阅读说明：本技术 一种适应多水源收集功能的雨水收集利用系统 (Rainwater collection and utilization system adapting to multi-water-source collection function ) 是由 曹明成 于 2021-09-26 设计创作，主要内容包括：本发明公开了一种适应多水源收集功能的雨水收集利用系统,涉及雨水收集利用技术领域,具体为储水模块、自来水补充模块和空调水收集模块,所述储水模块通过管道A与自来水补充模块相连接,且储水模块通过管道B与雨水收集模块相连接,所述储水模块还通过管道C与空调水收集模块相连接,所述储水模块包括第一水室、电子阀、第二水室、浮球阀和水位传感器,所述第一水室通过电子阀连接有第二水室,所述第二水室的内部安装有水位传感器。该适应多水源收集功能的雨水收集利用系统,通过自来水补充模块、雨水收集模块、空调水收集模块可以实现多水源收集功能,以保障第一水室、第二水室内部水体充足,以便供给人们正常使用需求,避免水量缺失。(The invention discloses a rainwater collecting and utilizing system adapting to a multi-water-source collecting function, which relates to the technical field of rainwater collection and utilization, and specifically comprises a water storage module, a tap water replenishing module and an air-conditioning water collecting module, wherein the water storage module is connected with the tap water replenishing module through a pipeline A, is connected with the rainwater collecting module through a pipeline B, and is also connected with the air-conditioning water collecting module through a pipeline C, the water storage module comprises a first water chamber, an electronic valve, a second water chamber, a ball float valve and a water level sensor, the first water chamber is connected with the second water chamber through the electronic valve, and the water level sensor is arranged in the second water chamber. This rainwater that adapts to multiple water source and collects function collects utilizes system can realize multiple water source through running water supplement module, rainwater collection module, air conditioner water collection module and collects the function to the inside water of guarantee first hydroecium, second hydroecium is sufficient, so that supply with people's normal use demand, avoids the water yield disappearance.)

1. The utility model provides a rainwater that adapts to multiple water sources and collects function is collected and is utilized system, includes water storage module (1), running water supply module (2) and air conditioner water collection module (4), its characterized in that: the air conditioner water storage system is characterized in that the water storage module (1) is connected with a tap water replenishing module (2) through a pipeline A, the water storage module (1) is connected with a rainwater collecting module (3) through a pipeline B, the water storage module (1) is further connected with an air conditioner water collecting module (4) through a pipeline C, the water storage module (1) comprises a first water chamber (101), an electronic valve (102), a second water chamber (103), a ball float valve (104) and a water level sensor (105), the first water chamber (101) is connected with the second water chamber (103) through the electronic valve (102), the ball float valve (104) is arranged inside the first water chamber (101), and the water level sensor (105) is arranged inside the second water chamber (103).

2. The rainwater collection and utilization system adapting to the multi-water-source collection function according to claim 1, wherein: the first water chamber (101) is connected with a tap water replenishing module (2) through a pipeline A, and the tap water replenishing module (2) is used for replenishing tap water into the first water chamber (101).

3. The rainwater collection and utilization system adapting to the multi-water-source collection function according to claim 1, wherein: the second water chamber (103) is connected with the rainwater collection module (3) through a pipeline B, and the second water chamber (103) is connected with the air-conditioning water collection module (4) through a pipeline C.

4. The rainwater collection and utilization system adapting to the multi-water-source collection function according to claim 1, wherein: the rainwater collection module (3) is used for collecting water bodies in natural rainfall, and the air conditioner water collection module (4) is used for collecting air conditioner drainage.

5. The rainwater collection and utilization system adapting to the multi-water-source collection function according to claim 1, wherein: first hydroecium (101) are connected with human water module (5) through pipeline D, and human water module (5) are with the water operation that human body directly correlated with, second hydroecium (103) are connected with domestic water module (8) through pipeline F, and domestic water module (8) are the water operation that human body is indirectly correlated with, and domestic water module (8) can be for washing closestool water, washing water.

6. The rainwater collection and utilization system adapting to the multiple water source collection function according to claim 5, wherein: the water module (5) for human includes washing water and drinking water.

7. The rainwater collection and utilization system adapting to the multi-water-source collection function according to claim 1, wherein: the second water chamber (103) is connected with a greening drip irrigation module (6) through a pipeline E, the greening drip irrigation module (6) comprises a flow valve (601) and a drip irrigation water pipe (602), and the flow valve (601) is connected with the drip irrigation water pipe (602).

