CN217480313U - Energy-saving high-rise building water supply system - Google Patents
Energy-saving high-rise building water supply system Download PDFInfo
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- CN217480313U CN217480313U CN202221169166.2U CN202221169166U CN217480313U CN 217480313 U CN217480313 U CN 217480313U CN 202221169166 U CN202221169166 U CN 202221169166U CN 217480313 U CN217480313 U CN 217480313U
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 279
- 238000010248 power generation Methods 0.000 claims abstract description 44
- 238000004140 cleaning Methods 0.000 claims description 65
- 238000007790 scraping Methods 0.000 claims description 27
- 238000011010 flushing procedure Methods 0.000 claims description 26
- 239000010865 sewage Substances 0.000 claims description 24
- 239000007788 liquid Substances 0.000 claims description 13
- 238000009423 ventilation Methods 0.000 claims description 7
- 238000005507 spraying Methods 0.000 claims description 5
- 238000004891 communication Methods 0.000 claims description 2
- 230000001681 protective effect Effects 0.000 claims description 2
- 238000005406 washing Methods 0.000 claims 1
- 238000005265 energy consumption Methods 0.000 abstract description 4
- 230000010405 clearance mechanism Effects 0.000 abstract 2
- 230000005611 electricity Effects 0.000 abstract 1
- 238000000034 method Methods 0.000 description 3
- 230000000694 effects Effects 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 238000009825 accumulation Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 238000009413 insulation Methods 0.000 description 1
- 230000003993 interaction Effects 0.000 description 1
- 230000007774 longterm Effects 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
- 239000007921 spray Substances 0.000 description 1
- 239000008400 supply water Substances 0.000 description 1
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Abstract
The utility model discloses an energy-saving high-rise building water supply system, including cylinder water tank, control box, rotatory clearance mechanism, water supply mechanism and electricity generation mechanism. The energy-saving high-rise building water supply system can provide power for the water supply mechanism by utilizing the power generation mechanism, thereby avoiding using commercial power completely and effectively saving the energy consumption of the commercial power; the power supply switching circuit can be used for switching the power supply of the power generation mechanism and the commercial power, so that the commercial power is used for charging the storage battery in time when the voltage of the storage battery is insufficient, and the working reliability of the system is ensured; utilize rotatory clearance mechanism can regularly carry out automatic clearance to the inner wall of cylinder water tank to be convenient for carry out automatic clearance at night with the water low peak period, furthest reduces the influence of clearance to user's water.
Description
Technical Field
The utility model relates to a water supply system, especially an energy-saving high-rise building water supply system.
Background
At present, along with the rapid development of economy, high-rise buildings are more and more, when supplying water to the high-rise buildings, because the restriction of water pressure is difficult to carry out direct water supply to high-rise users, set up the water tank on the roof usually, by the water tank of relay pump with water suction injection water tank, supply water to high-rise users by the water tank again, this will produce an extra water pump energy consumption. In addition, in the long-term use process, the water tank needs to be cleaned regularly by manpower, and water stopping construction is needed in the cleaning process, so that the normal water use of a user can be influenced. Therefore, it is necessary to design an energy-saving water supply system for high-rise buildings, which can provide additional electric energy for the water pump, and can automatically clean at night, thereby reducing the influence on normal water consumption of users.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a: the energy-saving high-rise building water supply system can provide extra electric energy for the water pump, can automatically clean the water pump at night, and reduces the influence on normal water consumption of a user.
