CN113179929A - A collect and cyclic utilization system for gardens rainwater - Google Patents

Abstract

The application relates to a collecting and recycling system for garden rainwater, which relates to the technical field of ecological environment construction, which comprises a tank body, wherein the upper surface of the tank body is provided with a water inlet, the tank body is communicated with a water storage tank, the water storage tank is positioned above the tank body, a partition plate and a filter plate are arranged in the water storage tank, the partition plate divides the water storage tank into a pressurization cavity and a water storage cavity, the water storage cavity is positioned above the pressurizing cavity, the filter plate is positioned in the water storage cavity, a water pump is arranged in the tank body, the water outlet of the water pump is communicated with a water pipe, the bottom of the water storage tank is communicated with a plurality of irrigation pipes, a plurality of permeation holes are arranged on the irrigation pipes, watering pipe is laid at vegetation root system place soil layer, retaining jar inside wall just is located and pressurizes the intracavity and be provided with a plurality of level sensor, and is a plurality of level sensor with solenoid valve electric connection. This application has the effect that make full use of rainwater irrigates.

Description

A collect and cyclic utilization system for gardens rainwater

Technical Field

The application relates to the technical field of ecological environment construction, in particular to a collecting and recycling system for garden rainwater.

Background

The garden is a beautiful natural environment and a rest territory which are created by applying engineering technology and artistic means in a certain region and by modifying terrain, planting trees, flowers and plants, building buildings, arranging garden roads and the like, and the garden comprises a garden, a residential garden, a small garden, a park, a vegetable garden, an animal park and the like, and also comprises a forest park, a square, a street, a scenic spot, a natural protection area or a visiting area and a rest resort of a national park along with the development of a garden subject.

In the maintenance is carried out to the gardens vegetation, need use a large amount of water resources to its irrigation that waters, at present, in order to reduce the waste of water resource, appear all kinds of rainwater collection device at present and collect the rainwater, be used for watering device to water when needs, alleviated the waste of water resource to a certain extent.

However, most of the existing garden watering adopts a sprinkling irrigation mode to utilize rainwater, and the problem of low rainwater utilization rate exists.

Disclosure of Invention

In order to improve the utilization ratio to the rainwater, this application provides a collection and cyclic utilization system for gardens rainwater.

The application provides a collect and cyclic utilization system for gardens rainwater adopts following technical scheme:

a collecting and recycling system for garden rainwater comprises a pool body, wherein a water inlet is formed in the upper surface of the pool body, the pool body is communicated with a water storage tank, the water storage tank is positioned above the pool body, a partition plate and a filter plate are arranged in the water storage tank, the partition plate divides the water storage tank into a pressurizing cavity and a water storage cavity, the water storage cavity is positioned above the pressurizing cavity, the filter plate is positioned in the water storage cavity, a water pump is arranged in the pool body, a water outlet of the water pump is communicated with a water pipe, the other end of the water pipe is communicated with the side wall of the water storage tank and is close to the top of the water storage tank, a through pipe for communicating the pressurizing cavity and the water storage cavity is arranged on the partition plate, an electromagnetic valve is arranged in the through pipe, the bottom of the water storage tank is communicated with a plurality of irrigation pipes, a plurality of permeation holes are formed in the irrigation pipes, the irrigation pipes are laid on soil layers where vegetation root systems are located, the inner side wall of the water storage tank is provided with a plurality of liquid level sensors in the pressurizing cavity, and the liquid level sensors are electrically connected with the electromagnetic valve.

By adopting the technical scheme, rainwater enters the tank body through the water inlet, then the rainwater is pumped into the water storage cavity through the water pump, the rainwater flows into the pressurizing cavity after being filtered by the filter plate, the water in the pressurizing cavity flows into the irrigation pipe and irrigates the roots of the plants, and the irrigation mode is replaced by adopting the irrigation mode so as to reduce the waste of water resources; simultaneously, through the setting of solenoid valve, can control the height of pressurization intracavity water level to the water pressure size that receives in this control watering pipe, the infiltration volume of watering pipe is controlled through the size of control water pressure, realizes the watering of the different water yield of different time to the plant, make full use of water resource, thereby further avoid the waste of water resource.

Preferably, the upper surface of the water storage tank is provided with a maintenance opening, and the water storage tank is provided with a cover cap covering the maintenance opening.

Through adopting above-mentioned technical scheme, maintenance mouth and block's setting can be convenient for the staff and change the filter in to the accumulator to avoid the filter to block up and lead to water can't pass through the filter.

