CN217501072U - Energy-saving water supply system for high-rise building construction - Google Patents

Abstract

The application relates to the technical field of water delivery in building construction, and particularly discloses an energy-saving water delivery system for high-rise building construction, which has the technical scheme that: including retaining mechanism, recovery mechanism and drainage mechanism, retaining mechanism includes the water storage box, the water storage box is located high-rise building one side, the water storage box upper end is the opening setting, the water storage box intercommunication has the spray pipe that is used for carrying out the water spray to high-rise building, it includes recovery tank to retrieve the mechanism, recovery tank is located high-rise building one side, just recovery tank is located the below of water storage box, drainage mechanism includes the drainage groove, the drainage groove encloses the week side of locating high-rise building and is used for with spray pipe spun water is introduced recovery tank, the drainage groove with recovery tank communicates mutually, it still including being used for with to retrieve the water in the water storage box carry extremely the conveyor components of water storage box. This application has the effect that is favorable to the water economy resource.

Description

Energy-saving water supply system for high-rise building construction

Technical Field

The application relates to the technical field of water delivery in building construction, in particular to an energy-saving water delivery system for high-rise building construction.

Background

The water resources in China are distributed unevenly, the China belongs to a large water-shortage country in the world, the water resources in individual northern areas are still relatively poor, and the tap water supply conditions of large and medium cities in China are also relatively tense.

In the related art, in the construction of a high-rise building, it is necessary to water the sidewalls of the building body after the construction of the building body frame is completed, in order to enhance the adhesion between the bricks and mortar in the building body.

In view of the above-mentioned related art, the inventor believes that after the side wall of the building main body is watered, water flows into the ground from the side wall of the building main body, which causes waste of water resources.

SUMMERY OF THE UTILITY MODEL

In order to be favorable to the water economy resource, this application provides a high-rise building construction is with energy-conserving water feeding system.

The application provides a high-rise building construction is with energy-conserving water feeding system adopts following technical scheme:

the utility model provides a high-rise building construction is with energy-conserving water system of sending, includes retaining mechanism, recovery mechanism and drainage mechanism, retaining mechanism includes the water storage box, the water storage box is located high-rise building one side, the water storage box upper end is the opening setting, the water storage box intercommunication has the spray pipe that is used for carrying out the water spray to high-rise building, recovery mechanism includes recovery tank, recovery tank is located high-rise building one side, just recovery tank is located the below of water storage box, drainage mechanism includes the drainage groove, the drainage groove encloses the week side of locating high-rise building and is used for with spray pipe spun water is introduced recovery tank, the drainage groove with recovery tank communicates mutually, recovery mechanism still including be used for with water in the recovery tank carry extremely the conveying component of water storage box.

By adopting the technical scheme, when raining, rainwater can be collected by arranging the upper end of the water storage tank in an opening manner, and workers can spray water to a high-rise building through the water spray pipe arranged on the water storage tank, so that the adhesion between bricks and mortar in the building main body can be enhanced; spun water flows into the drainage groove along high-rise building's lateral wall in, and the drainage groove can be with the water introduction of collecting carry out recycle in the recovery water tank, simultaneously, conveying element can carry the water of retrieving in the recovery water tank to the cistern recycles to be favorable to the water economy resource.

Preferably, the conveying assembly comprises a conveying water pipe, one end of the conveying water pipe is communicated with the recycling water tank, the other end of the conveying water pipe is communicated with the water storage tank, and a driving part used for conveying water in the recycling water tank to the water storage tank is arranged on the conveying water pipe.

Through adopting above-mentioned technical scheme, carry the water pipe with recovery water tank and water storage box intercommunication, the driving piece can carry the water of retrieving in the recovery water tank to used repeatedly in the water storage box to be favorable to the water economy resource.

Preferably, the opening end of the water storage tank is surrounded by a flaring plate, and the flaring plate is obliquely and upwards arranged along the direction far away from the water storage tank.

By adopting the technical scheme, the flaring plate is favorable for increasing the receiving area of the water storage tank when collecting rainwater, so that the efficiency of collecting rainwater by the water storage tank is improved.

Preferably, the upper end face of the flaring plate is provided with a first filtering piece for covering the opening at the upper end of the flaring plate, and the first filtering piece is rotatably connected with the flaring plate.