In order to realize the purpose of the utility model, the utility model provides an energy-saving water supply system for high-rise buildings, which comprises a cylindrical water tank, a control box, a rotary cleaning mechanism, a water supply mechanism and a power generation mechanism; the bottom of the cylindrical water tank is provided with a conical bottom, and supporting legs are arranged on the bottom; a water outlet is arranged at the cone top at the lower side of the cone bottom, and a water supply pipe and a sewage discharge pipe are communicated at the water outlet; a water discharge electromagnetic valve and a sewage discharge electromagnetic valve are respectively arranged on the water supply pipe and the sewage discharge pipe; the rotary cleaning mechanism is arranged in the cylindrical water tank and is used for scraping the inner wall of the cylindrical water tank; the water supply mechanism is used for providing a water source for the cylindrical water tank and the rotary cleaning mechanism; the control box and the power generation mechanism are arranged at the top of the cylindrical water tank through the mounting bracket; a controller, a storage battery, a voltage acquisition circuit and a power supply switching circuit are arranged in the control box; the controller is respectively electrically connected with the water discharge electromagnetic valve, the sewage discharge electromagnetic valve, the power supply switching circuit and the voltage acquisition circuit and is used for driving and controlling the rotary cleaning mechanism and the water supply mechanism; the voltage acquisition circuit is electrically connected with the power supply end of the storage battery; two input ends of the power supply switching circuit are respectively electrically connected with the commercial power and the power generation mechanism, an output end of the power supply switching circuit is electrically connected with a charging end of the storage battery through a charging circuit, and the storage battery respectively supplies power for the controller, the water drain electromagnetic valve, the sewage discharge electromagnetic valve, the rotary cleaning mechanism and the water supply mechanism.
Furthermore, the water supply mechanism comprises a water pump, a water inlet pipe, a water outlet pipe, a water storage branch pipe and a flushing branch pipe; the water pump is fixedly arranged at the top of the cylindrical water tank, and the water inlet pipe and the water outlet pipe are respectively connected with the water inlet and the water outlet of the water pump; the water storage branch pipe and the flushing branch pipe are communicated on the water outlet pipe, the water storage branch pipe is communicated with the top of the cylindrical water tank, and the flushing branch pipe is communicated with the rotary cleaning structure; the water storage solenoid valve and the flushing solenoid valve are respectively arranged on the water storage branch pipe and the flushing branch pipe; a water pump driving circuit is arranged in the control box, and the controller is electrically connected with the water storage electromagnetic valve, the flushing electromagnetic valve and the water pump driving circuit; the water pump driving circuit is electrically connected with a water pump driving motor of the water pump; the storage battery supplies power for the water storage electromagnetic valve, the flushing electromagnetic valve and the water pump driving circuit.
Furthermore, a liquid level sensor electrically connected with the controller is arranged at the top of the cylindrical water tank; the storage battery supplies power to the liquid level sensor.
Further, the mounting bracket comprises a vertical upright post, a supporting cross beam and each branch longitudinal beam; the power generation mechanism comprises each wind power generation device and each solar power generation device; the supporting beam is transversely and fixedly arranged at the top of the cylindrical water tank; the vertical upright posts are vertically and fixedly arranged on the supporting cross beam, and the wind power generation device is arranged on the vertical upright posts; each branch longitudinal beam is longitudinally and fixedly arranged on the front side surface and the rear side surface of the supporting cross beam respectively; each solar power generation device is fixedly arranged on each branch longitudinal beam; the wind power generation device and the solar power generation device are electrically connected with the input end of the power supply switching circuit through corresponding charging circuits.
Further, the solar power generation device comprises a supporting back plate, a solar cell panel, a U-shaped clamping seat, a sleeve, a vertical stay bar, an inclined stay bar and a supporting sliding sleeve; the U-shaped clamping seat is arranged on the branch longitudinal beam in a buckling mode and is locked and fixed through a side locking bolt; the sleeve is vertically and fixedly arranged at the top of the U-shaped clamping seat, and the lower end of the vertical support rod is inserted into the sleeve and is locked and fixed through a corner positioning bolt; the supporting sliding sleeve is sleeved on the vertical supporting rod and is locked and fixed through a height locking bolt; the upper end of the vertical support rod is hinged to the lower side surface of the support back plate in a swinging mode, and the solar cell panel is fixed on the upper side surface of the support back plate; one end of the inclined support rod is hinged on the support sliding sleeve in a swinging mode, and the other end of the inclined support rod is hinged on the lower side face of the support back plate in a swinging mode.