Preferably, the filter includes filter screen, lower filter screen and sponge layer, the sponge layer is located between filter screen and the lower filter screen, one side of filter screen is provided with the screw rod down towards last filter screen, go up be provided with on the filter screen with screw rod threaded connection's screw hole.

Through adopting above-mentioned technical scheme, when changing the filter, rotate the filter screen for go up the filter screen and break away from the screw rod, then change the sponge layer, need not change last filter screen, lower filter screen, simple structure, it is convenient to change.

Preferably, one side of the cap facing the filter plate is provided with an air cylinder, one end of the air cylinder output rod is fixed on the upper filter screen, and the air cylinder drives the filter plate to slide along the height direction of the water storage tank.

Through adopting above-mentioned technical scheme, when the water of retaining intracavity is less, the cylinder drives the filter rebound to accelerate the speed that water passes through the filter, accelerate the filter to the filter rate of water with this.

Preferably, the inside wall of the water storage tank is provided with a plurality of guide grooves along the height direction of the water storage tank, and the filter plate is provided with guide blocks which slide in the corresponding guide grooves.

Through adopting above-mentioned technical scheme, the setting of guide way and guide block has injectd the removal orbit of filter for the filter is more stable at the removal in-process.

Preferably, be provided with on the cell body the diapire in the cell body is provided with a plurality of fenders, the fender is provided with mud cleaning assembly towards water inlet one side.

Through adopting above-mentioned technical scheme, the setting of fender can avoid passing through of silt for the water that the water pump was taken in the retaining jar is more clean, and it is intraductal to reduce silt and get into the watering, thereby avoids the jam of watering pipe.

Preferably, clear mud subassembly includes many guide bars, mud pushing plate, drive arrangement, receipts mud bucket and stay cord, the lateral wall of cell body is provided with the receipts mud passageway that supplies to receive the mud bucket and slide from top to bottom, the one end of stay cord is fixed on receiving the mud bucket, and the other end extends to outside receiving the mud passageway, it is located the lateral wall of cell body to receive the mud bucket, the lateral wall of receiving the mud bucket is provided with a plurality of apopores, the cell body be provided with receive the mud pipe that the mud bucket is linked together, drive arrangement drives mud pushing plate orientation is received the reciprocal slip of mud bucket.

Through adopting above-mentioned technical scheme, under drive arrangement's effect, make the mud pushing plate orientation receive mud bucket place orientation and remove, the mud pushing plate promotes the siltation orientation in the pond and receives the mud bucket, and make the siltation fall into in receiving the mud bucket, then stimulate the stay cord, make and receive the mud bucket and slide in receiving the mud passageway, when pulling out receipts mud passageway with receiving the mud bucket, the water of receiving in the mud bucket flows from the apopore, with the weight of reducing receipts mud bucket, the staff of being convenient for will receive the mud bucket and carry out receipts mud passageway, make things convenient for the staff to take out the siltation.

Preferably, the driving device comprises a motor, a gear and a rack, the axis of the rack is parallel to the guide rod, the motor is fixed on the mud pushing plate, and the gear is fixed on the output shaft of the motor and meshed with the rack.

Through adopting above-mentioned technical scheme, the motor rotates, drives gear revolve, and gear revolve makes and takes place relative movement between mud pushing plate and the rack to in promoting silt to receive the mud bucket, thereby accomplish the collection of silt.

Preferably, the sludge outlet pipe is obliquely arranged, and the lower end of the sludge outlet pipe is close to the sludge collecting barrel.

Through adopting above-mentioned technical scheme, the play mud pipe is the slope setting, can be convenient for silt slide in receiving the mud bucket to accelerate the speed of collecting of mud pushing plate to silt.

Preferably, a plurality of the liquid level sensors are uniformly distributed along the height direction of the water storage tank.

Through adopting above-mentioned technical scheme, control a plurality of level sensor evenly distributed for the infiltration speed of watering pipe obtains controlling, can obtain accurate control with the assurance infiltration volume.

In summary, the present application includes at least one of the following beneficial technical effects:

rainwater enters the tank body through the water inlet, then the rainwater is pumped into the water storage cavity through the water pump, the rainwater flows into the pressurizing cavity after being filtered by the filter plate, the water in the pressurizing cavity flows into the irrigation pipe and irrigates the roots of the plants, and the irrigation mode is replaced by the irrigation mode so as to reduce the waste of water resources; meanwhile, the water level in the pressurizing cavity can be controlled by the arrangement of the electromagnetic valve, so that the water pressure applied to the irrigation pipe is controlled, the water seepage amount of the irrigation pipe is controlled by controlling the water pressure, irrigation of different water amounts of plants at different time is realized, water resources are fully utilized, and waste of the water resources is further avoided;

when the filter plate is replaced, the upper filter screen is rotated to be separated from the screw rod, then the sponge layer is replaced, the upper filter screen and the lower filter screen do not need to be replaced, the structure is simple, and the replacement is convenient;

the liquid level sensors are controlled to be uniformly distributed, so that the water seepage speed of the irrigation pipe is controlled, and the water seepage amount can be accurately controlled.

