CN212958396U - External self-control building sunshade energy-saving system - Google Patents

Abstract

The utility model discloses an external self-control building sun-shading energy-saving system, which comprises a horizontal sun-shading device and a vertical sun-shading device, wherein the horizontal sun-shading device comprises a sun-shading fly-sail structure which is uniformly arranged around the building and a roller shutter structure which can slide along an aluminum alloy connecting guide rail of the building, the sun-shading fly-sail structure is provided with a sun-shading fly-sail plate, wherein the roller shutter structure comprises a plurality of shutter sheets and a first electric mechanism which is arranged above the shutter sheets, the first electric mechanism drives the rotation of the shutter sheets so as to realize sun-shading, lighting and energy saving in the horizontal direction, the vertical sun-shading device comprises an electric shutter mechanism which is arranged outside a glass curtain wall of the building and a second electric mechanism which is arranged on the electric shutter mechanism, the electric shutter mechanism is provided with a plurality of shutters, and the shutters on the electric shutter mechanism are driven by the second electric mechanism to open and close so as to realize sun-shading, meanwhile, the indoor energy consumption is reduced.

Description

External self-control building sunshade energy-saving system

Technical Field

The utility model relates to a housing construction engineering's technical field especially relates to an external automatic control type building sunshade economizer system.

Background

In the prior art, a glass curtain wall is arranged on the periphery of a building so as to be capable of passing through a window for lighting and sunshine, but the existing glass curtain wall is composed of glass and metal, the surface heat exchange property of the glass is poor, the heat projection property is high, a large amount of solar light can be radiated into a room in summer, the indoor temperature is increased, and the energy consumption of an indoor air conditioner is increased;

in addition, the prior art adopts some sunshade devices to achieve the purpose of sunshade, but still has some problems, such as:

(1) the common louver achieves the purpose of shading, but the common louver is fixed, has poor shading and outer window ventilation effects, is not beneficial to forming good indoor airflow organization, and also influences the visual field of the outer window;

(2) the prior art also adopts the inner sunshade, but the inner sunshade has some problems: solar radiation penetrates through the glass, so that the inner sun-shading curtain is heated to raise the temperature, partial heat enters the room, and the effect of reducing the load of an indoor air conditioner is not great.

Under the condition, when the solar radiation is strong in summer in southern areas, the solar radiation without shading treatment directly enters the room, so that the load of an indoor air conditioner is increased, and the indoor thermal environment is deteriorated.

It follows that the prior art is deficient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a high energy consumption that exists in the building to prior art, should not discharge indoor heat exist in the building high energy consumption, should not discharge indoor heat, shutter relatively fixed, sunshade and outer window ventilation effect are poor, be unfavorable for forming indoor good air current organization, influence outer window field of vision etc. not enough, the utility model provides a can outer sunshade, reduce building indoor energy consumption, control shutter plate angle upset, lift to utilize the natural light better and reach the external automatic control type building sunshade economizer system of anti-dazzle purpose.

In order to solve the technical problem, on the one hand, the utility model provides an external self-control building sunshade energy-saving system, which adopts a sunshade system with finite element analysis components under the action of superimposed wind load and maximum stress variation and a maximum stress variation, and through the deepened design, the sunshade energy-saving system comprises a horizontal sunshade device and a vertical sunshade device, the horizontal sunshade device comprises a sunshade awning structure uniformly arranged around the building and a roller shutter structure capable of sliding along an aluminum alloy connecting guide rail of the building, the sunshade awning structure is provided with a sunshade awning plate for sunshade and energy saving of the building, the roller shutter structure comprises a plurality of shutter pieces and a first electric mechanism arranged above the shutter pieces, the first electric mechanism drives the rotation of the shutter pieces to realize sunshade, lighting and energy saving in the horizontal direction, the vertical sun shading device comprises an electric louver mechanism arranged on the outer side of the glass curtain wall of the building and a second electric mechanism arranged on the electric louver mechanism, the electric louver mechanism is provided with a plurality of louvers, the second electric mechanism drives the plurality of louvers on the electric louver mechanism to open and close so as to realize sun shading, the intensity of light irradiation by utilizing natural light is achieved by controlling the rotation of a plurality of louver pieces, the anti-dazzle effect is achieved, the horizontal sun shading device and the vertical sun shading device can be combined to achieve the sun shading and ventilation effect, a comfortable indoor environment is further provided, and the indoor energy consumption of the building is reduced simultaneously.

Furthermore, the sunshade awning plate is provided with a plurality of aluminum alloy louver blades along the direction of the sunshade awning plate.