Through adopting above-mentioned technical scheme, first filter plays the filtering action, is favorable to preventing that debris from falling into the retaining case, and first filter rotates with the flaring board to be connected and is convenient for the staff to clear up filterable debris on the first filter.

Preferably, a drainage tube is arranged at the bottom of the drainage groove close to the recovery water tank, one end of the drainage tube is communicated with the drainage groove, and the other end of the drainage tube is communicated with the recovery water tank.

Through adopting above-mentioned technical scheme, drainage tube intercommunication drainage groove and recovery water tank are convenient for introduce the water of collecting in the drainage groove in the recovery water tank.

Preferably, the height of the bottom of the drainage groove is gradually reduced along the direction close to the recovery water tank, and the connection part of the drainage tube and the drainage groove is positioned at the lowest point of the bottom of the drainage groove.

Through adopting above-mentioned technical scheme, the tank bottom height of drainage groove reduces along the direction that is close to the recovery water tank gradually and makes the water orientation of collecting in the drainage groove assemble near the direction of recovery water tank, and the drainage tube is located the minimum of drainage groove tank bottom with the junction of drainage groove and is convenient for introduce the recovery water tank with the water that assembles in the drainage groove.

Preferably, the drainage tube is close to the tip of drainage groove is provided with the second and strains the piece, the second strain the piece with the drainage tube can be dismantled and be connected.

Through adopting above-mentioned technical scheme, the second filters and plays the filter effect, is favorable to preventing that debris from falling into the recovery water tank, and the second filters and can dismantle with the drainage tube and be connected the staff of being convenient for and filter the piece to the second and clear up the mediation, is favorable to preventing that the second from filtering the obstructed condition emergence.

Preferably, the second filter includes the chock, the chock with drainage tube interference fit, the chock is seted up and is used for the intercommunication the drainage tube with the through-hole in drainage groove, just the lateral wall of through-hole is provided with the second filter screen.

By adopting the technical scheme, water collected in the drainage groove can flow into the drainage tube through the through holes on the chock blocks and then enters the recovery water tank; the chock and drainage tube interference fit for the chock can be stopped at the tip of drainage tube and realize fixing, and the debris of sneaking into in the second filter screen to the drainage groove filters, is favorable to preventing in debris inflow recovery water tank, and simultaneously, the staff can take out the chock from the drainage tube and clear up convenient and fast.

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

1. through setting up retaining mechanism, drainage mechanism and retrieving the mechanism, retaining mechanism can collect the rainwater, can carry out the water spray operation to high-rise building simultaneously, and drainage mechanism can collect to the water that has spouted and introduce and retrieve in the mechanism, then retrieves the mechanism and can carry the water of retrieving to retaining mechanism again, realizes the cyclic utilization of water resource to be favorable to the water economy resource.

2. The opening end of the water storage tank is surrounded with the opening expansion plate, so that the receiving area of the water storage tank is increased when the rainwater is collected, and the rainwater collection efficiency of the water storage tank is improved.

3. Connect first filtration piece through the up end rotation at the flaring board, be favorable to preventing that debris from falling into the cistern, the staff of being convenient for simultaneously clears up filterable debris on to first filtration piece.

Drawings

Fig. 1 is a schematic overall structure diagram of an energy-saving water supply system according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a drainage mechanism according to an embodiment of the present application.

FIG. 3 is a cross-sectional view of the junction of a drainage channel and a drainage tube in an embodiment of the present application.

Description of reference numerals:

1. a water storage mechanism; 11. a water storage tank; 12. a water spray pipe; 2. a recovery mechanism; 21. a recovery water tank; 22. a delivery assembly; 221. a water delivery pipe; 3. a drainage mechanism; 31. a drainage groove; 4. an opening expanding plate; 5. a drainage tube; 6. a second filter member; 61. a chock; 62. a second filter screen; 7. a support frame; 8. a filter plate; 9. and (4) switching.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an energy-saving water supply system for high-rise building construction, which is shown in figure 1 and is used for being arranged on one side of a high-rise building, and comprises a water storage mechanism 1, a recovery mechanism 2 and a drainage mechanism 3, wherein the water storage mechanism 1 can collect and store rainwater, and a worker can spray water to the high-rise building by using the rainwater collected by the water storage mechanism 1; drainage mechanism 3 can carry out water resource recovery in getting into recovery mechanism 2 with spun water drainage, and recovery mechanism 2 carries the water of retrieving again to retaining mechanism 1 well cycle uses to be favorable to the water economy resource.

