Roof rainwater collecting and recycling structure of green building design
Technical Field
The utility model relates to the field of roof rainwater collection technology recycling, in particular to a roof rainwater collection and recycling structure of a green building design.
Background
The green building refers to the interior of the building, saves resources to the greatest extent, including energy conservation, land conservation, water conservation and the like, and aims to protect the environment and reduce pollution.
The utility model discloses a building roof rainwater collecting and processing device based on green energy conservation, which comprises a housin, the casing top is equipped with the toper roof, the toper roof is equipped with solar panel, toper roof below is equipped with energy storage device, toper roof edge is equipped with the rain collecting groove, be equipped with the installed part on the rain collecting groove, be equipped with the filter screen on the installed part, the rain collecting groove bottom is equipped with the water leakage pipe, the water leakage pipe below is equipped with deposits the storehouse, it is equipped with filter equipment to deposit the storehouse below, the filter equipment below is equipped with active carbon adsorption equipment, the active carbon adsorption equipment below is equipped with the water leakage board, the water leakage board below is equipped with the storage water tank, and this utility model has solved current collection mechanism and has blocked the water inlet by leaf or other impurity easily, leads to the equipment unable normal rainwater to collect, the processing mechanism needs extra energy supply, extravagant energy.
Above-mentioned device is provided with the sediment storehouse in the inside of casing, filter equipment and the active carbon adsorption device that the inside in sediment storehouse set up is used for handling the rainwater of collecting, filter equipment and active carbon adsorption device are direct to be connected with sediment storehouse, do not possess detachable construction, just lead to the device to use one end time after, operating personnel need wash filter equipment and active carbon adsorption device or when changing, still need open the toper top of casing after, just can clear up, but because of the whole height of casing is great, the hand still can't directly touch filter equipment and active carbon adsorption device when operating personnel clear up, will increase the degree of difficulty of clearance, consequently, we propose a green architectural design's roof rainwater collection cyclic utilization structure.
Disclosure of Invention
The utility model aims to provide a roof rainwater collecting and recycling structure for green building design, which aims to solve the problems in the background technology.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cyclic utilization structure is collected to green architectural design's roof rainwater, includes rainwater collection storehouse and pull rod, the inner wall both ends below in rainwater collection storehouse all is provided with can dismantle the subassembly, and can dismantle the subassembly and include side direction installation piece and block, the inboard block of side direction installation piece has the block, and the top fixedly connected with linking frame of block, pull rod fixedly connected with is in the inboard top of linking frame, the inner wall both ends top in rainwater collection storehouse all articulates there is the drainage board.
Further, the stainless steel spring is welded on one side of the drainage plate, which is far away from the central axis of the rainwater collection bin, and the pull ring is arranged on one side of the drainage plate, which is close to the central axis of the rainwater collection bin.
Further, drain pipes are welded on two sides of the bottom end of the rainwater collecting bin, and the drain pipes are mutually communicated with the rainwater collecting bin.
Further, both ends in the outside of rainwater collection storehouse are all fixed mounting has main pole, and the inside in rainwater collection storehouse is provided with thermal-insulated cotton.
Further, the top block in rainwater collection storehouse has the upper cover that catchments, and the inboard top of upper cover that catchments is provided with preliminary filter screen.
Further, both ends all are provided with movable assembly around the inner wall top of preliminary filter screen, the upper cover that catchments communicates each other with rainwater collection storehouse.
Further, the movable assembly comprises a guide rail and a push plate, and the push plate slides on the inner side of the guide rail.
The utility model provides a roof rainwater collecting and recycling structure for green building design, which has the following beneficial effects: this cyclic utilization structure is collected to green architectural design's roof rainwater adopts the setting that block and side direction installation piece block are connected for the filtration that comprises two filter screens of connecting frame and the inboard installation of connecting frame when needs clearance, operating personnel can be through the mode of opening block and side direction installation piece split, take out filtration from inside the rainwater collection storehouse, thereby make the rainwater collect cyclic utilization structure in the in-service use, can make things convenient for operating personnel to clear up and change filtration.