Furthermore, the first electric mechanism is provided with a first power motor and rope rolling assemblies positioned at two ends of the first power motor, and the rope rolling assemblies are connected with the first power motor.

Furthermore, the rope rolling assembly is provided with an adjustable mechanical limiter and a first fixing frame located on one side of the adjustable mechanical limiter, one end of the adjustable mechanical limiter is connected with the first fixing frame, and the adjustable mechanical limiter is connected with the first power motor through the first fixing frame, so that the adjustable mechanical limiter plays a limiting control role in driving of the first power motor.

Further, the rope rolling component is provided with a first rope rolling device, a second rope rolling device, a first mounting frame and a second mounting frame, the first rope rolling device and the second rope rolling device are symmetrically arranged, the first mounting frame is installed on one side of the first rope rolling device, the second mounting frame is installed on one side of the second rope rolling device, the first rope rolling device is installed on one side of the adjustable mechanical limiting device through the first mounting frame, the second rope rolling device is installed on the other side of the first power motor through the second mounting frame, the first power motor is used for providing power to drive the first rope rolling device and the second rope rolling device to rotate, and the adjustable mechanical limiting device controls the rotation of the first rope rolling device and the second rope rolling device through controlling the movement of the first power motor.

Furthermore, the roller shutter structure comprises a lifting rope winding and unwinding device and a turnover rope, the lifting rope winding and unwinding device and the turnover rope are symmetrically arranged, the lifting rope winding and unwinding device penetrates through the plurality of curtain sheets and is connected with the first rope winder, the turnover rope penetrates through the plurality of curtain sheets and is connected with the second rope winder, the lifting rope winding and unwinding device realizes lifting of the plurality of curtain sheets through the first rope winder, the turnover rope realizes rotation of the plurality of curtain sheets through the second rope winder, the intensity of light irradiation by natural light is achieved through rotation of the control curtain sheets, an anti-dazzle effect is achieved, a comfortable indoor environment can be provided through mutual combination of the sunshade awning plate and the roller shutter structure, and indoor energy consumption of a building is reduced simultaneously.

Further, roll up curtain structure including the leaf curtain installing frame, the leaf curtain installing frame is used for installing a plurality of curtain pieces, the top of leaf curtain installing frame is provided with the top groove of placing first electric mechanism and is located the top groove both ends and be provided with the installation sign indicating number, first electric mechanism is fixed in the top inslot of leaf curtain installing frame through the installation sign indicating number.

Furthermore, the leaf curtain mounting frame is made of aluminum alloy materials, so that the strength of the plurality of curtain pieces is increased conveniently, and the plurality of curtain pieces are maintained conveniently.

Further, the second electric mechanism includes second motor power, transmission shaft, plays the rotation slide bar of rotation promotion effect to the transmission shaft, the rotation slide bar is located between second motor power and the transmission shaft, install on a plurality of tripes on the transmission shaft and be connected with the one end that rotates the slide bar, the other end that rotates the slide bar is connected with second motor power's one end, second motor power's the other end is provided with the power cord, and second motor power drives under the circular telegram of power cord and rotates the slide bar and rotate and can make a plurality of tripes rotate to the transmission shaft, through second motor power electric drive, rotates the slide bar and drives tripe angle of adjustment, and the adjustment range is 0-105, has the function of adjusting luminance, ventilating, rain-proof, dustproof and prevent wind.

Furthermore, the electric louver mechanism in the vertical sun shading device comprises a plurality of transmission clamps and a plurality of mounting fixing pieces for mounting the transmission clamps, the transmission clamps are mounted and fixed at the mounting positions of the louvers and the transmission shaft through the mounting fixing pieces, and the transmission shaft drives the louvers to rotate through the rotation of the transmission clamps;

further, the working voltage range of the first power motor in the first electric mechanism is as follows: 230V AC ± 6%, stroke: 500mm, push and pull: 1000V, 300mm, limit switch row: DEC, minimum window height: 300 mm.

Compared with the prior art, the utility model discloses a scheme contains following beneficial effect at least:

(1) the sunshade energy-saving system of the utility model comprises a horizontal sunshade device and a vertical sunshade device, the horizontal sun shading device comprises a sun shading awning structure uniformly arranged on the periphery of a building and a rolling curtain structure capable of sliding along an aluminum alloy connecting guide rail of the building, the sun shading awning structure is provided with a sun shading and energy-saving awning plate for the building, the rolling curtain structure is provided with a plurality of curtain sheets and a first electric mechanism arranged above the plurality of curtain sheets, the first electric mechanism drives the plurality of curtain sheets to lift and rotate and turn, thereby realizing the functions of ventilation, water prevention, dust prevention and wind prevention, controlling the rotation of the curtain sheet through the first electric mechanism and controlling the light rays irradiating into the building room so as to achieve the effect of anti-dazzle by using the light ray irradiation intensity of natural light, meanwhile, the indoor energy consumption of the building is reduced, and the harm of the over-strong ultraviolet rays to human bodies is avoided;

