CN218815388U - Building cleaning system based on wind power supply - Google Patents

Abstract

The utility model discloses a clean system of building based on wind energy power supply, this system include rainwater collecting unit, rainwater collecting unit includes the water collector, the entry end of water collector is relative with daylighting top glass's extreme lower position department, so that rivers on the daylighting top glass get into in the water collector. The application provides a clean system of building based on wind energy power supply can collect the rainwater through rainwater collection unit and use as the clean water of glass, reaches the purpose of using water wisely. The water flow guide unit and the sliding cleaning unit can be used in a matched mode to clean the daylighting roof glass. Wind power generation subassembly can be by fixed mounting on the coaster storehouse, adopts wind power generation's mode to charge for the battery, and power consumption parts such as quality of water purification subassembly, coaster and water pump can be connected with the battery electricity, when the needs power consumption, can acquire the electric energy through the battery for the system that this application embodiment provided is more energy-concerving and environment-protective. Is worthy of large-area popularization and application.

Description

Building cleaning system based on wind power supply

Technical Field

The utility model relates to an architectural decoration technical field especially relates to a clean system of building based on wind energy power supply.

Background

With the development of construction business in China, the construction of a large number of civil buildings and various types of glass daylighting roofs also begin to be widely applied to hotels and restaurants, stations, airport terminals, commercial cities, department stores, exhibition halls, gymnasiums, museums, hospitals and the like.

The glass daylighting roof can introduce a large amount of natural light into a building, but is easily polluted by dust, sundries, rainwater and the like, so that the daylighting effect and the impression are influenced. However, since dust and the like in the external environment are large, thick dust or impurities can be deposited on the glass daylighting roof after the glass daylighting roof is used for a long time, and the light transmittance of the glass daylighting roof is seriously affected. In order to ensure that the daylighting roof is clean, the daylighting roof needs to be cleaned frequently, and when the traditional daylighting roof glass is cleaned, the daylighting roof glass is wiped by manpower and then washed by using clean water, so that the method has the defects of poor safety, water and power consumption and the like.

In order to solve the defects, the safety can be effectively improved by adopting the automatic wiping device, and the labor intensity of workers can be reduced. However, in this way, power needs to be supplied to various electrical appliances, and the traditional power supply way is that a way of connecting municipal circuits is adopted, which can solve the problem of power consumption, but has a certain energy waste. The traditional power supply mode can not meet the requirements of energy conservation and environmental protection.

Therefore, how to provide a device for conveniently supplying power to a daylighting roof glass cleaning system is a technical problem which needs to be solved by a person skilled in the art urgently.

SUMMERY OF THE UTILITY MODEL

The utility model provides a clean system of building based on wind energy power supply.

The utility model provides a following scheme:

a wind-powered building cleaning system comprising:

the rainwater collecting unit comprises a water collector, and the inlet end of the water collector is opposite to the lowest position of the daylighting roof glass, so that water flow on the daylighting roof glass enters the water collector;

one end of the water flow guiding unit is connected with the bottom of the water collector, and the other end of the water flow guiding unit extends to the highest position of the daylighting roof glass; the water flow guiding unit comprises a water pump connected with the bottom of the water collector;

the sliding cleaning unit comprises a plurality of sliding rails, a plurality of pulleys and a driving mechanism, wherein the pulleys are correspondingly connected with the sliding rails one by one; the pulley is connected with a cleaning brush, and at least one part of bristles of the cleaning brush is in contact with the daylighting roof glass; the driving mechanism is connected with the pulleys and is used for driving the pulleys to move along the sliding rails so as to enable the cleaning brush to reciprocate along the inclination direction of the daylighting roof glass;

the wind generating set is connected with the top of a building and is connected with the storage battery; the water pump and the driving mechanism are electrically connected with the storage battery.

Preferably: the water flow guiding unit further comprises a water pipe, one end of the water pipe is connected with the outlet end of the water pump, and the other end of the water pipe extends to the highest position of the daylighting roof glass.

Preferably: and a water quality purification assembly is arranged between the inlet end of the water pump and the bottom of the water collector, and the water quality purification assembly is electrically connected with the storage battery.

Preferably: the sliding rail is arranged on the daylighting roof steel beam, and the axial direction of the sliding rail extends along the inclined direction of the daylighting roof glass.

Preferably: the sliding trolley is characterized by further comprising a sliding trolley bin, one end of the sliding trolley bin is located at the highest position of the daylighting roof glass, and the sliding rail extends into the sliding trolley bin so that the sliding trolley can enter and exit the sliding trolley bin.

Preferably: the wind generating set is positioned at the top of the trolley bin and connected with the trolley bin; the storage battery is positioned in the scooter cabin.

Preferably: the pulley comprises a wheel frame, two rotating wheels are coaxially arranged on the wheel frame, the driving mechanism is at least a driving motor connected with one of the rotating wheels, and the driving motor is electrically connected with the storage battery.

Preferably: the driving motor includes a hub motor.