1. When the rainwater collecting and recycling structure is used for a period of time, an operator needs to clean the filtering structure in the rainwater collecting bin, firstly, the upper water collecting cover is separated from the rainwater collecting bin, then the pull rod is held to pull the rainwater collecting bin slightly upwards, the clamping block is separated from the lateral mounting block, and the filtering structure formed by the connecting frame and the two filtering screens arranged on the inner side of the connecting frame can be detached, so that the filtering structure can be cleaned conveniently.
2. The upper end and the lower end of the water collecting upper cover are in a communicated state, the two filter screens are arranged on the inner side of the water collecting upper cover and can be matched with each other to double filter rainwater passing through the water collecting upper cover, so that the content of foreign matters in the rainwater entering the rainwater collecting bin is greatly reduced, meanwhile, after a certain amount of fixed garbage is accumulated on the surface of the primary filter screen, an operator only needs to hold a handle at the top end of the push plate and then slide to one side, and the push plate can push the garbage to a certain side of the primary filter screen to be accumulated, so that the primary filter screen can be continuously used.
Drawings
FIG. 1 is a schematic perspective view of a roof rainwater collection and recycling structure of a green building design according to the present utility model;
FIG. 2 is a schematic diagram of the front view of a rainwater collection bin of the roof rainwater collection and recycling structure designed by the green building;
FIG. 3 is a schematic top view of a roof rain water collecting cover and guide rails of a green building design of the present utility model;
FIG. 4 is a schematic diagram of a schematic cross-sectional elevation of a rainwater collection bin and connecting frame of a roof rainwater collection and recycling structure of a green building design of the present utility model;
fig. 5 is an enlarged schematic view of the roof rainwater collecting and recycling structure of fig. 4 according to the present utility model.
In the figure: 1. a rainwater collection bin; 2. a detachable assembly; 201. a lateral mounting block; 202. a clamping block; 3. a connection frame; 4. a pull rod; 5. a drainage plate; 6. stainless steel springs; 7. a pull ring; 8. a drain pipe; 9. a main support rod; 10. thermal insulation cotton; 11. a water collecting upper cover; 12. a primary filter screen; 13. a movable assembly; 1301. a guide rail; 1302. a push plate.
Detailed Description
As shown in fig. 1, fig. 4 and fig. 5, a cyclic utilization structure is collected to roof rainwater of green architectural design, including rainwater collection storehouse 1 and pull rod 4, the inner wall both ends below in rainwater collection storehouse 1 all is provided with and can dismantle subassembly 2, and can dismantle subassembly 2 and include side mounting piece 201 and block 202, the inboard block of side mounting piece 201 has block 202, and the top fixedly connected with connecting frame 3 of block 202, pull rod 4 fixed connection is in the inboard top of connecting frame 3, the equal welding in bottom both sides in rainwater collection storehouse 1 has drain pipe 8, and drain pipe 8 and rainwater collection storehouse 1 intercommunication each other, the equal fixed mounting in outside both ends in rainwater collection storehouse 1 has main branch 9, the inner wall both ends top in rainwater collection storehouse 1 all articulates there is drainage plate 5, the rainwater collection cyclic utilization structure that the roof of green building used mainly comprises rainwater collection storehouse 1, drain pipe 8, main tributary 9, cover 11 and parts such as preliminary 12, after the cyclic utilization structure uses, operating personnel need to carry out the filter structure to rainwater collection storehouse 1, the filter structure that just need be separated by the water cover 11 and just can be separated by the user and just the drainage plate 3 is separated from the user to the side mounting plate 1 with the side mounting plate 3, can be separated by the drainage plate 1 more than the user is just with the drainage plate 1 is separated from the side 1, the drainage plate is just to the side-mounted to the drainage plate is separated from the side 1, the user is separated from the side 1 with the drainage plate is connected with the side 1 and can be separated from the drainage plate 1 by the user side 1, the side is just has the side 1 to be connected with the side 1 to the side 1, and can be left 1 is connected with the side 1, and can be left 1.
