lifting assembly (4), and the lifting assembly (4) is used for driving the inverted cone-shaped water receiving disc (2) to lift;
the bottom of the inverted cone-shaped water receiving disc (2) is provided with an opening for the top of the cone-shaped water inlet disc (3) to extend in.
9. A landscape architecture water saving system according to claim 8, wherein the top of the first water storage tank (1) is also provided with a second water storage tank (5), and the conical water inlet disc (3) is positioned inside the second water storage tank (5); the conical water inlet disc (3) extends out of the top opening of the second water storage tank (5); a water inlet gap is reserved between the top opening of the second water storage tank (5) and the outer side of the conical water inlet disc (3).
10. The landscape water saving system according to claim 9, wherein both sides of the second water storage tank (5) are provided with sliding rails (501), a folding rain cloth (17) is arranged above the inverted cone-shaped water receiving tray (2), both ends of the folding rain cloth (17) are connected with sliding rods, and the sliding rods are in sliding connection with the sliding rails (501) and can transversely slide.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322121526.2U CN220528886U (en) | 2023-08-07 | 2023-08-07 | Landscape water saving system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322121526.2U CN220528886U (en) | 2023-08-07 | 2023-08-07 | Landscape water saving system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220528886U true CN220528886U (en) | 2024-02-27 |
Family
ID=89973250
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322121526.2U Active CN220528886U (en) | 2023-08-07 | 2023-08-07 | Landscape water saving system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220528886U (en) |
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2023
- 2023-08-07 CN CN202322121526.2U patent/CN220528886U/en active Active
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