(2) the utility model discloses a vertical solar protection devices is including setting up the electronic tripe mechanism in the glass curtain wall outside of building and installing the second electric mechanism in electronic tripe mechanism, wherein, electronic tripe mechanism is provided with a plurality of tripes, thereby open and close through a plurality of tripes in the electronic tripe mechanism of second electric mechanism drive and realize the sunshade, rotate slide bar and transmission to the transmission shaft through second motor power electric drive, make to rotate the slide bar and drive tripe angle of adjustment, have and adjust luminance, ventilate, rain-proof, dustproof and prevent wind the function, can also provide comfortable indoor environment for people.

(3) The utility model discloses set up first electric mechanism and including first motor power, adjustable mechanical stopper, first serving ware, second serving ware, thereby control the rotation of first serving ware and second serving ware through the motion of the first motor power of control through adjustable mechanical stopper, the rotation of first serving ware can take and go up and down to receive and release the rope and roll up, and the roll up of going up and down to receive and release the rope can drive a plurality of curtain pieces and transport from top to bottom, the rotation of second serving ware can take the upset rope to rotate, the upset of upset rope can drive a plurality of curtain pieces and rotate, and then realizes shining the light intensity that shoots into in the building and can control, and then provides comfortable indoor environment.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below

FIG. 1 is a schematic view of the installation of the horizontal and vertical sunshades of the present invention on a building;

FIG. 2 is a partial schematic view of the sunshade awning panel of the present invention;

FIG. 3 is a partial schematic view of the installation of the awning and roller blind structures of the invention on a building;

FIG. 4 is a schematic structural view of the roller blind structure of the present invention;

FIG. 5 is a schematic view of the internal structure of the rolling shutter structure of the present invention;

fig. 6 is a schematic structural view of a hexagonal shaft according to the present invention;

fig. 7 is an internal structure schematic diagram of the vertical sunshade of the present invention.

In the drawings, a sunshade awning structure 1, a sunshade awning plate 11, an aluminum alloy louver 12, a connecting piece 13, an aluminum alloy flat plate 14, a rolling blind structure 2, a blind sheet 21, a lifting rope 22, a first electric mechanism 23, a first power motor 231, a rope rolling component 232, an adjustable mechanical stopper 2321, a first rope rolling device 2322, a second rope rolling device 2323, a first mounting frame 2324, a second mounting frame 2325, a first locking ring 2326, a second locking ring 2327, a first fixing frame 2328, a hexagonal shaft 2329, a top groove 24, a leaf curtain mounting frame 25, a lower rail seal 26, a mounting code 27, a turning rope 28, a horizontal shading device 3, an electric motor 31, a building 4, a vertical shading device 5, an electric louver mechanism 51, a louver 511, a cross beam 512, an aluminum alloy auxiliary bone 513, a transmission clamp 514, a mounting clamp 515, a second electric mechanism 52, a second power motor 521, a transmission shaft 522, a rotating slide bar 523, glass curtain wall 6, aluminum alloy connecting guide rail 7, motor 8.

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 without creative efforts belong to the protection scope of the present invention.

The utility model discloses a concrete implementation project engineering is 1 a scientific research office building engineering (from compiling software garden tang newly-built district software industry of new building district and concentrating hatching center third phase) 1, and this engineering place is located guangzhou city sky river district and deposits all the way, and building 4 curtain wall height 46.4 meters is provided with vertical tripe sunshade and electronic horizontal tripe sunshade, and the sunshade area of this engineering has 19600 square metre, is applicable to the commercial very much.

As shown in FIGS. 1-3, the utility model provides an external automatic control type building sunshade economizer system, adopt finite element analysis component stress variation condition under the effect of stack wind load and the maximum sunshade system of amount of strain, through deepening the design, this sunshade economizer system includes horizontal solar protection devices 3 and vertical solar protection devices 5, horizontal solar protection devices 3 include the sunshade awning structure 1 that evenly sets up around the building and can carry out gliding book curtain structure 2 along the aluminum alloy connecting rail 7 of building, sunshade awning structure 1 is provided with and is used for building sunshade, energy-conserving sunshade awning plate 11, book curtain structure 2 is provided with a plurality of curtain pieces 21 and installs the first electric mechanism 23 above a plurality of curtain pieces, thereby the rotation of a plurality of curtain pieces 21 of first electric mechanism 23 drive realizes the sunshade, the horizontal direction of curtain piece, Daylighting, energy-conservation, vertical solar protection devices 5 is including setting up the electronic tripe mechanism 51 in the glass curtain wall outside of building and installing the second electric mechanism 52 on electronic tripe mechanism 51, electronic tripe mechanism 51 is provided with a plurality of tripes 512, thereby opens and closes through a plurality of tripes 512 on the electronic tripe mechanism 51 of second electric mechanism 52 drive and realize the sunshade, reaches the intensity that utilizes the light irradiation of natural light and then reaches anti-dazzle effect through the rotation of controlling a plurality of curtain pieces 21, thereby can also play the sunshade ventilation effect through the intercombination of horizontal solar protection devices 3 and vertical solar protection devices 5, can also provide comfortable indoor environment, reduce the indoor energy consumption of building 3 simultaneously.