8. The rainwater collection and utilization system adapting to the multiple water source collection function according to claim 7, wherein: the flow valve (601) is connected with a water supply adjusting module (7) through Bluetooth, the water supply adjusting module (7) comprises a timing unit (701) and a quantitative unit (702), and the timing unit (701) and the quantitative unit (702) are connected with the flow valve (601).

9. The rainwater collection and utilization system adapting to the multiple water source collection function according to claim 8, wherein: the timing unit (701) is used for adjusting the opening and closing time of the flow valve (601), and the quantitative unit (702) is used for adjusting the water quantity which can pass through the flow valve (601) when the flow valve (601) is opened each time.

10. The rainwater collection and utilization system adapting to the multi-water-source collection function according to claim 1, wherein: rainwater collection module (3) is including mounting plate (301), torsional spring (302), telescopic link (303), bearing (304), leading water pipe (305), slide (306) and filter screen (307), the inside arrangement of the left end of mounting plate (301) has torsional spring (302), and the outer wall of torsional spring (302) installs telescopic link (303), the right-hand member surface of mounting plate (301) is provided with bearing (304), and the top of bearing (304) is connected with leading water pipe (305), the left end bottom of leading water pipe (305) is provided with slide (306), and the inner wall equidistance embedding of slide (306) has filter screen (307), filter screen (307) are connected with pipeline B.

Technical Field

The invention relates to the technical field of rainwater collection and utilization, in particular to a rainwater collection and utilization system suitable for a multi-water-source collection function.

Background

The rainwater is collected and is utilized system is just collected the system of recycling to natural rainfall as the name implies, collects the rainwater and stores and draws the water through the pump body, pipeline according to the demand and use when the natural rainfall, can effectively reduce the water supply demand to water works to reduce water cost.

The existing rainwater collection and utilization system is only used for recycling rainwater through collection, but natural rainfall cannot always keep the water storage capacity in the system sufficient all the time, and water is often easily available, so that the normal water demand of people cannot be met.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a rainwater collecting and utilizing system which is suitable for a multi-water-source collecting function, and solves the problems that the existing rainwater collecting and utilizing system provided in the background art is only used for recycling rainwater through collection, but natural rainfall cannot always keep the water storage capacity in the system sufficient all the time, and water is often easily unavailable, so that the normal water demand of people cannot be met.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a rainwater that function was collected to adaptation multiple water sources utilizes system, includes water storage module, running water supply module and air conditioner water collection module, water storage module supplements the module with the running water through pipeline A and is connected, and water storage module is connected with rainwater collection module through pipeline B, water storage module still is connected with air conditioner water collection module through pipeline C, water storage module includes first hydroecium, electronic valve, second hydroecium, ball-cock assembly and level sensor, first hydroecium is connected with the second hydroecium through the electronic valve, and the internally mounted of first hydroecium has the ball-cock assembly, the internally mounted of second hydroecium has level sensor.

Optionally, the first water chamber is connected to a tap water replenishing module through a pipeline a, and the tap water replenishing module is configured to replenish tap water into the first water chamber.

Optionally, the second water chamber is connected with the rainwater collection module through a pipeline B, and the second water chamber is connected with the air conditioner water collection module through a pipeline C.

Optionally, the rainwater collection module is used for collecting water bodies of natural rainfall, and the air conditioner water collection module is used for collecting air conditioner drainage.

Optionally, the first water chamber is connected with the human water using module through a pipeline D, the human water using module is operated by water directly related to a human body, the second water chamber is connected with the domestic water using module through a pipeline F, the domestic water using module is operated by water indirectly related to the human body, and the domestic water using module can be used for flushing a toilet and cleaning water.

Optionally, the human water module comprises wash water and drinking water.

Optionally, the second water chamber is connected with a greening drip irrigation module through a pipeline E, the greening drip irrigation module includes a flow valve and a drip irrigation water pipe, and the flow valve is connected with the drip irrigation water pipe.

Optionally, the flow valve is connected with a water supply adjusting module through bluetooth, the water supply adjusting module includes a timing unit and a quantitative unit, and the timing unit and the quantitative unit are both connected with the flow valve.

Optionally, the timing unit is used for adjusting the opening and closing time of the flow valve, and the quantitative unit is used for adjusting the water quantity which can pass through the flow valve when the flow valve is opened every time.