With continued reference to fig. 1, the water storage means 1 comprises a water storage tank 11, the water storage tank 11 being located on one side of the high-rise building. Specifically, when the high-rise building is constructed, the support frame 7 is usually fixedly arranged on the peripheral side of the high-rise building so as to facilitate the construction of workers on the high-rise building, and the water storage tank 11 is fixedly arranged on the support frame 7. In this embodiment, the water storage tank 11 is located the top of support frame 7, and the water storage tank 11 upper end is the opening setting, and the open end of water storage tank 11 encloses and is equipped with flaring board 4, and flaring board 4 is the slope along the direction of keeping away from water storage tank 11 and upwards sets up to receiving area when the rainwater is collected to increase water storage tank 11, thereby be favorable to improving the efficiency that water storage tank 11 collected the rainwater.

With continued reference to fig. 1, the upper end surface of the flaring plate 4 is provided with a first filtering member for covering the opening at the upper end of the flaring plate 4, and the first filtering member is rotatably connected with the flaring plate 4. In this embodiment, the first filter is configured as a filter plate 8, and one edge of the filter plate 8 is hinged to and matched with one edge of the opening end of the flaring plate 4, so that the filter plate 8 can be turned over around one edge of the opening end of the flaring plate 4. When the water storage tank 11 collects rainwater, the filter plate 8 is turned over to enable the surface of the filter plate to be abutted against the opening end of the flaring plate 4, and the filter plate 8 is favorable for preventing sundries from falling into the water storage tank 11; when the filter plate 8 overturns to make the surface of the filter plate far away from the opening end of the flaring plate 4, the filter plate 8 is convenient for workers to clean up filtered impurities on the filter plate 8.

With reference to fig. 1, a spray pipe 12 for spraying water to a high-rise building is connected to a side wall of the water storage tank 11, and a switch 9 for opening and closing the spray pipe 12 is provided at an end of the spray pipe 12 far from the water storage tank 11.

Referring to fig. 1 and 2, the recovery mechanism 2 includes a recovery water tank 21, the recovery water tank 21 is located on one side of the high-rise building, the recovery water tank 21 is located below the water storage tank 11, the drainage mechanism 3 includes a drainage groove 31, the drainage groove 31 is surrounded on the peripheral side of the high-rise building and used for introducing water sprayed from the water spray pipe 12 into the recovery water tank 21, and the drainage groove 31 is communicated with the recovery water tank 21.

Referring to fig. 1 and 2, the drainage groove 31 is annularly surrounded at the bottom of the high-rise building, and the height of the bottom of the drainage groove 31 is gradually reduced along the direction close to the recovery water tank 21, so as to improve the drainage efficiency of the drainage groove 31. Meanwhile, the lowest point of the bottom of the drainage groove 31 is connected with a drainage tube 5, the drainage tube 5 is communicated with the drainage groove 31, and the other end of the drainage tube 5 is communicated with the recovery water tank 21. The water sprayed from the water storage tank 11 flows into the drainage groove 31 along the sidewall of the high-rise building and then converges toward the lowest point of the drainage groove 31, so that the water collected in the drainage groove 31 is introduced into the recovery water tank 21 through the drainage tube 5 for recovery.

Referring to fig. 2 and 3, the end of the drainage tube 5 near the drainage groove 31 is provided with a second filtering member 6, and the second filtering member 6 is detachably connected with the drainage tube 5. Specifically, the second filter member 6 comprises a plug 61, and the plug 61 is arranged in a circular truncated cone shape and is in interference fit with the drainage tube 5. The plug 61 is provided with a through hole along the length direction thereof for communicating the drainage tube 5 with the drainage groove 31, and the side wall of the through hole is provided with a second filter screen 62. When chock 61 stopper tight drainage tube 5 is close to the tip of drainage groove 31, the debris of sneaking into in drainage groove 31 are filtered to second filter screen 62, prevent that debris from flowing into recovery water tank 21, and simultaneously, the staff can take out chock 61 from drainage tube 5 easily and clear up convenient and fast.

