CN110425085A - A kind of Shaft of High-rise Buildings power generator - Google Patents

Abstract

The invention discloses a kind of Shaft of High-rise Buildings power generator, including vertical shaft, the top and bottom end of the vertical shaft are respectively arranged with opening, and open-mouth is provided with door body；Multiple wind-power electricity generation components, multiple wind-power electricity generation components are uniformly arranged along the trend of the vertical shaft, the wind-power electricity generation component includes wind-driven generator, the wind-power electricity generation component is capable of fixing in operating position and maintenance position, wherein, under operating position, the flabellum of wind-driven generator moves towards perpendicular with the vertical shaft, it overhauls under position, the flabellum of the wind-driven generator is parallel with vertical shaft trend.In the present invention, first by setting open for vertical shaft both ends, so as to generate macro suction effect in vertical shaft, the air stream in vertical shaft is then converted to by electric energy by wind-power electricity generation component, has both improved the utilization efficiency of vertical shaft, also improves the power self-support rate of skyscraper.Other electric energy storage devices are accessed by the energy that wind-power electricity generation component generates or the storage and use of the energy can be realized in electrical equipment.

Description

A kind of Shaft of High-rise Buildings power generator

Technical field

The present invention relates to generating equipment technical field, specifically a kind of Shaft of High-rise Buildings power generator.

Background technique

As the continuous development of Chinese society economy is grown, skyscraper also emerges one after another.

Need to be arranged vertical shaft straight-through up and down in the skyscraper in China at present, for the use such as cabling, maintenance.

But inventors have found that the setting of vertical shaft produces great wave for the high-rise of an inch of land is an inch of gold Take；In addition, need to expend a large amount of electric energy daily in the skyscraper in China, and power self-support rate is extremely low.

Summary of the invention

According to the above-mentioned deficiencies of the prior art, the invention proposes Shaft of High-rise Buildings power generator, by vertical shaft Power generator is set, will effectively can either utilize vertical shaft resource, and can be improved the power self-support rate of skyscraper.

The present invention solves its technical problem using following technical scheme to realize:

A kind of Shaft of High-rise Buildings power generator, including

Vertical shaft, the top and bottom end of the vertical shaft are respectively arranged with opening, and open-mouth is provided with door body；

Multiple wind-power electricity generation components, multiple wind-power electricity generation components are uniformly arranged along the trend of the vertical shaft, the wind Power electrification component includes wind-driven generator, and the wind-power electricity generation component is capable of fixing in operating position and maintenance position,

Wherein, under operating position, the flabellum of wind-driven generator moves towards perpendicular with the vertical shaft, overhauls under position, described The flabellum of wind-driven generator is parallel with vertical shaft trend.

As a kind of optional embodiment of the invention, the wind-power electricity generation component further includes that bracket and first are flexible Bar, the wind-driven generator are fixedly connected with the bracket, and the fixing end of the bracket is side walls hinged with the vertical shaft, described The both ends of first telescopic rod are side walls hinged with the bracket and the vertical shaft respectively.

As a kind of optional embodiment of the invention, the bracket includes two girders disposed in parallel and connection More connecting rods of two girders, the bottom end of two girders is side walls hinged with the vertical shaft,

Wherein, it overhauls under position, multiple bracket head and the tail offset as cat ladder.

As a kind of optional embodiment of the invention, the side of fixing end of the vertical shaft far from the bracket is opposite That answers is provided with supporting block, and under operating position, the movable end of the bracket is overlapped in the supporting block.

As a kind of optional embodiment of the invention, the two sides of the movable end of the bracket it is opposite be provided with first Accommodation groove and the second accommodation groove, the wind-power electricity generation component further include

First briquetting is set in first accommodation groove, and can be moved along the direction that first accommodation groove limits；

First damping spring, both ends are resisted against the wall and first briquetting of first accommodation groove respectively；

Second briquetting is set in second accommodation groove, and can be moved along the direction that second accommodation groove limits；

Second damping spring, both ends are resisted against the wall and second briquetting of second accommodation groove respectively.

It further include clamping mechanism as a kind of optional embodiment of the invention, the clamping mechanism and the vertical shaft It is side walls hinged, the clamping mechanism is capable of fixing in clamping position and holding fix,

Wherein, under holding fix, clamping mechanism will not interfere the into or out maintenance of the wind-power electricity generation component Position, under clamping position, clamping mechanism will enter the wind-power electricity generation component clamping of the maintenance position.

As a kind of optional embodiment of the invention, the clamping mechanism includes

Claw, the fixing end of the claw are side walls hinged with the vertical shaft；

Second telescopic rod, the both ends of second telescopic rod are hinged with the side wall of the vertical shaft and the claw respectively.

