CN212836050U - Assembled wall structure capable of collecting rainwater - Google Patents

Abstract

The utility model relates to a can carry out assembled wall structure that rainwater was collected belongs to assembly type building technical field, include: the drainage plate is arranged on the side wall of the top of the wall body, a drainage port is formed in the side wall of the wall body and corresponds to the drainage plate, a first water storage cavity is formed in the wall body and communicated with the drainage port, a filter layer is arranged in the middle of the first water storage cavity, a first overflow port is formed in the first water storage cavity and is close to the side wall of the bottom, a second water storage cavity is formed in the bottom of the wall body, a water inlet is formed in the side wall of the wall body and corresponds to the second water storage cavity, a flow guide pipe is formed in one side of the wall body and is connected with the first overflow port and the water inlet at two ends of the wall body, a second overflow port is formed in the second water storage cavity and is far away from one side of the water inlet, a water. Through implementing above-mentioned scheme, on the one hand can collect the inside rainwater of invasion wall body, and on the other hand can effectively utilize rainwater resource, reaches the purpose of environmental protection water.

Description

Assembled wall structure capable of collecting rainwater

Technical Field

The utility model relates to an assembly type structure technical field especially relates to an assembly type wall structure that rainwater was collected can carry out.

Background

The existing fabricated building is mainly composed of structures such as a floor slab, a wallboard, a stair, a balcony and the like, wherein a fabricated wall body is also called a fast wall and is a wall body which is produced by factory production, finished product production at a construction site and modular assembly.

The existing assembled wall mainly adopts the principle of a cast-in-place shear wall, galvanized light steel keels are used as supporting frameworks, a high-strength glass magnesium flat plate is used as a panel, and the wall finally formed after environment-friendly flame-retardant light slurry is poured into the glass magnesium flat plate can ensure the flatness of the wall surface and improve the integrity, the sound insulation and the seismic strength of the wall.

The technical scheme has the following defects: the outer wall body of current assembly type structure when meetting rainy season, high-rise wall body often can receive the direct impact of rainwater, and in the reality, some cracks also can produce some in long-term use in some high-rise outer walls, lead to the rainwater to permeate into the wall body inside and can't discharge in the crack of wall body is direct easily, make the inside bacterium that not only breeds of wall body, but also can influence building wall body's stability. Accordingly, further improvements to existing fabricated walls are needed.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a can carry out assembled wall structure that rainwater was collected can carry out effectual collection to the inside rainwater of invasion wall body on the one hand, and on the other hand can also the effectual rainwater resource that utilizes, reaches the purpose of environmental protection water.

The above object of the present invention can be achieved by the following technical solutions:

an assembled wall structure that can collect rainwater, comprising: the drainage plate is arranged on the side wall of the top of the wall body, a drainage port is formed in the side wall of the wall body and corresponds to the drainage plate, a first water storage cavity is formed in the wall body and communicated with the drainage port, a filter layer is arranged in the middle of the first water storage cavity, a first overflow port is formed in the first water storage cavity and is close to the side wall of the bottom, a second water storage cavity is formed in the bottom of the wall body, a water inlet is formed in the side wall of the wall body and corresponds to the second water storage cavity, a flow guide pipe is formed in one side of the wall body and is connected with the first overflow port and the water inlet at two ends of the wall body, a second overflow port is formed in the second water storage cavity and is far away from one side of the water inlet, a water pumping.

Through adopting the above-mentioned setting, when raining, adjust the angle that opens and shuts of drainage plate through setting up adjusting part on the wall body, thereby make the rainwater flow through behind the drainage mouth along the drainage plate, through the filtration of filter layer and fall to first water storage chamber, the rainwater subsides the back through stewing of first water storage chamber, from first water storage chamber outflow, back is stored to second water storage chamber through honeycomb duct drainage, after the capacity in second water storage chamber is exceeded to the water yield, the rainwater can be taken out the use through the subassembly that draws water after the second overflow mouth flows out, through implementing above-mentioned scheme, thereby can carry out effectual collection to the inside rainwater of invasion wall body, and can also effectually utilize rainwater resource, reach the purpose of environmental protection water.

The utility model discloses further set up the adjusting part include, set up at the symmetrical and hollow connecting block that sets up of wall body lateral wall to and set up the dwang of wearing to locate the connecting block in drainage plate near wall body one side and both ends, the one end of dwang is provided with the screw thread and fixes mutually with the connecting block through the nut.