As shown in fig. 1-3, the inside in rainwater collection storehouse 1 is provided with thermal insulation cotton 10, the top block in rainwater collection storehouse 1 has catchment upper cover 11, and catchment upper cover 11's inboard top is provided with preliminary filter screen 12, catchment upper cover 11's upper and lower both ends are in the state that is linked together, catchment upper cover 11's inboard top is provided with preliminary filter screen 12, preliminary filter screen 12's inboard below then still is provided with another filter screen, two filter screens can mutually support, carry out double filtration to the rainwater that passes catchment upper cover 11, thereby greatly reduced the foreign matter content that the rainwater that gets into in the rainwater collection storehouse 1 contains, both ends all are provided with movable subassembly 13 around preliminary filter screen 12's the inner wall top, catchment upper cover 11 and rainwater collection storehouse 1 intercommunication each other, movable subassembly 13 includes guide rail 1301 and push pedal 1302, and the inboard slip of guide rail 1302 has push pedal 1302, the lower surface of push pedal 1302 is laminated with the upper surface of preliminary filter screen 12, after the preliminary filter screen 12 surface piles up a certain amount of fixed rubbish, operating personnel hold behind the filter screen 1302, then need to slide to the side of push pedal 1302 to make the side of the preliminary filter screen 1302, can continue to slide to the side of the filter screen 1301, thereby can make the side of the preliminary filter screen 1302 slide to the side is carried out to the side after the side is pushed to the side.
In summary, when the roof rainwater collecting and recycling structure of the green building design is used, firstly, as shown in fig. 1 and 2, the roof of the green building mainly comprises a rainwater collecting bin 1, a drain pipe 8, a main support 9, a water collecting upper cover 11, a primary filter screen 12 and other parts, when the roof of the green building is required to be installed, an operator places the rainwater collecting bin 1 above the roof, and then, a bolt penetrates the roof from an installation plate at the bottom end of the main support 9 by using a tool, so that the installation of the rainwater collecting and recycling structure can be completed, then, a pipeline connected with a water storage barrel is connected with the drain pipe 8, when in rainy weather, rainwater can flow into the water collecting upper cover 11, and the primary filter screen 12 can perform primary filtration on the rainwater in the process of circulating the rainwater in the water collecting upper cover 11, after the primary filter screen 12 filters, the filter screen below the inner side of the upper water collecting cover 11 can carry out secondary filtration on rainwater, the rainwater can enter the rainwater collecting bin 1 after twice filtration, when the rainwater flows into the rainwater collecting bin 1, the drainage plate 5 can play a certain drainage role, so that the rainwater can be filtered with the rainwater through the filter structure, two encrypted filter screens arranged on the inner side of the connecting frame 3 can flow into the water storage barrel through the drain pipe 8 and the pipeline after multiple filtration, the rainwater can be recycled, when the rainwater collecting and recycling structure is used for a certain time, an operator needs to clean the filter structure inside the rainwater collecting bin 1, the operator holds the upper water collecting cover 11 to slightly lift upwards according to the view of the illustration of fig. 4 and 5, and separates the upper water collecting cover 11 from the rainwater collecting bin 1, then, the pull rod 4 is held upwards to slightly pull the clamping block 202 and the lateral mounting block 201, at this time, the filtering structure can be separated from the rainwater collecting bin 1, then an operator can adjust the position of the filtering structure again, the filtering structure is pulled out of the rainwater collecting bin 1, when the filtering structure is pulled out, the drainage plate 5 is interfered to the pulling-out work of the filtering structure, other operators hold the pull ring 7 again, then the drainage plate 5 is pushed to the direction of the inner wall of the rainwater collecting bin 1 by utilizing the characteristics of shrinkage and deformability of the stainless steel spring 6, the filtering structure can be pulled out conveniently, in the using process of the rainwater collecting and recycling structure, according to the diagram shown in fig. 3, after a certain amount of fixed garbage is accumulated on the surface of the primary filter screen 12, the operator only needs to hold the handle at the top end of the push plate 1302 and then slide to one side, the push plate 1302 can slide on the inner side of the guide rail 1302 until the push plate 1301 moves to the left side or the right side of the upper cover 11 of the water collecting bin 11, and the push plate 1302 can push the filter screen 1301 to a certain side of the primary filter screen 12 to accumulate garbage, so that the primary filter screen 12 can continue to be used.