Furthermore, the rotary cleaning mechanism comprises a cleaning driving motor, a rotary main shaft, an annular water pipe and each wall scraping unit; the rotary main shaft is vertically and rotatably arranged in the cylindrical water tank, the cleaning driving motor is arranged at the top of the cylindrical water tank, and an output shaft of the cleaning driving motor is butted with the upper end of the rotary main shaft; the lower end of the rotating main shaft is arranged at the water outlet through a bottom bracket; each wall scraping unit is arranged on the rotating main shaft and used for scraping the inner wall of the cylindrical water tank; the annular water pipe is fixedly arranged on the inner wall of the top of the cylindrical water tank and is communicated with the water supply mechanism through a communicating water pipe; the outer wall of the annular water pipe is provided with water spraying holes facing the inner wall of the cylindrical water tank at intervals; a cleaning driving circuit electrically connected with the controller is arranged in the control box, the cleaning driving circuit is electrically connected with a cleaning driving motor, and the storage battery supplies power to the cleaning driving circuit.
Furthermore, the wall scraping unit comprises a cantilever rod, an extension tube, a support bar and a scraping bar; the scraping bar is fixedly arranged on the supporting bar, one end of the telescopic pipe is fixed on the supporting bar, the other end of the telescopic pipe is sleeved on one end of the cantilever rod, and the other end of the cantilever rod is fixed on the rotating main shaft; the telescopic pipe is internally provided with a supporting spring which is elastically supported on the end part of the cantilever rod and is used for pushing the scraping strip to be tightly attached to the inner wall of the cylindrical water tank.
Furthermore, an access window is arranged on the control box, a box door is hinged at the access window, and a display screen and a key panel which are electrically connected with the controller are arranged on the box door; the storage battery supplies power for the display screen and the key panel.
Furthermore, a sun-shading ceiling is arranged at the top of the control box, a ventilation window is arranged at the bottom of the control box, and a protective net is arranged at the ventilation window.
Furthermore, a support bottom plate is arranged at the lower end of the support leg.
The beneficial effects of the utility model reside in that: the power generation mechanism can provide power for the water supply mechanism, so that the mains supply is prevented from being used completely, and the energy consumption of the mains supply can be effectively saved; the power supply switching circuit can be used for switching the power supply of the power generation mechanism and the mains supply, so that the mains supply is used for charging the storage battery in time when the voltage of the storage battery is insufficient, and the working reliability of the system is ensured; the inner wall of the cylindrical water tank can be automatically cleaned regularly by using the rotary cleaning mechanism, so that automatic cleaning can be conveniently carried out at night in the low-peak period of water consumption, and the influence of cleaning on water consumption of a user is reduced to the maximum extent; the water supply pipe and the sewage discharge pipe can be controlled to be on or off by utilizing the water discharge electromagnetic valve and the sewage discharge electromagnetic valve, so that the switching requirements of two states of water storage and cleaning are met; bottom water accumulation can be avoided during cleaning by utilizing the conical bottom.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic view of the installation structure of the rotary cleaning mechanism of the present invention;
fig. 3 is a schematic diagram of the circuit structure of the present invention.
Detailed Description
The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.
Example 1:
as shown in fig. 1-3, the utility model discloses an energy-saving high-rise building water supply system includes: the device comprises a cylindrical water tank 1, a control box 31, a rotary cleaning mechanism, a water supply mechanism and a power generation mechanism;
the bottom of the cylindrical water tank 1 is provided with a conical bottom 2, and the bottom is provided with a supporting leg 3; a water outlet 48 is arranged at the conical top of the lower side of the conical bottom 2, and a water supply pipe 5 and a sewage discharge pipe 7 are communicated at the water outlet; a water discharge electromagnetic valve 6 and a sewage discharge electromagnetic valve 8 are respectively arranged on the water supply pipe 5 and the sewage discharge pipe 7; the rotary cleaning mechanism is arranged inside the cylindrical water tank 1 and is used for scraping the inner wall of the cylindrical water tank 1; the water supply mechanism is arranged at the top of the cylindrical water tank 1 and is used for providing a water source for the cylindrical water tank 1 and the rotary cleaning mechanism;
the top of the cylindrical water tank 1 is provided with a mounting bracket, and the control box 31 and the power generation mechanism are both mounted on the mounting bracket; a controller, a memory, a storage battery, a voltage acquisition circuit and a power supply switching circuit are arranged in the control box 31; the controller is respectively electrically connected with the memory, the water discharge electromagnetic valve 6, the sewage discharge electromagnetic valve 8, the power supply switching circuit and the voltage acquisition circuit, and drives and controls the rotary cleaning mechanism and the water supply mechanism; the voltage acquisition circuit is electrically connected with the power supply end of the storage battery and is used for acquiring the voltage of the storage battery by the controller; two input ends of the power supply switching circuit are respectively and electrically connected with the commercial power and the power generation mechanism, an output end of the power supply switching circuit is electrically connected with a charging end of a storage battery through a charging circuit, and the storage battery respectively supplies power for the controller, the memory, the water discharge electromagnetic valve 6, the sewage discharge electromagnetic valve 8, the rotary cleaning mechanism and the water supply mechanism.