The beneficial effects of the present invention are:

In the present invention, first by setting open for vertical shaft both ends, so as to generate macro suction effect in vertical shaft, then pass through Air stream in vertical shaft is converted to electric energy by wind-power electricity generation component, has both improved the utilization efficiency of vertical shaft, is also improved high level and is built The power self-support rate built.Accessing other electric energy storage devices or electrical equipment by the energy that wind-power electricity generation component generates can be realized The storage and use of the energy.

Secondly, can be avoided and cat ladder is arranged again in vertical shaft by setting cat ladder form for bracket, both saved at This, decreases the space occupied in vertical shaft, and operator is made to have bigger activity space.

Again, by the setting of the first briquetting, the second briquetting, the first damping spring and the second damping spring, can slow down The noise and vibration that bracket generates when switching between operating position and maintenance position, is conducive to protect wind-power electricity generation component Etc. equipment and reduce noise pollution.

Again secondary, by the way that clamping mechanism is arranged, when wind power generating set being made to enter maintenance position, clamping mechanism is capable of fixing branch The top of frame, to increase the stability of bracket, it is ensured that the safety of operator.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the main view of present embodiment；

Fig. 2 is the fragmentary detail view of the wind-power electricity generation component of present embodiment (wind-driven generator is in operating position)；

Fig. 3 is the fragmentary detail view of the wind-power electricity generation component of present embodiment (wind-driven generator is in maintenance position)；

Fig. 4 is the top view of the wind-power electricity generation component of present embodiment；

Fig. 5 is the portion the A detail drawing of Fig. 2；

Fig. 6 is the portion the B detail drawing of Fig. 3.

In figure, 100- vertical shaft, 110- supporting block, 200- wind-power electricity generation component, 210- wind-driven generator, 220- bracket, 221- girder, 222- connecting rod, the first telescopic rod of 230-, the first briquetting of 240-, the first damping spring of 250-, the second briquetting of 260-, The second damping spring of 270-, 300- clamping mechanism, 310- claw, the second telescopic rod of 320-.

Specific embodiment

Below by the description to embodiment, the shape of for example related each component of a specific embodiment of the invention, structure It makes, the mutual alignment between each section and connection relationship, the effect of each section and working principle, manufacturing process and the side of operating with Method etc., is described in further detail, completeer to help those skilled in the art to have inventive concept of the invention, technical solution Whole, accurate and deep understanding.

As one embodiment of the present invention, a kind of Shaft of High-rise Buildings power generator, including vertical shaft are provided, it is described The top and bottom end of vertical shaft are respectively arranged with opening, and open-mouth is provided with door body；Multiple wind-power electricity generation components, multiple wind-force Electrification component is uniformly arranged along the trend of the vertical shaft, and the wind-power electricity generation component includes wind-driven generator, the wind-power electricity generation Component is capable of fixing in operating position and maintenance position, wherein under operating position, the flabellum of wind-driven generator is walked with the vertical shaft To perpendicular, overhaul under position, the flabellum of the wind-driven generator is parallel with vertical shaft trend.

In the present invention, opened by door body at the open at both ends by vertical shaft, can with extraneous connection, due to high level Building height is higher, so that there are pressure differences for the top of vertical shaft and bottom end, and then generates spontaneous macro suction phenomenon, ground proximity Air enters from the bottom end of vertical shaft, rises then along vertical shaft, is finally discharged from the top of vertical shaft, then by setting in vertical shaft Multiple wind-power electricity generation components are set, and wind-power electricity generation component is configured to be fixed on operating position and maintenance position, work as vertical shaft When without other purposes, wind-force discovery component is fixed on operating position, wind-power electricity generation component converts the air stream in vertical shaft For electric energy, the production of the energy is realized, when needing to carry out maintenance or other purposes using vertical shaft, the door body at vertical shaft both ends is closed Close, then by wind-power electricity generation component be fixed on maintenance position, at this time vertical shaft can with traditional vertical shaft function having the same, for operation Personnel, which enter in the vertical shaft, to overhaul or other operations.In the present invention, first by setting open for vertical shaft both ends, with Make to generate macro suction effect in vertical shaft, the air stream in vertical shaft is then converted to by electric energy by wind-power electricity generation component, was both improved The utilization efficiency of vertical shaft also improves the power self-support rate of skyscraper.It is accessed by the energy that wind-power electricity generation component generates The storage and use of the energy can be realized in his electric energy storage device or electrical equipment.