Drawings

FIG. 1 is an overall schematic view of the present embodiment;

FIG. 2 is a schematic sectional view of the present embodiment;

FIG. 3 is an exploded view of the highlighted filter plate in this embodiment;

fig. 4 is a partial view of the driving device in this embodiment.

Reference numerals: 1. a tank body; 2. a water inlet; 3. a water storage tank; 31. a pressurization cavity; 32. a water storage cavity; 4. a water pipe; 5. a water pump; 6. a partition panel; 7. pipe passing; 8. an electromagnetic valve; 9. a filter plate; 91. a filter screen is arranged; 92. a lower filter screen; 93. a sponge layer; 94. a screw; 95. a threaded hole; 96. opening a hole; 10. irrigating a pipe; 11. a penetration hole; 12. a liquid level sensor; 13. a maintenance port; 14. capping; 15. a cylinder; 16. a guide groove; 17. a guide block; 18. a fender; 19. a mud cleaning component; 191. a guide bar; 192. a mud pushing plate; 193. a drive device; 1931. a rack; 1932. a gear; 1933. a motor; 194. a sludge collection channel; 195. a mud collecting barrel; 196. a water outlet hole; 197. pulling a rope; 198. and (4) a mud outlet pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a collection and cyclic utilization system for gardens rainwater. Referring to fig. 1 and 2, including cell body 1, cell body 1 buries in the ground, and the water inlet 2 that is linked together with the drainage canal in park is seted up to the upper surface of cell body 1, installs water storage tank 3 subaerial, and water storage tank 3's lateral wall and the position intercommunication that is close to the top have a water pipe 4, and the other end and the cell body 1 inside of water pipe 4 are linked together, and cell body 1 internal fixation has the water pump 5 that is linked together with water pipe 4. The rainwater in the pool body 1 can be conveyed into the water storage tank 3 through the water pump 5.

Then, partition panel 6 is equipped with in water storage tank 3 horizontal installation, partition panel 6 is with water storage tank 3 inside pressurization chamber 31 and water storage chamber 32 of being divided into, pressurization chamber 31 is located the below of water storage chamber 32, install the siphunculus 7 that the intercommunication adds pressure chamber 31 and water storage chamber 32 on the partition panel 6, install solenoid valve 8 in siphunculus 7, install filter 9 in water storage chamber 32, water pipe 4 is linked together and is located the top of filter 9 with water storage chamber 32, watering pipe 10 that a plurality of and pressurization chamber 31 are linked together is installed to the bottom of water storage tank 3, watering pipe 10 is laid in vegetation root system place soil horizon, watering pipe 10 is gone up and has been seted up a plurality of infiltration holes 11 along its length direction, evenly install a plurality of level sensor 12 along its direction of height in the pressurization chamber 31, a plurality of level sensor 12 and 8 electric connection of solenoid valve.

The rainwater is through in the drainage channel retrieves cell body 1, extract the rainwater to retaining chamber 32 in through water pump 5, filter the back through filter 9, in siphunculus 7 inflow pressurization chamber 31, level sensor 12 of co-altitude can detect out the liquid level height that liquid is different in the pressurization chamber 31, the water pressure that highly makes watering pipe 10 receive of different liquid levels is different, make the infiltration rate of watering pipe 10 different, consequently, watering pipe 10 can water according to the condition of difference, with this purpose that reaches the water economy resource.

The maintenance port 13 is formed in the upper end of the water storage tank 3, the filter plate 9 can pass through the maintenance port 13, the outer thread is formed in the position, close to the maintenance port 13, of the side wall of the water storage tank 3, and the cover cap 14 covering the maintenance port 13 is installed on the water storage tank 3 in a threaded mode. After using a period, through rotating block 14 for block 14 and maintenance mouth 13 phase separation, then change filter 9, simple structure, it is convenient to change.