Optionally, the rainwater collection module includes mounting plate, torsional spring, telescopic link, bearing, leading water pipe, slide and filter screen, the inside arrangement of the left end of mounting plate has the torsional spring, and the outer wall of torsional spring installs the telescopic link, mounting plate's right-hand member surface is provided with the bearing, and the top of bearing is connected with the leading water pipe, the left end bottom of leading water pipe is provided with the slide, and the inner wall equidistance embedding of slide has the filter screen, the filter screen is connected with pipeline B.

The invention provides a rainwater collecting and utilizing system adapting to a multi-water-source collecting function, which has the following beneficial effects:

the multi-water-source collecting function can be realized through the tap water supplementing module, the rainwater collecting module and the air-conditioning water collecting module, so that the water bodies in the first water chamber and the second water chamber are sufficient, the normal use requirements of people are met, and the water quantity loss is avoided.

1. This adaptation multiple water sources collects rainwater of function and collects utilizes system, the second hydroecium is used for storing rainwater and air conditioner drainage, and be used for driping irrigation the afforestation, and can adjust the time of opening and shutting of flow valve and be used for driping irrigation the afforestation water consumption at any time through timing unit and ration unit, avoid causing the water waste when adapting to the required water consumption of plant production, adjust the water yield simultaneously according to the real-time growth state of plant and drip irrigation time so that better adaptation vegetation.

2. This system is collected to rainwater that function was collected to adaptation multiple water sources utilizes, and the second hydroecium passes through water level sensor and responds to inside water level in real time to open the electronic valve when low water level and supply water to the second hydroecium by first hydroecium, thereby guarantee the inside water yield of second hydroecium is sufficient, and first hydroecium passes through the ball-cock assembly and opens and shuts along with the water level change, carries out the water yield by running water supplementary module to first hydroecium and supplements, and the guarantee water yield is sufficient.

3. This adaptation multiple water sources collects rainwater of function and collects utilizes system, the inside water of second hydroecium is used for driping irrigation the plant and human indirect water of using, can be used for washing the closestool, washs burnisher, and first hydroecium is owing to be connected with running water supply module, can be human direct water of using, namely can regard as drinking water, the water of washing one's face and rinsing one's mouth, can ensure that people's water is healthy to avoid the mistake water to produce the disease through distinguishing the water of using.

4. This rainwater that function was collected to adaptation multiple water sources collects utilizes system, confirm whether start the telescopic link according to roof or topography shape, be favorable to adapting to different topography and settle rainwater collection module, and be favorable to keeping the leading pipe slope, fall inside the leading pipe and slide along its lower one end when the rainwater descends, the rainwater passes the filter screen at the slip in-process and gets into in the second hydroecium along pipeline B, and external impurity is then kept apart on filter screen upper portion, impurity slides the drainage leading pipe under the thrust effect that the rainwater flows to produce simultaneously, thereby realized self-cleaning, avoid the filter screen to take place to block up.

Drawings

FIG. 1 is a schematic overall flow diagram of the present invention;

FIG. 2 is a schematic view of an internal flow of a water storage module according to the present invention;

FIG. 3 is a schematic view of the internal flow of the greening drip irrigation module of the present invention;

FIG. 4 is a schematic structural view of a rainwater collection module according to the present invention;

FIG. 5 is a schematic side view of the water conduit according to the present invention;

FIG. 6 is an enlarged view of the structure at A in FIG. 4 according to the present invention.

In the figure: 1. a water storage module; 101. a first water chamber; 102. an electronic valve; 103. a second water chamber; 104. a float valve; 105. a water level sensor; 2. a tap water supplement module; 3. a rainwater collection module; 301. mounting a bottom plate; 302. a torsion spring; 303. a telescopic rod; 304. a bearing; 305. a water conduit; 306. a slideway; 307. filtering with a screen; 4. an air conditioner water collection module; 5. a water module for human use; 6. a greening drip irrigation module; 601. a flow valve; 602. a drip irrigation pipe; 7. a water supply adjusting module; 701. a timing unit; 702. a dosing unit; 8. domestic water module.