The power generation mechanism can provide power for the water supply mechanism, so that the mains supply is prevented from being used completely, and the energy consumption of the mains supply can be effectively saved; the power supply switching circuit can be used for switching the power supply of the power generation mechanism and the commercial power, so that the commercial power is used for charging the storage battery in time when the voltage of the storage battery is insufficient, and the working reliability of the system is ensured; the inner wall of the cylindrical water tank 1 can be automatically cleaned regularly by using the rotary cleaning mechanism, so that automatic cleaning can be conveniently carried out at night in the low-peak period of water consumption, and the influence of cleaning on water consumption of a user is reduced to the maximum extent; the water supply pipe 5 and the sewage discharge pipe 7 can be controlled to be on or off by utilizing the water discharge electromagnetic valve 6 and the sewage discharge electromagnetic valve 8, so that the switching requirements of two states of water storage and cleaning are met; bottom ponding appears in the time of utilizing the toper end 2 can avoid the clearance.
Further, the water supply mechanism comprises a water pump 9, a water inlet pipe 10, a water outlet pipe 11, a water storage branch pipe 37 and a flushing branch pipe 38; the water pump 9 is fixedly arranged at the top of the cylindrical water tank 1, and the water inlet pipe 10 and the water outlet pipe 11 are respectively connected with the water inlet and the water outlet of the water pump 9; the water storage branch pipe 37 and the flushing branch pipe 38 are both communicated on the water outlet pipe 11, the water storage branch pipe 37 is communicated with the top of the cylindrical water tank 1, and the flushing branch pipe 38 is communicated with the rotary cleaning structure; the water storage solenoid valve 12 and the flushing solenoid valve 13 are respectively arranged on the water storage branch pipe 37 and the flushing branch pipe 38; a water pump driving circuit is arranged in the control box 31, and the controller is electrically connected with the water storage electromagnetic valve 12, the flushing electromagnetic valve 13 and the water pump driving circuit; the water pump driving circuit is electrically connected with a water pump driving motor of the water pump 9; the storage battery supplies power to the water storage electromagnetic valve 12, the flushing electromagnetic valve 13 and the water pump driving circuit. The on-off control of the branch water storage pipe 37 and the branch flushing pipe 38 can be performed by the water storage solenoid valve 12 and the flushing solenoid valve 13, so that the switching requirements of two states of water storage and cleaning are met.
Further, a liquid level sensor 15 is arranged at the top of the cylindrical water tank 1; the controller is electrically connected with the liquid level sensor 15; the storage battery supplies power to the liquid level sensor 15. The water level in the cylindrical water tank 1 can be detected in real time by the liquid level sensor 15, thereby replenishing water in time.
Further, the mounting bracket comprises a vertical upright 29, a supporting cross beam 17 and each branch longitudinal beam 18; the power generation mechanism includes each wind power generation device 30 and each solar power generation device; the supporting beam 17 is transversely and fixedly arranged at the top of the cylindrical water tank 1 through a supporting column 16; the vertical upright posts 29 are vertically and fixedly arranged on the supporting cross beam 17, and the wind power generation device 30 is arranged on the vertical upright posts 29; each branch longitudinal beam 18 is respectively and longitudinally fixedly arranged on the front side and the rear side of the supporting cross beam 17; each solar power generation device is fixedly arranged on each branch longitudinal beam 18; the wind power generation device 30 and the solar power generation device are electrically connected to the input end of the power supply switching circuit through corresponding charging circuits. The branch longitudinal beams 18 are respectively and longitudinally fixedly arranged on the front side and the rear side of the supporting cross beam 17, so that a plurality of solar power generation devices can be distributed and arranged; the wind power generation device 30 can be matched with a solar power generation device to realize wind-solar hybrid power generation.