Then, referring to fig. 3, the filter plate 9 includes an upper filter screen 91, a lower filter screen 92 and a sponge layer 93, the upper surface of the lower filter screen 92 is welded with a screw rod 94, the upper filter screen 91 is provided with a threaded hole 95 for the screw rod 94 to be rotatably installed, the upper filter screen 91 is rotatably installed on the lower filter screen 92, the sponge layer 93 is located between the upper filter screen 91 and the lower filter screen 92, and the sponge layer 93 is provided with a hole 96 for the screw rod 94 to pass through. When changing the filter 9, only need to dismantle filter 9 from last filter screen 91 down, then take off sponge layer 93 and change new sponge layer 93 and can accomplish the change to filter 9, need not change monoblock filter 9 to this reduce cost.

Then, be fixed with cylinder 15 in the one side of block 14 orientation filter 9, the one end welding of the 15 output poles of cylinder is on last filter screen 91, and cylinder 15 promotes filter 9 and follows the reciprocal high direction of the jar body of water storage tank 3 and slide. When the water in the water storage chamber 32 is less, the air cylinder 15 drives the filter plate 9 to move upwards, so that the speed of the water passing through the filter plate 9 is increased, and the filtering speed of the filter plate 9 on the water is increased.

Go up filter screen 91 and lower filter screen 92 slidable mounting in water storage tank 3, guide way 16 has been seted up along its direction of height to the inside wall of water storage tank 3, and the welding has the guide block 17 that slides in guide way 16 on lower filter screen 92. Can inject the moving trajectory of filter 9 through guide block 17 and guide way 16 for filter 9 is more stable at the gliding in-process in water storage tank 3, makes filter 9 more stable to water filtration.

Referring to fig. 2, a plurality of mud guards 18 are vertically fixed on the inner bottom wall of the tank body 1, the mud guards 18 are uniformly distributed along the horizontal direction, the mud guards 18 are positioned between the water pump 5 and the water inlet 2, and a mud cleaning assembly 19 is installed on the mud guard 18 close to the water inlet 2.

Referring to fig. 2, mud cleaning assembly 19 includes many guide bars 191, guide bar 191 horizontal welding is in cell body 1, slidable mounting has mud pushing plate 192 on guide bar 191, the lower extreme of mud pushing plate 192 and the upper surface sliding connection of cell body 1, mud pushing plate 192 is kept away from one side of water inlet 2 and is installed and drive mud pushing plate 192 reciprocating slide drive arrangement 193 on guide bar 191, the lateral wall that cell body 1 is close to water inlet 2 is provided with receipts mud passageway 194, receive the bottom of mud passageway 194 and place receipts mud bucket 195, a plurality of apopores 196 have been seted up to the lateral wall of receipts mud bucket 195, be fixed with stay cord 197 on the receipts mud bucket 195, stay cord 197 extends to outside receiving mud passageway 194, cell body 1 sets up the mud pipe 198 that is linked together with receipts mud passageway 194.

The mud pushing plate 192 moves towards the mud collecting channel 194 under the action of the driving device 193, so that mud enters the mud collecting channel 194 from the mud discharging pipe 198, the mud collecting barrel 195 in the mud collecting channel 194 collects silting, and the mud collecting barrel 195 is pulled out of the mud collecting channel 194 through the pull rope 197 to be cleaned.

Referring to fig. 4, wherein the driving device 193 includes a rack 1931, a gear 1932 and a motor 1933, the rack 1931 is horizontally welded on the sidewall of the mudguard 18, the axis of the rack 1931 is parallel to the axis of the guiding rod 191, the motor 1933 is fixed on the side of the mudguard 192 away from the water inlet 2, and the gear 1932 is fixed on the output shaft of the motor 1933 and meshed with the rack 1931.

Referring to fig. 2, the mud discharging pipe 198 is inclined with its lower end near the mud collecting bucket 195, and the mud discharging pipe 198 is tapered with its smaller end near the mud collecting bucket 195.