Through adopting above-mentioned setting, when the drainage plate need be opened to rainy, unscrew the nut earlier, later rotate the drainage plate downwards, the bolt is screwed up to the rethread, and then can fix the position that the drainage plate opened after, when stopping rain, in order to prevent that dust and gravel from entering into first water storage intracavity, consequently need closed drainage plate, at this moment can come to adjust the drainage plate through adjusting part once more to reach the purpose of closed drainage plate.

The utility model discloses further set up the subassembly that draws water includes: the water outlet pipe is arranged on one side of the wall body and corresponds to the position of the second overflow port, the water suction pump is arranged on the ground and is communicated with the water outlet pipe, and a water stop valve is arranged between the water outlet pipe and the water suction pump.

Through adopting above-mentioned setting, after the water yield exceeded the capacity in second water storage chamber, the rainwater flowed out from the second overflow mouth and can be taken out the use by the suction pump behind the outlet pipe, through setting up the stagnant water valve, can prevent that the rainwater from contacting with the suction pump for a long time and leading to the suction pump to be corroded.

The utility model is further provided with a communicating vessel on the side wall of the wall body corresponding to the second water storage cavity.

Through adopting above-mentioned setting, the water level in second water storage chamber can real-timely be observed to can in time open the suction pump and extract the rainwater in the outlet pipe when needs draw water.

The utility model is further provided with a water outlet end of the water pump is provided with a water pumping pipe communicated with an indoor tap water pipe.

Through adopting above-mentioned setting to can realize abundant utilization to the rainwater that the wall body was collected, can reach the purpose of water economy resource to a certain extent.

The utility model is further provided with a water absorbing layer above the first water storage cavity and the second water storage cavity.

Through adopting above-mentioned setting, through setting up the layer that absorbs water to can absorb the rainwater of infiltration in the wall body is inside.

The utility model is further provided with that the opening area of the water inlet end of the flow guide pipe is larger than that of the water outlet end.

Through adopting above-mentioned setting, can accelerate the speed that the honeycomb duct was flowed through to the rainwater to can effectually prevent that first water storage chamber from overflowing from the drainage mouth because of the speed that the rainwater flowed out is too slow when heavy rain.

The utility model discloses it is further set up that the wall body outside is provided with the header tank that the bottom has the shower head, the one end that the suction pump was kept away from to the drinking-water pipe is provided with the tee bend ball valve, the one end header tank of tee bend ball valve is linked together, and the other end is linked together with indoor water pipe.

Through adopting above-mentioned setting, through setting up the header tank, when dry season, can utilize the rainwater of collecting in the second water storage intracavity to spray the vegetation around the wall body, and then can reach the purpose of water economy resource to a certain extent.

To sum up, the utility model discloses following beneficial effect has:

1. by adopting the arrangement, when raining, the opening and closing angle of the drainage plate is adjusted by arranging the adjusting component on the wall body, so that rainwater flows through the drainage port along the drainage plate and then falls to the first water storage cavity after being filtered by the filter layer, the rainwater flows out of the first water storage cavity after standing and settling of the first water storage cavity and then is drained to the second water storage cavity through the diversion pipe for storage, when the water volume exceeds the capacity of the second water storage cavity, the rainwater can flow out of the second overflow port and then is pumped out for use through the water pumping component, and the purpose of saving water resources is achieved by collecting and utilizing the rainwater in the wall body;

2. through adopting the above-mentioned setting, when rain need open the drainage plate, can press the second regulating block towards dwang axle center orientation earlier, then stimulate the drainage plate to the assigned position downwards, loosen the second regulating block again, make the second regulating block insert in the space between the limiting plate, thereby make second regulating block and limiting plate butt, and then can fix the position after the drainage plate is opened, when stopping rain, enter into first water storage intracavity in order to prevent dust and gravel and sand, consequently need closed drainage plate, at this moment can directly upwards pull up the drainage plate, the second regulating block can follow the dwang and rotate towards the direction of wall body, treat the drainage plate and laminate behind the wall body, second regulating block position can be because of fixing with the limiting plate butt this moment, thereby reach the purpose of closed drainage plate.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention;

fig. 2 is a cross-sectional view in the width direction of the wall body;

fig. 3 is a sectional view of the wall body in the longitudinal direction.