Referring back to fig. 1, the recovery mechanism 2 further includes a delivery assembly 22 for delivering the water in the recovery tank 21 to the reservoir 11. Specifically, the delivery assembly 22 includes a delivery pipe 221, one end of the delivery pipe 221 is communicated with the recovery water tank 21, the other end of the delivery pipe 221 is communicated with the water storage tank 11, and the delivery pipe 221 is provided with a driving member for delivering the water in the recovery water tank 21 to the water storage tank 11. In this embodiment, the driving member is provided as a water pump (the water pump is located inside the recovery water tank 21 and not shown in the figure), and the water pump is placed in the recovery water tank 21 and communicated with the delivery water pipe 221.

The implementation principle of the energy-saving water supply system for high-rise building construction in the embodiment of the application is as follows: the water storage tank 11 is collected the rainwater, the staff can carry out the water spray operation to high-rise building through the spray pipe 12 that sets up on the water storage tank 11, thereby be favorable to strengthening the adhesion between brick and the mortar in the building main part, spun water flows into in the drainage groove 31 along high-rise building's lateral wall, the drainage groove 31 can be with the water of collecting through drainage tube 5 introduce recycle tank 21 in carry out recycle, then water pump and delivery pipe 221 carry the water among the recycle tank 21 to water storage tank 11 in the recycle, thereby be favorable to the water economy 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 (8)

1. The utility model provides a high-rise building construction is with energy-conserving water feeding system which characterized in that: including retaining mechanism (1), recovery mechanism (2) and drainage mechanism (3), retaining mechanism (1) includes water storage box (11), water storage box (11) are located high-rise building one side, water storage box (11) upper end is the opening setting, water storage box (11) intercommunication has spray pipe (12) that are used for spraying water to high-rise building, recovery mechanism (2) are including recovery water tank (21), recovery water tank (21) are located high-rise building one side, just recovery water tank (21) are located the below of water storage box (11), drainage mechanism (3) are including drainage groove (31), drainage groove (31) enclose locate high-rise building week side be used for with spray pipe (12) spun water is introduced recovery water tank (21), drainage groove (31) with recovery water tank (21) are linked together, recovery mechanism (2) still including being used for with water in recovery water tank (21) is carried to water storage box (21) water (11) The conveying assembly (22).

2. The energy-saving water supply system for high-rise building construction according to claim 1, characterized in that: the conveying assembly (22) comprises a conveying water pipe (221), one end of the conveying water pipe (221) is communicated with the recovery water tank (21), the other end of the conveying water pipe (221) is communicated with the water storage tank (11), and a driving piece used for conveying water in the recovery water tank (21) to the water storage tank (11) is arranged on the conveying water pipe (221).

3. The energy-saving water supply system for high-rise building construction according to claim 1, characterized in that: the opening end of the water storage tank (11) is surrounded by the flaring plate (4), and the flaring plate (4) is arranged in an inclined and upward mode along the direction far away from the water storage tank (11).

4. The energy-saving water supply system for high-rise building construction according to claim 3, characterized in that: the upper end face of flaring board (4) is provided with and is used for covering the first filter piece of flaring board (4) upper end opening part, first filter piece with flaring board (4) rotate to be connected.

5. The energy-saving water supply system for high-rise building construction according to claim 1, characterized in that: the drainage groove (31) is close to the bottom of the recovery water tank (21) and is provided with a drainage tube (5), one end of the drainage tube (5) is communicated with the drainage groove (31), and the other end of the drainage tube (5) is communicated with the recovery water tank (21).

6. The energy-saving water supply system for high-rise building construction according to claim 5, wherein: the height of the bottom of the drainage groove (31) is gradually reduced along the direction close to the recovery water tank (21), and the connection part of the drainage tube (5) and the drainage groove (31) is positioned at the lowest point of the bottom of the drainage groove (31).

7. The energy-saving water supply system for high-rise building construction according to claim 5, wherein: the end part of the drainage tube (5) close to the drainage groove (31) is provided with a second filtering piece (6), and the second filtering piece (6) is detachably connected with the drainage tube (5).

8. The energy-saving water supply system for high-rise building construction according to claim 7, wherein: the second filter element (6) comprises a plug block (61), the plug block (61) is in interference fit with the drainage tube (5), the plug block (61) is provided with a through hole for communicating the drainage tube (5) with the drainage groove (31), and the side wall of the through hole is provided with a second filter screen (62).

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