The implementation principle of the collection and cyclic utilization system for the garden rainwater in the embodiment of the application is as follows: rainwater enters the pool body 1 through the water inlet 2, then the rainwater is pumped into the water storage cavity 32 through the water pump 5, the rainwater flows into the pressurizing cavity 31 after being filtered by the filter plate 9, the water in the pressurizing cavity 31 flows into the irrigation pipe 10 and irrigates the roots of plants, and the irrigation mode is replaced by the irrigation mode so as to reduce the waste of water resources; simultaneously, through the setting of solenoid valve 8, can control the height of the interior water level of pressurization chamber 31 to the water pressure size that receives in this control watering pipe 10 controls the infiltration volume of watering pipe 10 through the size of control water pressure, realizes the watering of the different water yield of different time to the plant, make full use of water resource, thereby further avoid the waste of water resource.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a collect and cyclic utilization system for gardens rainwater, includes cell body (1), the upper surface of cell body (1) is provided with water inlet (2), its characterized in that: the pool body (1) is communicated with a water storage tank (3), the water storage tank (3) is positioned above the pool body (1), a partition board (6) and a filter board (9) are arranged in the water storage tank (3), the partition board (6) separates the water storage tank (3) into a pressurizing chamber (31) and a water storage chamber (32), the water storage chamber (32) is positioned above the pressurizing chamber (31), the filter board (9) is positioned in the water storage chamber (32), a water pump (5) is arranged in the pool body (1), a water outlet of the water pump (5) is communicated with a water pipe (4), the other end of the water pipe (4) is communicated with the side wall of the water storage tank (3) and a position close to the top, a through pipe (7) for communicating the pressurizing chamber (31) and the water storage chamber (32) is arranged on the partition board (6), an electromagnetic valve (8) is arranged in the through pipe (7), the bottom of the water storage tank (3) is communicated with a plurality of irrigation pipes (10), watering is provided with a plurality of infiltration holes (11) on pipe (10), watering pipe (10) are laid at vegetation root place soil layer, water storage tank (3) inside wall just is located and is provided with a plurality of level sensor (12) in pressurization chamber (31), and is a plurality of level sensor (12) with solenoid valve (8) electric connection.

2. A collection and recycling system for garden stormwater as claimed in claim 1, wherein: the upper surface of the water storage tank (3) is provided with a maintenance opening (13), and the water storage tank (3) is provided with a cover cap (14) covering the maintenance opening (13).

3. A collection and recycling system for garden stormwater as claimed in claim 2, wherein: the filter (9) includes filter screen (91), lower filter screen (92) and sponge layer (93), sponge layer (93) are located filter screen (91) and down between filter screen (92), one side of filter screen (91) is provided with screw rod (94) down towards filter screen (92), go up be provided with on filter screen (91) with screw rod (94) threaded connection's screw hole (95).

4. A collection and recycling system for garden stormwater as claimed in claim 3, wherein: one side that cap (14) are towards filter (9) is provided with cylinder (15), the one end of cylinder (15) output lever is fixed go up on filter screen (91), cylinder (15) drive filter (9) and slide along the direction of height of retaining jar (3).

5. A collection and recycling system for garden stormwater as claimed in claim 4, wherein: the water storage tank is characterized in that a plurality of guide grooves (16) are formed in the inner side wall of the water storage tank (3) along the height direction of the water storage tank (3), and guide blocks (17) sliding in the corresponding guide grooves (16) are arranged on the filter plate (9).

6. A collection and recycling system for garden stormwater as claimed in claim 1, wherein: the sludge cleaning device is characterized in that the tank body (1) is provided with a plurality of mud baffles (18) on the inner bottom wall of the tank body (1), and a sludge cleaning component (19) is arranged on one side of the mud baffles (18) facing the water inlet (2).

7. A collection and recycling system for garden stormwater as claimed in claim 6, wherein: clear mud subassembly (19) include many guide bars (191), mud pushing plate (192), drive arrangement (193), receipts mud bucket (195) and stay cord (197), the lateral wall of cell body (1) is provided with and supplies receipts mud passageway (194) that receive mud bucket (195) and slide from top to bottom, the one end of stay cord (197) is fixed on receiving mud bucket (195), and the other end extends to outside receiving mud passageway (194), receive mud bucket (195) and be located the lateral wall of cell body (1), the lateral wall of receiving mud bucket (195) is provided with a plurality of apopores (196), cell body (1) be provided with receive mud pipe (198) that mud bucket (195) are linked together, drive arrangement (193) drive mud pushing plate (192) are towards receiving mud bucket (195) and are slided in reciprocating.

8. A collection and recycling system for garden stormwater as claimed in claim 7, wherein: the driving device (193) comprises a motor (1933), a gear (1932) and a rack (1931), wherein the axis of the rack (1931) is parallel to the guide rod (191), the motor (1933) is fixed on the mud pushing plate (192), and the gear (1932) is fixed on the output shaft of the motor (1933) and meshed with the rack (1931).

9. A collection and recycling system for garden stormwater as claimed in claim 8, wherein: the mud outlet pipe (198) is arranged obliquely, and the lower end of the mud outlet pipe is close to the mud collecting barrel (195).

10. A collection and recycling system for garden stormwater as claimed in claim 1, wherein: the liquid level sensors (12) are uniformly distributed along the height direction of the water storage tank (3).

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