Reference numerals: 1. a wall body; 11. a drainage plate; 111. rotating the rod; 12. a drainage opening; 13. a first water storage cavity; 131. a filter layer; 132. a first overflow port; 14. a second water storage cavity; 141. a water inlet; 142. a second overflow port; 143. a water-absorbing layer; 15. a flow guide pipe; 16. a water outlet pipe; 161. a water stop valve; 17. connecting blocks; 2. a water pump; 21. a water pumping pipe; 22. a three-way ball valve; 23. a tap water pipe; 3. a communicating vessel; 4. a water collection tank; 41. and a spray header.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In this embodiment:

an assembled wall structure for rainwater collection, as shown in fig. 1 and 2, comprising: in order to make the rainwater flow into wall body 1 along predetermined direction and collect, so install drainage plate 11 at the lateral wall of wall body 1, and drainage plate 11 is located fissured top position, simultaneously, in order to adjust the angle that opens and shuts of drainage plate 11 in a flexible way, be provided with adjusting part at 1 lateral wall of wall body, specifically, adjusting part includes: connecting block 17 of installation at wall 1 lateral wall to and install the dwang 111 that is close to wall 1 one side at drainage plate 11, wherein, connecting block 17 is worn to locate at dwang 111 both ends, is provided with the screw thread in the one end of dwang 111, and dwang 111 passes through the nut and is fixed with connecting block 17 looks butt.

When raining, the drainage plate 11 needs to be opened to collect rainwater, at this time, the nut can be unscrewed outwards firstly, then the drainage plate 11 is rotated downwards, and after the drainage plate 11 rotates to a specified angle in a specified direction, the nut is screwed inwards, so that the nut is abutted to the connecting block 17, and the purpose of fixing the position of the drainage plate 11 after being opened is achieved.

When stopping rain, in order to prevent outdoor sand and dust from entering into wall body 1, therefore need closed drainage plate 11, at this moment, can unscrew the nut outwards earlier, later upwards rotate drainage plate 11, until drainage plate 11 and wall body 1 laminating back, screw up the nut again, make nut and connecting block 17 looks butt to reach closed drainage plate 11's purpose.

As shown in fig. 2 and 3, in order to enable rainwater to flow into the wall body 1 for collection, a drainage port 12 is provided on the side wall of the wall body 1, the position of the drainage port 12 corresponding to the position of the drainage plate 11, a first water storage chamber 13 is provided inside the wall body 1, the position of the first water storage chamber 13 corresponding to the drainage port 12 is provided, and meanwhile, in order to filter dust mixed with rainwater, a filter layer 131 is further installed in the middle of the first water storage chamber 13, a first overflow port 132 is provided on the side wall of the first water storage chamber 13, and the first overflow port 132 is provided on the lower end face of the first water storage chamber 13 close to the filter layer 131.

When raining, the rainwater flows in from the drainage plate 11, enters into the filter layer 131 after flowing through the drainage port 12 and filters, and the filtered rainwater flows into the first water storage chamber 13 again to be collected preliminarily, and when the rainwater collected in the first water storage chamber 13 is too much, the rainwater can directly flow out from the first overflow port 132.

As shown in fig. 2 and 3, the draft tube 15 is installed at the first overflow port 132, the second water storage chamber 14 is opened at the bottom of the inner side of the wall 1, and the draft tube 15 communicates with the second water storage chamber 14 through the water inlet 141 opened at the side wall of the second water storage chamber 14 at the end of the draft tube 15 far from the first overflow port 132. Meanwhile, in order to prevent rainwater in the first water storage cavity 13 from overflowing from the drainage port 12 due to the fact that rainwater cannot be timely drained during rainstorm, the flow guide pipe 15 is set to be larger than the opening area of the water outlet end, so that the speed of flowing the rainwater through the flow guide pipe 15 can be increased, and the speed of flowing the rainwater out of the first water storage cavity 13 is increased to a certain extent.

As shown in fig. 1 and 2, a second overflow port 142 is formed in a side wall of the second water storage cavity 14, the second overflow port 142 is formed at a side away from the water inlet 141, a water outlet pipe 16 is installed at the second overflow port 142, a water suction pump 2 is installed at one end of the water outlet pipe 16 away from the second overflow port 142, and a water stop valve 161 is installed between the water outlet pipe 16 and the water suction pump 2 to prevent rainwater from contacting the water suction pump 2 for a long time.