Detailed Description

As shown in fig. 1-2, the present invention provides a technical solution: a rainwater collection and utilization system adapting to a multi-water-source collection function comprises a water storage module 1, a tap water supplement module 2 and an air-conditioning water collection module 4, wherein the water storage module 1 is connected with the tap water supplement module 2 through a pipeline A, the water storage module 1 is connected with the rainwater collection module 3 through a pipeline B, the water storage module 1 is further connected with the air-conditioning water collection module 4 through a pipeline C, the water storage module 1 comprises a first water chamber 101, an electronic valve 102, a second water chamber 103, a ball float valve 104 and a water level sensor 105, the first water chamber 101 is connected with the second water chamber 103 through the electronic valve 102, the ball float valve 104 is installed inside the first water chamber 101, the water level sensor 105 is installed inside the second water chamber 103, the first water chamber 101 is connected with the tap water supplement module 2 through a pipeline A, the tap water supplement module 2 is used for supplementing tap water into the first water chamber 101, and the second water chamber 103 is connected with the rainwater collection module 3 through a pipeline B, the second water chamber 103 is connected with the air-conditioning water collecting module 4 through a pipeline C, the rainwater collecting module 3 is used for collecting water bodies of natural rainfall, the air-conditioning water collecting module 4 is used for collecting drainage water of an air conditioner, the first water chamber 101 is connected with the human water using module 5 through a pipeline D, the human water using module 5 is used for water operation directly related to human bodies, and the human water using module 5 comprises washing water and drinking water;

the specific operation is as follows, firstly, the air-conditioning water collection module 4 collects the air-conditioning drainage water to the second water chamber 103, the rainwater collection module 3 collects the natural rainfall to the second water chamber 103, the tap water replenishing module 2 injects the tap water into the first water chamber 101, the first water chamber 101 is separated from the second water chamber 103 due to the poor quality of the rainwater and the air-conditioning drainage water, the water quality is prevented from mixing, the water level in the second water chamber 103 is sensed in real time by the water level sensor 105, the water level in the second water chamber 103 is sensed by the water level sensor 105 after the water level in the second water chamber 103 is reduced, the electronic valve 102 is opened, the first water chamber 101 injects water into the second water chamber 103, so that the water quantity in the second water chamber 103 is kept sufficient, the water quantity in the first water chamber 101 is replenished by the tap water replenishing module 2 after the water level in the first water chamber 101 is reduced, the water quantity in the first water chamber 101 is sufficient, and the first water chamber 101 is connected with the human water using module 5, that is, the water inside the first water chamber 101 can be used as water directly related to the human body, that is, the water inside the first water chamber 101 can be used as washing water and drinking water.

As shown in fig. 1-3, the second water chamber 103 is connected to the greening drip irrigation module 6 through a pipeline E, the greening drip irrigation module 6 includes a flow valve 601 and a drip irrigation water pipe 602, the flow valve 601 is connected to the drip irrigation water pipe 602, the flow valve 601 is connected to a water supply adjustment module 7 through bluetooth, the water supply adjustment module 7 includes a timing unit 701 and a quantitative unit 702, the timing unit 701 and the quantitative unit 702 are both connected to the flow valve 601, the timing unit 701 is used for adjusting the opening and closing time of the flow valve 601, and the quantitative unit 702 is used for adjusting the amount of water that can pass through the flow valve 601 each time it is opened;

the specific operation is as follows, the inside water of second hydroecium 103 can be regarded as the water of driping irrigation, be used for driping irrigation the plant, the inside water of second hydroecium 103 drips after passing through flow valve 601 entering drip irrigation water pipe 602 and is absorbed by soil this moment, thereby for the plant provides moisture, and can adjust the opening and closing time of flow valve 601 and be used for driping irrigation the water consumption of afforestation at any time through timing unit 701 and ration unit 702, drip irrigation the rhizome position of plant through regularly quantitively, avoid causing the water waste when providing the required water consumption of plant production, adjust the water yield and drip irrigation time so that better adaptation vegetation according to the real-time growth state of plant simultaneously.

