CN204266290U - Rain water collecting system - Google Patents

Abstract

The utility model relates to a kind of rain water collecting system, at least one water storage box comprising linker and connect with linker; The water intake end of linker is higher than the water side of linker; The lowest water level of water storage box is higher than the water side of linker; Linker comprises at least one section of pipeline isolated with ground.Under rainwater draws by the utility model from high to low, for people to use, such as, rainwater under drawing can be the source of streams, gardens, fountain or waterfall, doing so avoids in use by the problem that lifting means is flooded, take full advantage of the potential energy of water, both taken full advantage of resource and turn avoid the problem of environmental pollution caused when using lifting means; Meanwhile, linker part is embedded in underground or makes somebody a mere figurehead, and such linker can avoid the positions such as bottom surface road or gardens, makes stringing reasonable, attractive in appearance.

Description

Rain water collecting system

Technical field

The utility model relates to rainwater-collecting reutilization system, more particularly, relates to a kind of rain water collecting system.

Background technology

The Collection utilization of rainwater has had the applicating history of decades in developed country.In the last few years, along with the fast development of China's economy and the enhancing of people's environmental consciousness, the rainwater-collecting application of China also achieves significant progress, and the sustainable development of rainwater catchment system to economic society has the important meaning.Rainwater catchment system is the rainwater-collecting the position such as roof or platform, for the living water use of undrinkable water, and such as irrigate vegetation, view such as construction artificical stream or waterfall etc., toilet flushing etc.

Current rainwater catchment system is the rainwater accumulation of will conflux at lower position, when needing to use rainwater, by lifting means, the rainwater of accumulation must be promoted, so just need to increase lifting means, and do not utilize the potential energy of rainwater fully, cause the waste of resource like this.In addition, current rainwater catchment system is generally apply in the cell, and due to the impact in the bottom surface road in community or gardens etc., and when causing rainwater catchment system, stringing is more difficult and unsightly.

To sum up, there is following defect in rainwater catchment system of the prior art: need to use lifting means to flood during use, to underuse resource, stringing more difficult and unsightly.

Utility model content

The technical problems to be solved in the utility model is, for the above-mentioned defect of prior art, provides a kind of and rain-water accumulating is stayed a high position, can avoid the waste of resource, rain water collecting system that stringing is reasonable and attractive in appearance.

The utility model solves the technical scheme that its technical problem adopts: construct a kind of rain water collecting system, at least one water storage box comprising linker and connect with linker; The water intake end of linker is higher than the water side of linker; The lowest water level of water storage box is higher than the water side of linker; Linker comprises at least one section of pipeline isolated with ground.

Rain water collecting system of the present utility model, linker is provided with the valve controlling current.

Rain water collecting system of the present utility model, linker is provided with the bucket for reducing water pressure in pipeline.

Rain water collecting system of the present utility model, linker and/or water storage box are connected with the overflow device overflowed for controlling rainwater.

Rain water collecting system of the present utility model, linker comprises the underground pipeline that at least one section is embedded in underground.

Rain water collecting system of the present utility model, rain water collecting system is connected with the sand trap for filtering foreign material.

Rain water collecting system of the present utility model, sand trap offers service ports.

Rain water collecting system of the present utility model, linker comprises at least one section of overhead pipeline of making somebody a mere figurehead on ground.

Rain water collecting system of the present utility model, water storage box is positioned at upstream and/or the downstream of linker.

Rain water collecting system of the present utility model, water storage box is connected with the pipeline for guiding current.

Lowest water level described in the application is actual lowest water level or design lowest water level.Water storage box described in the application is the container of accumulation rainwater, and can be independently water storage box, also can be that pipeline or linker partial enlargement are formed container.

Implement rain water collecting system of the present utility model, there is following beneficial effect: under rainwater draws by the utility model from high to low, for people to use, such as, rainwater under drawing can be the source of streams, gardens, fountain or waterfall, doing so avoids in use by the problem that lifting means is flooded, take full advantage of the potential energy of water, both taken full advantage of resource and turn avoid the problem of environmental pollution caused when using lifting means; Alleviate the pressure that rainy day, rainwater concentrated discharge to cause city planting ductwork; Meanwhile, linker part is embedded in underground or makes somebody a mere figurehead, and such linker can avoid the positions such as bottom surface road or gardens, makes stringing reasonable, attractive in appearance.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described, wherein:

Fig. 1 is the structural representation of the first embodiment of the utility model rain water collecting system;

Fig. 2 is the structural representation of the second embodiment of the utility model rain water collecting system;

Fig. 3 is the structural representation of the 3rd embodiment of the utility model rain water collecting system;

Fig. 4 is the structural representation of the 4th embodiment of the utility model rain water collecting system;

Fig. 5 is the structural representation of the 5th embodiment of the utility model rain water collecting system;

Fig. 6 is the structural representation of the 6th embodiment of the utility model rain water collecting system.