Further, the solar power generation device comprises a support back plate 27, a solar panel 28, a U-shaped clamping seat 19, a sleeve 20, a vertical support rod 25, an inclined support rod 26 and a support sliding sleeve 23; the U-shaped clamping seat 19 is arranged on the branch longitudinal beam 18 in a buckling mode and is locked and fixed through a side locking bolt 22; the sleeve 20 is vertically and fixedly arranged at the top of the U-shaped clamping seat 19, and the lower end of the vertical support rod 25 is inserted into the sleeve 20 and is locked and fixed through a corner positioning bolt 21; the supporting sliding sleeve 23 is sleeved on the vertical supporting rod 25 and is locked and fixed through a height locking bolt 24; the upper end of the vertical support rod 25 is hinged on the lower side surface of the support back plate 27 in a swinging mode, and the solar cell panel 28 is fixed on the upper side surface of the support back plate 27; one end of the inclined stay bar 26 is arranged on the supporting sliding sleeve 23 in a swing-type hinged mode, and the other end of the inclined stay bar is arranged on the lower side face of the supporting back plate 27 in a swing-type hinged mode. By means of the matching of the sleeve 20, the vertical stay bar 25 and the corner positioning bolt 21, the horizontal corner adjustment and positioning requirements of the solar cell panel 28 can be met; the adjustment and positioning of the pitch angle of the solar cell panel 28 can be realized by the cooperation of the support sliding sleeve 23, the height locking bolt 24 and the inclined strut 26.
Further, the rotary cleaning mechanism comprises a cleaning driving motor 14, a rotary spindle 42, an annular water pipe 39 and each wall scraping unit; the rotating main shaft 42 is vertically and rotatably arranged in the cylindrical water tank 1, the cleaning driving motor 14 is arranged at the center of the top of the cylindrical water tank 1, and the end part of an output shaft of the cleaning driving motor 14 is butted with the upper end of the rotating main shaft 42; the lower end of the rotating main shaft 42 is arranged at a water outlet 48 through a bottom bracket 47; each wall scraping unit is arranged on the rotating main shaft 42 and is used for scraping the inner wall of the cylindrical water tank 1; the annular water pipe 39 is fixedly arranged on the top inner wall of the cylindrical water tank 1 and is communicated with the water supply mechanism through a communication water pipe 41; the outer wall of the annular water pipe 39 is provided with water spraying holes 40 facing the inner wall of the cylindrical water tank 1 at intervals; a cleaning driving circuit electrically connected with the controller is arranged in the control box 31, the cleaning driving circuit is electrically connected with the cleaning driving motor 14, and the storage battery supplies power for the cleaning driving circuit. By utilizing the water spraying holes 40 arranged on the outer wall of the annular water pipe 39 at intervals, water can be sprayed to the inner wall of the cylindrical water tank 1 in the wall scraping process, so that the inner wall is ensured to be cleaned; the wall can be scraped in sections by utilizing the wall scraping units, and the wall scraping requirements of the inner wall are met.
Further, the wall scraping unit comprises a cantilever lever 45, a telescopic pipe 46, a supporting bar 43 and a scraping bar 44; the scraping bar 44 is fixedly arranged on the supporting bar 43, one end of the extension tube 46 is fixed on the supporting bar 43, the other end is sleeved on one end of the cantilever rod 45, and the other end of the cantilever rod 45 is fixed on the rotating main shaft 42; a support spring elastically supported on the end of the cantilever lever 45 is provided in the telescopic tube 46 for urging the wiper strip 44 against the inner wall of the cylindrical water tank 1. The wiper strip 44 can be always elastically urged against the inner wall of the cylindrical water tank 1 by the support spring, thereby ensuring the cleaning effect of the inner wall.