According to the utility model provides a concrete embodiment, the utility model discloses a following technological effect:

through the utility model, a building cleaning system based on wind energy power supply can be realized, and in one implementation mode, the system can comprise a rainwater collection unit, wherein the rainwater collection unit comprises a water collector, and the inlet end of the water collector is opposite to the lowest position of the daylighting roof glass, so that water flow on the daylighting roof glass enters the water collector; one end of the water flow guiding unit is connected with the bottom of the water collector, and the other end of the water flow guiding unit extends to the highest position of the daylighting roof glass; the water flow guiding unit comprises a water pump connected with the bottom of the water collector; the sliding cleaning unit comprises a plurality of sliding rails, a plurality of pulleys and a driving mechanism, wherein the plurality of pulleys are correspondingly connected with the plurality of sliding rails one by one; the pulley is connected with a cleaning brush, and at least one part of bristles of the cleaning brush is in contact with the daylighting roof glass; the driving mechanism is connected with the pulleys and is used for driving the pulleys to move along the sliding rails so as to enable the cleaning brush to reciprocate along the inclination direction of the daylighting roof glass; the wind generating set is connected with the top of a building and is connected with the storage battery; the water pump and the driving mechanism are electrically connected with the storage battery. The utility model provides a clean system of building based on wind energy power supply, simple structure is reasonable, installation convenient to use. The rainwater collecting unit can collect rainwater to be used as glass cleaning water, so that the purpose of saving water is achieved. The water flow guide unit and the sliding cleaning unit can be used in a matched mode to clean the daylighting roof glass. Wind power generation subassembly can be by fixed mounting on the coaster storehouse, adopts wind power generation's mode to charge for the battery, and power consumption parts such as quality of water purification subassembly, coaster and water pump can be connected with the battery electricity, when the needs power consumption, can acquire the electric energy through the battery for the system that this application embodiment provided is more energy-concerving and environment-protective. Is worthy of large-area popularization and application.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a building cleaning system based on wind energy power supply according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a sliding cleaning unit according to an embodiment of the present invention.

In the figure: the device comprises a rainwater collection unit 1, a water collector 11, a water flow guide unit 2, a water pump 21, a water pipe 22, a sliding cleaning unit 3, a sliding rail 31, a pulley 32, a wheel carrier 321, a rotating wheel 322, a cleaning brush 33, a wind generating set 4, a storage battery 5, a water quality purification assembly 6, a pulley bin 7, daylighting roof glass 8, a building 9 and a daylighting roof steel beam 10.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

Examples

Referring to fig. 1 and 2, for a building cleaning system based on wind energy power supply provided by an embodiment of the present invention, as shown in fig. 1 and 2, the system may include:

the rainwater collecting unit 1 comprises a water collector 11, and the inlet end of the water collector 11 is opposite to the lowest position of the daylighting roof glass 8, so that water flow on the daylighting roof glass 8 enters the water collector 11;

one end of the water flow guiding unit 2 is connected with the bottom of the water collector 11, and the other end of the water flow guiding unit 2 extends to the highest position of the daylighting roof glass 8; the water flow guide unit 2 includes a water pump 21 connected to the bottom of the sump 11;

the sliding cleaning unit 3 comprises a plurality of sliding rails 31, a plurality of pulleys 32 connected with the plurality of sliding rails 31 in a one-to-one correspondence manner, and a driving mechanism; the pulley 32 is connected with a cleaning brush 33, and at least a part of bristles of the cleaning brush 33 is in contact with the daylighting roof glass 8; the driving mechanism is connected with the pulleys 32 and is used for driving a plurality of pulleys 32 to move along a plurality of sliding rails 31 so as to enable the cleaning brush 33 to reciprocate along the inclination direction of the daylighting roof glass 8;

the wind generating set 4 is connected with the top of the building 9, and the wind generating set 4 is connected with the storage battery; the water pump 21 and the drive mechanism are electrically connected to the battery 5.

The clean system of building based on wind energy power supply that this application embodiment provided adopts wind generating set to generate electricity, can supply power for each power consumption part in the cleaning system, need not to erect mains supply circuit, has practiced thrift the line cost promptly, can reach energy-concerving and environment-protective effect again simultaneously.

Specifically, the water flow guiding unit 2 further comprises a water pipe 22, one end of the water pipe 22 is connected with the outlet end of the water pump 21, and the other end of the water pipe extends to the highest position of the daylighting roof glass. In order to purify the rainwater collected in the water collector, the embodiment of the present application may provide that a water purification assembly 6 is disposed between the inlet end of the water pump 21 and the bottom of the water collector 11, and the water purification assembly 6 is electrically connected to the storage battery 5.

The slide rail 31 is arranged on the daylighting roof steel beam 10, and the axial direction of the slide rail 31 extends along the inclined direction of the daylighting roof glass 8.

In order to store and store the pulley provided by the embodiment of the application when not in use, the embodiment of the application can also provide a pulley bin 7, one end of the pulley bin 7 is located at the highest position of the daylighting roof glass 8, and the slide rail 31 extends into the pulley bin 7, so that the pulley 32 can enter and exit the pulley bin 7. The pulley bin can be arranged on the roof of a building, and the sliding rails extend into the pulley bin, so that pulleys can freely enter and exit the pulley bin, and can enter the pulley bin to be stored when the pulleys are not used.