As a kind of specific embodiment of the invention, as shown in figures 1 to 6, a kind of Shaft of High-rise Buildings 100 is provided Power generator, including vertical shaft 100, the top and bottom end of the vertical shaft 100 are respectively arranged with opening, and open-mouth is provided with door body； Multiple wind-power electricity generation components 200, multiple wind-power electricity generation components 200 are uniformly arranged along the trend of the vertical shaft 100, the wind Power electrification component 200 include wind-driven generator 210, bracket 220 and the first telescopic rod 230, the wind-driven generator 210 with it is described Bracket 220 is fixedly connected, and the fixing end of the bracket 220 is side walls hinged with the vertical shaft 100, first telescopic rod 230 Both ends it is side walls hinged with the bracket 220 and the vertical shaft 100 respectively.The wind-power electricity generation component 200 is capable of fixing In operating position and maintenance position, wherein under operating position, the flabellum of wind-driven generator 210 mutually hangs down with the vertical shaft 100 trend Directly, it overhauls under position, the flabellum of the wind-driven generator 210 moves towards parallel with the vertical shaft 100.By on the top of vertical shaft 100 End and bottom end setting are open, and door body is arranged in open-mouth, when can be as needed the vertical shaft 100 and external environment connect or Isolation can generate macro suction effect, make to generate air stream in the vertical shaft 100, when itself and the external world when it is connected with external environment When environment completely cuts off, which is no different with traditional vertical shaft 100.Specifically, the first telescopic rod is used hydraulic or is driven by electricity, First telescopic rod 230 drives wind-driven generator 210 to switch between station position and maintenance position for driving arm 220.

As a kind of optional embodiment of the invention, it is arranged in parallel as shown in figure 4, the bracket 220 includes two Girder 221 and connect more connecting rods 222 of two girders 221, the bottom ends of two girders 221 and the vertical shaft 100 it is side walls hinged, wherein maintenance position under, multiple 220 head and the tail of bracket offset as cat ladder.When operator needs When executing maintenance or other operations in into vertical shaft 100,230 driving arm 220 of the first telescopic rod drives wind-power electricity generation Machine 210 overturns from operating position to maintenance position, and bracket 220 and the vertical shaft 100 positioned at maintenance position move towards identical, and multiple 220 head and the tail of bracket offset, and become cat ladder, can climb up and down use for operator.In the present invention, by the way that bracket 220 is set It is set to cat ladder form, can be avoided and cat ladder is set again in vertical shaft 100, both saved cost, decreases and occupies in vertical shaft 100 Space, make operator have bigger activity space.

Further, as shown in Figures 2 and 3, described perpendicular in order to increase the stability of wind-power electricity generation component 200 at work The side of fixing end of the well 100 far from the bracket 220 is corresponding to be provided with supporting block 110, under operating position, the bracket 220 movable end is overlapped in the supporting block 110.

As a kind of optional embodiment of the invention, as shown in figure 5, the two sides phase of the movable end of the bracket 220 Pair be provided with the first accommodation groove and the second accommodation groove, the wind-power electricity generation component 200 further includes the first briquetting 240, is set to In first accommodation groove, and it can be moved along the direction that first accommodation groove limits；First damping spring 250, both ends difference It is resisted against the wall and first briquetting 240 of first accommodation groove；Second briquetting 260 is set in second accommodation groove, And it can be moved along the direction that second accommodation groove limits；Second damping spring 270, both ends are resisted against second accommodating respectively The wall of slot and second briquetting 260.In the present invention, pass through the first briquetting 240, the second briquetting 260, the first damping spring 250 And second damping spring 270 setting, can slow down bracket 220 operating position and maintenance position between switch over when generation Noise and vibration, be conducive to protect the equipment such as wind-power electricity generation component 200 and reduce noise pollution.

As a kind of optional embodiment of the invention, as shown in fig. 6, further include clamping mechanism 300, the clamping machine Structure 300 is side walls hinged with the vertical shaft 100, and the clamping mechanism 300 is capable of fixing in clamping position and holding fix, In, under holding fix, clamping mechanism 300 will not interfere the into or out maintenance position of the wind-power electricity generation component 200, Under clamping position, clamping mechanism 300 will enter 200 clamping of wind-power electricity generation component of the maintenance position.In the present invention, lead to Cross setting clamping mechanism 300, make 210 groups of wind-driven generator enter maintenance position when, clamping mechanism 300 is capable of fixing bracket 220 Top, to increase the stability of bracket 220, it is ensured that the safety of operator.

Specifically, the clamping mechanism 300 includes claw 310, the fixing end of the claw 310 and the vertical shaft 100 It is side walls hinged；Second telescopic rod 320, the both ends of second telescopic rod 320 respectively with the side wall of the vertical shaft 100 and described Claw 310 is hinged.Specifically, the second telescopic rod 320 is using the electric power perhaps elongation of the second telescopic rod of hydraulic-driven 320 or contracting It is short to drive the claw 310 to enter clamping position or enter holding fix, when claw 310 enters clamping position, claw 310 catch at least one girder 221 or connecting rod 222 on 220 top of bracket, so that the bracket 220 in maintenance position has Good stability.