Furthermore, an access window is arranged on the control box 31, a box door 33 is hinged at the access window, and a display screen 34 and a key panel 35 which are electrically connected with the controller are arranged on the box door 33; the battery supplies power to the display 34 and the key panel 35. The display 34 and the key panel 35 can facilitate human-computer interaction of operators, and the system can be controlled temporarily.
Further, a sunroof 32 is provided on the top of the control box 31, a ventilation window is provided on the bottom of the control box 31, and a protection net 36 is attached to the ventilation window. The sunshade ceiling 32 is used for heat insulation and rain shielding; the protection at the ventilation window can be performed using the protection net 36.
Further, a support base plate 4 is provided on the lower end of the support leg 3. The cylindrical water tank 1 can be conveniently and fixedly installed by using the support base plate 4.
In the energy-saving water supply system for high-rise buildings, the controller adopts the existing single-chip microcomputer control module and is used for realizing the coordination control of the system; the memory adopts the existing memory module and is used for storing the operation data; the display screen 34 is an existing display screen and is used for displaying operation state data, including liquid level data and storage battery voltage data; the key panel 35 is an existing waterproof key panel, and is provided with corresponding control keys, such as a start key, a stop key, a cleaning key and the like; the liquid level sensor 15 adopts the existing digital liquid level sensor and is used for measuring liquid level data in the cylindrical water tank 1 in real time; the water drain electromagnetic valve 6, the sewage discharge electromagnetic valve 8, the water storage electromagnetic valve 12 and the flushing electromagnetic valve 13 all adopt the existing electromagnetic water valves; the power supply switching circuit adopts the existing relay switching circuit; the voltage acquisition circuit adopts the existing voltage acquisition circuit, so that the controller can conveniently acquire the voltage data of the storage battery; the water pump driving circuit and the cleaning driving circuit both adopt the existing motor driving circuit and are used for respectively driving the water pump driving motor of the water pump 9 and the cleaning driving motor 14.
The utility model discloses an energy-saving high-rise building water supply system, when in work, the water inlet pipe 10 is communicated with a water source, the water supply pipe 5 is communicated with a user water pipe, the blow-off pipe 7 is communicated with a sewage pipe, and the horizontal angle and the pitch angle of a solar cell panel 28 are adjusted according to the orientation of an installation site; the system is started through a start key on the key panel 35, at the moment, the water storage electromagnetic valve 12 is opened, the flushing electromagnetic valve 13 is closed, the water drainage electromagnetic valve 6 is opened, the sewage discharge electromagnetic valve 8 is closed, the controller acquires the voltage of the storage battery in real time through the voltage acquisition circuit, and the water level in the cylindrical water tank 1 is measured through the liquid level sensor 15; when the water level is lower than the lower limit threshold, the controller drives the water pump 9 to work through the water pump driving circuit, water is conveyed into the cylindrical water tank 1, and when the water level reaches the upper limit threshold, the water pump 9 stops working; when the voltage of the storage battery is lower than a set low-voltage threshold value, the controller controls the power supply switching circuit, the storage battery is charged by using commercial power, and when the voltage of the storage battery is higher than a set high-voltage threshold value, the storage battery is switched back to be charged by the power generation mechanism; when the cleaning period is reached, cleaning control is selected to be carried out at night, for example, cleaning is carried out at 3 o' clock in the morning, at the moment, the water storage electromagnetic valve 12 is closed, the flushing electromagnetic valve 13 is opened, the water discharge electromagnetic valve 6 is closed, the sewage discharge electromagnetic valve 8 is opened, the cleaning driving motor 14 is started again, when the scraping strip 44 scrapes the wall, the water spraying holes 40 spray water for cleaning, and a good cleaning effect is achieved; after the cleaning is finished, the normal water supply state is recovered, so that the water storage electromagnetic valve 12 is opened, the flushing electromagnetic valve 13 is closed, the water discharge electromagnetic valve 6 is opened, and the sewage discharge electromagnetic valve 8 is closed.
As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.