The wind generating set 4 is positioned at the top of the trolley bin 7 and connected with the trolley bin; the storage battery 5 is positioned in the trolley bin 7. The pulley 32 comprises a wheel frame 321, two rotating wheels 322 are coaxially arranged on the wheel frame 321, the driving mechanism is at least a driving motor connected with one of the rotating wheels, and the driving motor is electrically connected with the storage battery. The driving motor includes a hub motor. The coaster that this application embodiment provided can adopt partial runner to set up the mode into the action wheel, makes it can drive whole coaster walking after getting electric. And a dragging mechanism with adaptive arrangement can be adopted to drag the pulley to walk.

The self-cleaning system is retrieved to daylighting top rainwater that this application embodiment provided can collect the rainwater on the daylighting top glass to the water collector in through rainwater collection unit, regard the water in the water collector as later stage daylighting top glass cleaning water to use. Other water sources are not needed, and the purpose of saving water can be effectively achieved.

Simultaneously, can guide the highest position department of daylighting top glass with the water in the water collector through the rivers guide element that provides, guarantee when carrying out the washing of daylighting top glass, rivers can flow to the lowest position department along daylighting top glass highest position department, reach the purpose of clean daylighting top glass surface filth.

In addition, the pulley that the clean unit of slip contained can drive the cleaning brush along slide rail reciprocating motion, because the brush hair of cleaning brush and daylighting top glass contact, consequently can brush the stubborn spot on the daylighting top glass, at the rivers that the cooperation rivers guide unit provided, guarantees that the clear cleanliness factor of daylighting top glass reaches the requirement. The system cleans the daylighting roof glass in the process, and does not need personnel to board the upper part of the daylighting roof glass in the whole process, so that potential safety hazards caused by high height and wet slip of the daylighting roof can be effectively avoided when the daylighting roof is cleaned, labor force is liberated, and the safety degree of cleaning is improved, and the cleaning efficiency is high.

In a word, the building cleaning system based on wind power supply provided by the application has a simple and reasonable structure and is convenient to install and use. The rainwater collecting unit can collect rainwater to be used as glass cleaning water, so that the purpose of saving water is achieved. The water flow guide unit and the sliding cleaning unit can be used in a matched mode to clean the daylighting roof glass. Wind power generation subassembly can be by fixed mounting on the coaster storehouse, adopts wind power generation's mode to charge for the battery, and power consumption parts such as quality of water purification subassembly, coaster and water pump can be connected with the battery electricity, when the needs power consumption, can acquire the electric energy through the battery for the system that this application embodiment provided is more energy-concerving and environment-protective. Is worthy of large-area popularization and application.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (8)

1. A wind-powered building cleaning system, comprising:

the rainwater collecting unit comprises a water collector, and the inlet end of the water collector is opposite to the lowest position of the daylighting roof glass, so that water flow on the daylighting roof glass enters the water collector;

one end of the water flow guiding unit is connected with the bottom of the water collector, and the other end of the water flow guiding unit extends to the highest position of the daylighting roof glass; the water flow guiding unit comprises a water pump connected with the bottom of the water collector;

the sliding cleaning unit comprises a plurality of sliding rails, a plurality of pulleys and a driving mechanism, wherein the pulleys are correspondingly connected with the sliding rails one by one; the pulley is connected with a cleaning brush, and at least one part of bristles of the cleaning brush is in contact with the daylighting roof glass; the driving mechanism is connected with the pulleys and is used for driving the pulleys to move along the sliding rails so as to enable the cleaning brush to reciprocate along the inclination direction of the daylighting roof glass;

the wind generating set is connected with the top of a building and is connected with the storage battery; the water pump and the driving mechanism are electrically connected with the storage battery.

2. The wind-powered building cleaning system according to claim 1, wherein the water flow guiding unit further comprises a water pipe, one end of the water pipe is connected with an outlet end of the water pump, and the other end of the water pipe extends to the highest position of the daylighting roof glass.

3. The wind-powered building cleaning system according to claim 1, wherein a water purification assembly is disposed between the inlet end of the water pump and the bottom of the water collector, and the water purification assembly is electrically connected to the storage battery.

4. The wind-powered building cleaning system according to claim 1, wherein the slide rails are disposed on a daylighting roof steel beam, and an axial direction of the slide rails extends in an oblique direction of the daylighting roof glass.

5. The wind-powered building cleaning system according to claim 1, further comprising a trolley cabin, wherein one end of the trolley cabin is located at the highest position of the daylighting roof glass, and the slide rail extends into the trolley cabin so that the trolley can enter and exit the trolley cabin.

6. The wind-powered building cleaning system of claim 5, wherein the wind turbine generator set is connected at the top of the garage; the storage battery is positioned in the scooter cabin.

7. The wind-powered building cleaning system according to claim 6, wherein the tackle includes a wheel frame on which two wheels are coaxially arranged, the driving mechanism includes a driving motor connected to at least one of the wheels, and the driving motor is electrically connected to the battery.

8. The wind-powered building cleaning system of claim 7, wherein the drive motor comprises a hub motor.

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