In the present invention, first by setting open for 100 both ends of vertical shaft, so as to generate macro suction effect in vertical shaft 100, so The air stream in vertical shaft 100 is converted to by electric energy by wind-power electricity generation component 200 afterwards, has both improved the utilization efficiency of vertical shaft 100, Also improve the power self-support rate of skyscraper.By wind-power electricity generation component 200 generate the energy access other electric energy storage devices or The storage and use of the energy can be realized in person's electrical equipment.

Secondly, can be avoided and cat ladder is arranged again in vertical shaft 100, both saved by setting cat ladder form for bracket 220 Cost decreases the space occupied in vertical shaft 100, and operator is made to have bigger activity space.

Again, setting by the first briquetting 240, the second briquetting 260, the first damping spring 250 and the second damping spring 270 It sets, the noise and vibration generated when bracket 220 switches between operating position and maintenance position can be slowed down, be conducive to protect It protects the equipment such as wind-power electricity generation component 200 and reduces noise pollution.

Again time by setting clamping mechanism 300, make 210 groups of wind-driven generator enter maintenance position when, 300 energy of clamping mechanism The top of enough fixed bracket 220, to increase the stability of bracket 220, it is ensured that the safety of operator.

The present invention is exemplarily described above, it is clear that present invention specific implementation is not subject to the restrictions described above, As long as using the improvement for the various unsubstantialities that the inventive concept and technical scheme of the present invention carry out, or not improved this is sent out Bright conception and technical scheme directly apply to other occasions, within the scope of the present invention.Protection of the invention Range should be determined by the scope of protection defined in the claims.

Claims (7)

1. a kind of Shaft of High-rise Buildings power generator, it is characterised in that: including

Vertical shaft, the top and bottom end of the vertical shaft are respectively arranged with opening, and open-mouth is provided with door body；

Multiple wind-power electricity generation components, multiple wind-power electricity generation components are uniformly arranged along the trend of the vertical shaft, the wind-force hair Electrical component includes wind-driven generator, and the wind-power electricity generation component is capable of fixing in operating position and maintenance position,

Wherein, under operating position, the flabellum of wind-driven generator moves towards perpendicular with the vertical shaft, overhauls under position, the wind-force The flabellum of generator is parallel with vertical shaft trend.

2. Shaft of High-rise Buildings power generator according to claim 1, it is characterised in that: the wind-power electricity generation component also wraps Bracket and the first telescopic rod are included, the wind-driven generator is fixedly connected with the bracket, and the fixing end of the bracket is erected with described Well it is side walls hinged, the both ends of first telescopic rod are side walls hinged with the bracket and the vertical shaft respectively.

3. Shaft of High-rise Buildings power generator according to claim 2, it is characterised in that: the bracket includes two parallel The side wall of the girder of setting and more connecting rods for connecting two girders, the bottom end of two girders and the vertical shaft is cut with scissors It connects,

Wherein, it overhauls under position, multiple bracket head and the tail offset as cat ladder.

4. Shaft of High-rise Buildings power generator according to claim 2, it is characterised in that: the vertical shaft is far from the bracket Fixing end side it is corresponding be provided with supporting block, under operating position, the movable end of the bracket is overlapped on the support On block.

5. Shaft of High-rise Buildings power generator according to claim 4, it is characterised in that: the two of the movable end of the bracket Side it is opposite be provided with the first accommodation groove and the second accommodation groove, the wind-power electricity generation component further includes

First briquetting is set in first accommodation groove, and can be moved along the direction that first accommodation groove limits；

First damping spring, both ends are resisted against the wall and first briquetting of first accommodation groove respectively；

Second briquetting is set in second accommodation groove, and can be moved along the direction that second accommodation groove limits；

Second damping spring, both ends are resisted against the wall and second briquetting of second accommodation groove respectively.

6. Shaft of High-rise Buildings power generator according to claim 1, it is characterised in that: it further include clamping mechanism, it is described Clamping mechanism is side walls hinged with the vertical shaft, and the clamping mechanism is capable of fixing in clamping position and holding fix,

Wherein, under holding fix, clamping mechanism will not interfere the into or out maintenance position of the wind-power electricity generation component, Under clamping position, clamping mechanism will enter the wind-power electricity generation component clamping of the maintenance position.

7. Shaft of High-rise Buildings power generator according to claim 6, it is characterised in that: the clamping mechanism includes

Claw, the fixing end of the claw are side walls hinged with the vertical shaft；

Second telescopic rod, the both ends of second telescopic rod are hinged with the side wall of the vertical shaft and the claw respectively.