Claims (10)
1. An energy-saving high-rise building water supply system is characterized in that: comprises a cylindrical water tank (1), a control box (31), a rotary cleaning mechanism, a water supply mechanism and a power generation mechanism; the bottom of the cylindrical water tank (1) is provided with a conical bottom (2), and the bottom is provided with a supporting leg (3); a water outlet (48) is arranged at the conical top of the lower side of the conical bottom (2), and a water supply pipe (5) and a sewage discharge pipe (7) are communicated at the water outlet; a water discharge electromagnetic valve (6) and a sewage discharge electromagnetic valve (8) are respectively arranged on the water supply pipe (5) and the sewage discharge pipe (7); the rotary cleaning mechanism is arranged inside the cylindrical water tank (1) and is used for scraping the inner wall of the cylindrical water tank (1); the water supply mechanism is used for providing a water source for the cylindrical water tank (1) and the rotary cleaning mechanism; the control box (31) and the power generation mechanism are arranged at the top of the cylindrical water tank (1) through a mounting bracket; a controller, a storage battery, a voltage acquisition circuit and a power supply switching circuit are arranged in the control box (31); the controller is respectively and electrically connected with the water discharge electromagnetic valve (6), the sewage discharge electromagnetic valve (8), the power supply switching circuit and the voltage acquisition circuit, and drives and controls the rotary cleaning mechanism and the water supply mechanism; the voltage acquisition circuit is electrically connected with the power supply end of the storage battery; two input ends of the power supply switching circuit are respectively electrically connected with the commercial power and the power generation mechanism, the output end of the power supply switching circuit is electrically connected with the charging end of the storage battery through the charging circuit, and the storage battery respectively supplies power for the controller, the water drain electromagnetic valve (6), the sewage discharge electromagnetic valve (8), the rotary cleaning mechanism and the water supply mechanism.
2. The energy-saving high-rise building water supply system according to claim 1, wherein: the water supply mechanism comprises a water pump (9), a water inlet pipe (10), a water outlet pipe (11), a water storage branch pipe (37) and a washing branch pipe (38); the water pump (9) is fixedly arranged at the top of the cylindrical water tank (1), and the water inlet pipe (10) and the water outlet pipe (11) are respectively connected to the water inlet and the water outlet of the water pump (9); the water storage branch pipe (37) and the flushing branch pipe (38) are communicated on the water outlet pipe (11), the water storage branch pipe (37) is communicated with the top of the cylindrical water tank (1), and the flushing branch pipe (38) is communicated with the rotary cleaning structure; the water storage solenoid valve (12) and the flushing solenoid valve (13) are respectively arranged on the water storage branch pipe (37) and the flushing branch pipe (38); a water pump driving circuit is arranged in the control box (31), and the controller is electrically connected with the water storage electromagnetic valve (12), the flushing electromagnetic valve (13) and the water pump driving circuit; the water pump driving circuit is electrically connected with a water pump driving motor of the water pump (9); the storage battery supplies power to the water storage electromagnetic valve (12), the flushing electromagnetic valve (13) and the water pump driving circuit.
3. The energy-saving high-rise building water supply system according to claim 1, wherein: a liquid level sensor (15) electrically connected with the controller is arranged at the top of the cylindrical water tank (1); the storage battery supplies power to the liquid level sensor (15).
4. The energy-saving high-rise building water supply system according to claim 1, wherein: the mounting bracket comprises a vertical upright post (29), a supporting cross beam (17) and each branch longitudinal beam (18); the power generation mechanism comprises each wind power generation device (30) and each solar power generation device; the supporting beam (17) is transversely and fixedly arranged at the top of the cylindrical water tank (1); the vertical upright posts (29) are vertically and fixedly arranged on the supporting cross beam (17), and the wind power generation device (30) is arranged on the vertical upright posts (29); each branch longitudinal beam (18) is respectively and longitudinally fixedly arranged on the front side surface and the rear side surface of the supporting cross beam (17); each solar power generation device is fixedly arranged on each branch longitudinal beam (18) respectively; the wind power generation device (30) and the solar power generation device are electrically connected with the input end of the power supply switching circuit through corresponding charging circuits.