Meanwhile, a water suction pipe 21 is installed at the output end of the water suction pump 2, a three-way ball valve 22 is installed at one end, far away from the water suction pump 2, of the water suction pipe 21, a water collection tank 4 is further arranged on the outer side of the wall body 1, a spray header 41 is installed at the bottom of the water collection tank 4, one end of the three-way ball valve 22 is communicated with a water inlet of the water collection tank 4, and the other end of the three-way ball valve is communicated with an indoor tap water pipe 23.

When raining continuously, the water suction pump 2 can be started to extract rainwater collected in the second water storage cavity 14 and transfer the rainwater to the water collecting tank 4, the spray head 41 can be started to spray vegetation planted around the wall body 1 in dry seasons, and in addition, when water is needed indoors, the water suction pump 2 can also be started to directly extract rainwater in the second water storage cavity 14 for use, so that the purpose of saving water resources is achieved.

In addition, as shown in fig. 2 and 3, in order to absorb rainwater penetrating into the wall 1, a water absorbing layer 143 is installed on both the first water storage cavity 13 and the second water storage cavity 14, in this embodiment, the water absorbing layer 143 is made of sponge, and in order to observe the water level in the second water storage cavity 14 in real time, a communicating vessel 3 is installed on the outer side of the wall 1, and the communicating vessel 3 is correspondingly installed at the position of the second water storage cavity 14.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment as required without contribution after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. An assembled wall structure that can collect rainwater, comprising: the drainage plate (11) is obliquely arranged on the wall body (1) and is positioned above the crack; a drainage port (12) which is arranged on the side wall of the wall body (1) and corresponds to the drainage plate (11); the first water storage cavity (13) is arranged in the wall body (1) and communicated with the drainage port (12); the filter layer (131) is arranged in the middle of the first water storage cavity (13); a first overflow port (132) arranged on the side wall of the first water storage cavity (13) close to the bottom; a second water storage cavity (14) arranged at the bottom of the wall body (1); a water inlet (141) which is arranged on the side wall of the wall body (1) and corresponds to the second water storage cavity (14); a guide pipe (15) which is arranged on one side of the wall body (1) and two ends of which are connected with the first overflow port (132) and the water inlet (141); a second overflow port (142) arranged on one side of the second water storage cavity (14) far away from the water inlet (141); the water pumping assembly is arranged on the inner side of the wall body (1) and used for pumping water; and the adjusting component is arranged at the joint of the drainage plate (11) and the wall body (1) and is used for adjusting the angle of the drainage plate (11).

2. An assembly type wall structure for collecting rainwater according to claim 1, wherein said adjusting means comprises: the connecting blocks (17) are arranged on the outer side wall of the wall body (1) symmetrically and are arranged in a hollow manner; the rotating rod (111) is arranged on one side of the drainage plate (11) close to the wall body (1), and two ends of the rotating rod penetrate through the connecting block (17); one end of the rotating rod (111) is provided with threads and is fixed with the connecting block (17) through a nut.

3. An assembled wall structure for collecting rainwater according to claim 1 wherein said water pumping assembly comprises: the water outlet pipe (16) is arranged on one side of the wall body (1) and corresponds to the second overflow port (142); and the water suction pump (2) is arranged on the ground and communicated with the water outlet pipe (16), and a water stop valve (161) is arranged between the water outlet pipe (16) and the water suction pump (2).

4. An assembled wall structure capable of collecting rainwater according to claim 3, wherein the side wall of the wall (1) corresponding to the second water storage cavity (14) is provided with a communicating vessel (3).

5. An assembled wall structure for collecting rainwater according to claim 3, wherein the outlet end of the water pump (2) is provided with a water pumping pipe (21) communicated with a tap water pipe (23) in a room.

6. An assembled wall structure for collecting rainwater according to claim 1, wherein a water absorbing layer (143) is disposed above the first water storage chamber (13) and the second water storage chamber (14).

7. An assembled wall structure for collecting rainwater according to claim 1 wherein the opening area of the water inlet end of the draft tube (15) is larger than the opening area of the water outlet end.

8. The assembled wall structure capable of collecting rainwater according to claim 5, wherein a water collecting tank (4) with a spray header (41) at the bottom is arranged on the outer side of the wall (1), a three-way ball valve (22) is arranged at one end of the water pumping pipe (21) far away from the water pumping pump (2), one end of the three-way ball valve (22) is communicated with the water collecting tank (4), and the other end of the three-way ball valve is communicated with an indoor tap water pipe (23).

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