As shown in fig. 1-2, the second water chamber 103 is connected to the domestic water module 8 through a pipe F, and the domestic water module 8 is operated by water indirectly related to the human body, and the domestic water module 8 can be used for flushing a toilet or cleaning water;

the specific operation is as follows, the water body in the second water chamber 103 can also be used as indirect water, and the domestic water module 8 can use the indirect water for flushing a toilet and cleaning tools;

as shown in fig. 1-2 and 4-6, the rainwater collection module 3 includes an installation bottom plate 301, a torsion spring 302, a telescopic rod 303, a bearing 304, a water conduit 305, a slideway 306 and a filter screen 307, the torsion spring 302 is arranged inside the left end of the installation bottom plate 301, the telescopic rod 303 is arranged on the outer wall of the torsion spring 302, the bearing 304 is arranged on the right end surface of the installation bottom plate 301, the water conduit 305 is connected to the top of the bearing 304, the slideway 306 is arranged at the bottom of the left end of the water conduit 305, the filter screen 307 is embedded in the inner wall of the slideway 306 at equal intervals, and the filter screen 307 is connected with the pipeline B;

installation base plate 301 installs in the house top, and whether start telescopic link 303 according to roof or topography shape determination, if the roof is flat, telescopic link 303 starts to stretch out, telescopic link 303 is rotatory and its top slides along slide 306 inside under torsional spring 302 effect this moment, make leading water pipe 305 left end lift up and use bearing 304 to rotate as the centre of a circle and be the slope form, the rainwater falls inside leading water pipe 305 and slides along its lower one end when descending, the rainwater passes filter screen 307 and gets into in second hydroecium 103 along pipeline B in the slip in-process, and external impurity is then kept apart in filter screen 307 upper portion, impurity slides under the thrust effect that the rainwater flow produced and discharges leading water pipe 305 simultaneously, thereby realized self-cleaning, avoid filter screen 307 to take place the jam, and roof or topography are the slope then do not start and also can make leading water pipe 305 keep the slope.

In summary, the rainwater collecting and utilizing system adapted to the multi-water-source collecting function is used by firstly installing the installation bottom plate 301 on the top of the house, and determines whether to start the telescopic rod 303 according to the shape of the roof, if the roof is flat, the telescopic rod 303 is started to extend, at the moment, the telescopic rod 303 rotates under the action of the torsion spring 302 and the top of the telescopic rod slides along the inside of the slideway 306, so that the left end of the water conduit 305 is lifted and rotates around the bearing 304 to form an inclined shape, rainwater falls into the water conduit 305 and slides along the lower end of the water conduit when falling, and the rainwater passes through the filter screen 307 and enters the second water chamber 103 along the pipeline B in the sliding process, the foreign matters are isolated from the upper portion of the screen 307, and the foreign matters are discharged out of the penstock 305 by sliding under the thrust generated by the flowing of the rainwater, therefore, self-cleaning is realized, the filter screen 307 is prevented from being blocked, and the water conduit 305 can be kept inclined even if the telescopic rod 303 is not started when the roof is pitched;

the air conditioner water collection module 4 collects air conditioner drainage water to the second water chamber 103, the rainwater collection module 3 collects natural rainfall to the second water chamber 103, and the tap water supplement module 2 injects tap water into the first water chamber 101, so that the first water chamber 101 is isolated from the second water chamber 103 due to poor quality of the rainwater and the air conditioner drainage water, and the water quality is prevented from mixing;

then the water inside the second water chamber 103 can be used as water for drip irrigation for plant, at this time, the water inside the second water chamber 103 enters the drip irrigation water pipe 602 through the flow valve 601 and then drips out to be absorbed by soil, so as to provide water for the plant, the opening and closing time of the flow valve 601 and the water consumption for drip irrigation greening can be adjusted at any time through the timing unit 701 and the quantifying unit 702, and the root and stem parts of the plant are drip-irrigated by timing and quantifying, so that the water consumption required by plant production is provided, meanwhile, the water consumption and the drip irrigation time are adjusted according to the real-time growth state of the plant, so as to better adapt to the growth of the plant;

the water body in the second water chamber 103 can be used as indirect water, and the domestic water module 8 can use the indirect water for flushing a toilet and cleaning a cleaning tool;

then, the water level in the second water chamber 103 is sensed in real time through the water level sensor 105, when the water level in the second water chamber 103 is reduced and then sensed by the water level sensor 105, the electronic valve 102 is opened, water is filled into the second water chamber 103 from the first water chamber 101, and the water quantity in the second water chamber 103 is kept sufficient;

after the water level in the first water chamber 101 drops, the ball float valve 104 is opened to supplement the water amount of the first water chamber 101 by the tap water supplement module 2, so that the water amount in the first water chamber 101 is ensured to be sufficient, and the first water chamber 101 is connected with the human water use module 5, namely, the water body in the first water chamber 101 can be used as water directly related to a human body, namely, the water body in the first water chamber 101 can be used as washing water and drinking water.