5. The energy-saving high-rise building water supply system according to claim 4, wherein: the solar power generation device comprises a supporting back plate (27), a solar panel (28), a U-shaped clamping seat (19), a sleeve (20), a vertical support rod (25), an inclined support rod (26) and a supporting sliding sleeve (23); the U-shaped clamping seat (19) is installed on the branch longitudinal beam (18) in a buckling mode and is locked and fixed through a side locking bolt (22); the sleeve (20) is vertically and fixedly arranged at the top of the U-shaped clamping seat (19), and the lower end of the vertical stay bar (25) is inserted into the sleeve (20) and is locked and fixed through a corner positioning bolt (21); the supporting sliding sleeve (23) is sleeved on the vertical support rod (25) and is locked and fixed through a height locking bolt (24); the upper end of the vertical stay bar (25) is hinged on the lower side surface of the support backboard (27) in a swinging mode, and the solar cell panel (28) is fixed on the upper side surface of the support backboard (27); one end of the inclined support rod (26) is arranged on the support sliding sleeve (23) in a swing and hinged mode, and the other end of the inclined support rod is arranged on the lower side face of the support back plate (27) in a swing and hinged mode.
6. The energy-saving high-rise building water supply system according to claim 1, wherein: the rotary cleaning mechanism comprises a cleaning driving motor (14), a rotary main shaft (42), an annular water pipe (39) and each wall scraping unit; the rotary main shaft (42) is vertically and rotatably arranged in the cylindrical water tank (1), the cleaning driving motor (14) is arranged at the top of the cylindrical water tank (1), and an output shaft of the cleaning driving motor (14) is butted with the upper end of the rotary main shaft (42); the lower end of the rotating main shaft (42) is arranged at a water outlet (48) through a bottom bracket (47); each wall scraping unit is arranged on the rotating main shaft (42) and is used for scraping the inner wall of the cylindrical water tank (1); the annular water pipe (39) is fixedly arranged on the inner wall of the top of the cylindrical water tank (1) and is communicated with the water supply mechanism through a communication water pipe (41); the outer wall of the annular water pipe (39) is provided with water spraying holes (40) facing the inner wall of the cylindrical water tank (1) at intervals; a cleaning driving circuit electrically connected with the controller is arranged in the control box (31), the cleaning driving circuit is electrically connected with the cleaning driving motor (14), and the storage battery supplies power for the cleaning driving circuit.
7. The energy-saving high-rise building water supply system according to claim 6, wherein: the wall scraping unit comprises a cantilever lever (45), a telescopic pipe (46), a supporting bar (43) and a scraping bar (44); the scraping bar (44) is fixedly arranged on the supporting bar (43), one end of the telescopic pipe (46) is fixed on the supporting bar (43), the other end of the telescopic pipe is sleeved on one end of the cantilever rod (45), and the other end of the cantilever rod (45) is fixed on the rotating main shaft (42); a supporting spring elastically supported on the end part of the cantilever rod (45) is arranged in the telescopic pipe (46) and used for pushing the scraping strip (44) to be attached to the inner wall of the cylindrical water tank (1).
8. The energy-saving high-rise building water supply system according to claim 1, wherein: an access window is arranged on the control box (31), a box door (33) is hinged at the access window, and a display screen (34) and a key panel (35) which are electrically connected with the controller are arranged on the box door (33); the storage battery supplies power to the display screen (34) and the key panel (35).
9. The energy-saving high-rise building water supply system according to claim 1, wherein: a sunshade ceiling (32) is arranged at the top of the control box (31), a ventilation window is arranged at the bottom of the control box (31), and a protective net (36) is arranged at the ventilation window.
10. The energy-saving high-rise building water supply system according to claim 1, wherein: the lower ends of the supporting legs (3) are provided with supporting bottom plates (4).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202221169166.2U CN217480313U (en) | 2022-05-16 | 2022-05-16 | Energy-saving high-rise building water supply system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202221169166.2U CN217480313U (en) | 2022-05-16 | 2022-05-16 | Energy-saving high-rise building water supply system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN217480313U true CN217480313U (en) | 2022-09-23 |
Family
ID=83309727
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202221169166.2U Expired - Fee Related CN217480313U (en) | 2022-05-16 | 2022-05-16 | Energy-saving high-rise building water supply system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN217480313U (en) |
-
2022
- 2022-05-16 CN CN202221169166.2U patent/CN217480313U/en not_active Expired - Fee Related
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| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20220923 |