Detailed description of the invention

In order to there be understanding clearly to technical characteristic of the present utility model, object and effect, now contrast accompanying drawing and describe detailed description of the invention of the present utility model in detail.

First embodiment

As shown in Figure 1, be the structural representation of the first embodiment of the utility model rain water collecting system.The present embodiment is the embodiment that the rainwater collected of a kind of utilization forms the waterfall on artificial hillock 6.The rain water collecting system of the present embodiment, linker comprises 3 sections of storm sewers be interconnected: the VERTICAL TUBE 11 of laying outside building, the U-shaped buried pipe 12 being embedded in underground and the outlet pipe 13 be embedded in artificial hillock 6.The water intake end 3 of linker is higher than the level height of water side 4, after rainwater enters from water intake end 3, due to the effect of potential energy, and can automatic stream water side 4.Cai in order to form waterfall when needs on artificial hillock, at top, building, the upstream position being positioned at linker installs a water storage box 2, and at least one valve 5 installed by pipeline between water storage box 2 and water side 4.The water storage box 2 of this setting needs to ensure that its minimum design water level can higher than the level height of water side 4, to ensure that the water in water storage box can flow out from water side 4.

When the rainy day, valve 5 is closed, and rainwater flow in water storage box 2 from water intake end 3 and stores.When needs use rainwater to form waterfall time, as long as open valve 5, the rainwater of water storage box 2 inside just can flow out from water side 4 automatically, forms the waterfall on artificial hillock 6.

Preferably, VERTICAL TUBE 11 is laid on the outside of building, can reduce construction volume like this, convenient installation; Certainly, in certain embodiments, the pipeline connecting valve 5 place also can bend and be arranged in building, is so just placed in building by valve 5, is convenient for people to the on/off operation to valve 5 in building.

Be communicated with owing to have employed the U-shaped buried pipe 12 being embedded in underground from VERTICAL TUBE 11 to outlet pipe 13, the normal walking of the pedestrian on ground, automobile would not be affected like this.Certainly, also the pipeline of this part can be changed into built on stilts setting, as long as itself and ground are isolated, not affect traffic above-ground.

Implement the present embodiment, avoid the problem of setting up lifting means and flooding, take full advantage of the potential energy of water, both taken full advantage of resource and turn avoid the problem of environmental pollution caused when using lifting means, alleviate the pressure that rainy day, rainwater concentrated discharge to cause city planting ductwork simultaneously.

Second embodiment

If Fig. 2 is the second embodiment of the present utility model, the present embodiment is a kind of improved form of the first embodiment.In the present embodiment, the position of water storage box 2 is moved on to the inside of artificial hillock 6 from the roof of the first embodiment, and keep the height of minimum design water level higher than delivery port 4 of water storage box 2, storage rainwater can be played equally, and the effect that release uses when needing.Linker in this example is U-shaped pipe.

Further, in the present embodiment, introduce a bucket 7, be arranged in VERTICAL TUBE 11 as separator.Bucket 7 can reduce the hydraulic pressure of pipe interior, avoids the injury that water under high pressure may cause water pipe or human body.It should be noted that the position of this bucket 7 must be arranged on the position higher than water side 4, such guarantee rainwater can enter in water storage box 2 normally.

Real-time the present embodiment, adds bucket 7 to control hydraulic pressure compared to the first embodiment, avoids the problem that the hydraulic pressure of pipe-line system is too high, is especially applicable to the pipeline laid along higher floor.In addition, the artificial hillock of lower position arranges water storage box, its difficulty installs water storage box additional difficulty than on building is low, easilier arranges on existing fabric structure.

3rd embodiment

If Fig. 3 is the 3rd embodiment of the present utility model, the present embodiment is the ground fountain utilizing rainwater to manufacture.The present embodiment can pass through simply to improve realization on the basis of the first embodiment:

Remove the artificial hillock 6 in the first embodiment, and outlet pipe 13 is replaced, use a shorter vertical water pipe to be communicated with buried pipe 12.

When the rainy day, valve 5 is closed, and rainwater flow in water storage box 2 from water intake end 3 and stores.When needs use rainwater to form waterfall time, as long as open valve 5, the rainwater of water storage box 2 inside just can flow out from water side 4 automatically, forms fountain.If increase atomising device in water side 4, being atomized by rainwater, can also be that city lowers the temperature in summer.

4th embodiment

If Fig. 4 is the 4th embodiment of the present utility model, the present embodiment is a kind of improved form of the first embodiment.In the present embodiment, the position of water storage box 2 is moved on to the inside of artificial hillock 6 from the roof of the first embodiment, and keep the lowest water level of water storage box 2 higher than the height of delivery port 4, storage rainwater can be played equally, and the effect that release uses when needing.

Further, water storage box 2 is provided with spout hole 21, in the present embodiment, spout hole 21 is positioned at the upper position of the sidewall of water storage box, effectively can guide current like this, avoids the excessive phenomenon of the water of water storage box 2 under full water state.Those skilled in the art can also relate to the overflow device of other types as required, avoids the water level in water storage box 2 too high.

In addition, in the present embodiment, linker is not directly at artificial hillock upper water-out, forms waterfall.But take from the top of water storage box 2 first to water storage box 2 water filling, and then by pipeline, the water in water storage box 2 is discharged formation waterfall from water side 4.After the rainwater flowed into by the water intake end 3 of linker like this have passed through VERTICAL TUBE 11 and buried pipe 12, the current of the larger hydraulic pressure of generation can not directly flow out from water side 4, avoid the situation that the waterfall of formation is too fierce, have ensured the safety of surrounding people.

Further, at buried pipe 12 place, be also provided with sand trap 8, when rainwater flows through sand trap 8, the tiny sandstone in rainwater can, in sand trap 8, avoid sandstone to block the water pipe of end.Sand trap 8 offers service ports 81, and maintenance personal can remove the sandstone of deposition in sand trap 8 by this service ports 81.

5th embodiment

As the structural representation that Fig. 5 is the 5th embodiment of the present utility model, the present embodiment is collected rainwater in slope.Bury multiple water storage box (201,202) underground at the differing heights place of slope, each water storage box has water intake end (301,302) alone, and these water storage boxes are interconnected by the pipeline of underground, and is finally connected to water side 4 place of artificial hillock 6.The lowest water level height of all water storage boxes all needs higher than the level height of water side 4, to ensure that water can normally flow out.

Rainwater is stored after water intake end flow into water storage box, when needing to use by the control of valve, being discharged by rainwater from water side 4, forming waterfall.

Pipeline between multiple water storage box is provided with valve, can regulates the water level between water storage box by the control of valve, avoid occurring that the spill-over of indivedual water storage box water goes out, other water storage box then also has the situation of a lot of water storage space to occur.

Further, all right valvular water pipe of mounting strap of sidewall bottom of each water storage box, to draw the height of water level using or regulate cistern interior by the rainwater in water storage box.

6th embodiment

In the 5th embodiment, rain water collecting system employs the collection that multiple water storage box carries out rainwater in slope.Same, multiple water storage box (201,202) also can be set in building and artificial hillock and carry out retaining.As shown in the 6th embodiment of Fig. 6, the volume that several water storage box can reduce single water storage box is set, reduces the impact on view, or reduce point load, bring greater flexibility to building or landscape design.

In addition, the set-up mode of multiple water storage box can also slow down the hydraulic pressure flowed out from water side 4, in figure 6, water storage box 202 in building and the water storage box 201 in artificial hillock 6 pass through pipeline communication, VERTICAL TUBE 11 is then connected on the water storage box 202 in building, the water storage box 202 of rainwater in building of high hydraulic pressure is cushioned, thus slow down hydraulic pressure when rainwater flows out from water side 4.

In addition, the water storage box 202 arranged in building can also, for the librarian use in building, make the wide usage of rain water collecting system be improved.

In above-mentioned multiple embodiments, linker is for connecting formed single-pathway piping network by water pipe, when reality uses, lateral can also be installed additional on pipeline, make the rainwater collected can be supplied to multiple different place simultaneously, or collect the one or more different place of rainwater supply from multiple different place.

By reference to the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to above-mentioned detailed description of the invention; above-mentioned detailed description of the invention is only schematic; instead of it is restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; do not departing under the ambit that the utility model aim and claim protect, also can make a lot of form, these all belong within protection of the present utility model.

Claims (7)

1. a rain water collecting system, is characterized in that, at least one water storage box (2) comprising linker and connect with described linker; The water intake end (3) of described linker is higher than the water side (4) of described linker; The lowest water level of described water storage box (2) is higher than the water side (4) of described linker; Described linker comprises at least one section of pipeline isolated with ground; Described linker comprises the underground pipeline (12) that at least one section is embedded in underground; Described linker is provided with the valve (5) controlling current.

2. rain water collecting system according to claim 1, is characterized in that, described linker is provided with the bucket (7) for reducing water pressure in pipeline.

3. rain water collecting system according to claim 1, is characterized in that, described linker and/or water storage box (2) are connected with the overflow device (21) overflowed for controlling rainwater.

4. rain water collecting system according to claim 1, is characterized in that, described rain water collecting system is connected with the sand trap (8) for filtering foreign material.

5. rain water collecting system according to claim 4, is characterized in that, described sand trap (8) offers service ports (81).

6. rain water collecting system according to claim 1, is characterized in that, described water storage box is positioned at upstream and/or the downstream of linker.

7. rain water collecting system according to claim 1, is characterized in that, described water storage box is connected with the pipeline for guiding current.