When the utility model is realized, the sun-shading floating awning plate 11 is provided with a plurality of aluminum alloy louver blades 12 along the floating direction of the sun-shading floating awning plate 11, and the plurality of aluminum alloy louver blades 12 are arranged along the floating direction of the sun-shading floating awning plate 11; the plane of the sun-shading awning plate 11 is arranged outside the building 4 in a straight line shape; the awning structure 1 is provided with a connecting piece 13, the awning flying awning plate 11 and the connecting piece are connected by adopting M8 expansion bolts, wherein, the aluminum alloy louver 12 adopts a cold-bending special-shaped component formed by bending a thin-wall aluminum plate, the rigidity of the thin-wall component can reduce the structural deformation under the action of various dynamic wind loads, and the mechanical property of the thin-wall cold-bending component is fully exerted, the structure is very suitable for a typhoon-prone beaded opening area, and can prevent the special-shaped thin-wall component from generating distortion deformation in the hoisting and mounting processes;

the utility model discloses when specifically realizing, M6X 25's stainless steel bolt nail can be chooseed for use to connecting piece 13, adopts stainless steel bolt nail simpler, easy, convenient in the installation, has improved the degree of convenience, and wherein, the distance between the stainless steel bolt hole is 50mm, and the bolt hole is 15mm with the limit distance of zinc-plated gasket.

The utility model discloses during the concrete realization, be 40mm with the distance between M8 expansion bolts's the bolt hole, the bolt hole is 25mm with the margin to connecting piece 13.

In the concrete implementation, the length of each aluminum alloy louver blade 12 is 130mm, the distance between each aluminum alloy louver blade 12 and each aluminum alloy louver blade 12 is 20mm, the sunshade awning structure 1 adopts an aluminum alloy flat plate 14 for bottom sealing, and the thickness of each aluminum alloy flat plate 14 is 6 mm;

as shown in fig. 5, a motor 31 may be further disposed below the sunshade awning plate 11 of the present invention, and the motor 31 may push the sunshade awning plate 11 to move, so as to save labor and improve flexibility;

as shown in fig. 4-7, specifically, the rolling shutter structure 2 includes a plurality of shutter pieces 21, a retracting mechanism, and a first electric mechanism 23, the first electric mechanism 23 is located above the plurality of shutter pieces 21, the first electric mechanism 23 increases power to drive the plurality of shutter pieces 21 to lift and rotate and turn over, which is beneficial to discharging indoor heat, and also beneficial to indoor ventilation, and is beneficial to achieving the purpose of ventilation, the rotation of the shutter pieces 21 is controlled to achieve the intensity of light irradiation by natural light to achieve the anti-glare effect, and the mutual combination of the sunshade awning plate 11 and the rolling shutter structure 2 can provide a comfortable indoor environment, reduce the indoor energy consumption of the building 4, and can not shade outdoor scenery, and can effectively maintain the indoor visual transparency;

in a specific implementation, each curtain sheet 21 is provided with a first perforation and a second perforation, and the first perforation and the second perforation are symmetrically arranged;

in a specific implementation, the first electric mechanism 23 is provided with a first power motor 231 and a rope winding assembly 232 located at two ends of the first power motor 231, and the rope winding assembly 232 is connected with the first power motor 231.

In concrete implementation, the rope winding assembly 232 is provided with an adjustable mechanical stopper 2321 and a first fixing frame 2328 located on one side of the adjustable mechanical stopper 2321, one end of the adjustable mechanical stopper 2321 is connected with the first fixing frame 2328, and the adjustable mechanical stopper 2321 is connected with the first power motor 231 through the first fixing frame 2328, so that the adjustable mechanical stopper 2321 plays a role in limiting and controlling the driving of the first power motor 231, and the first power motor 231 is conveniently switched on and off;

in a specific implementation, the rope winding assembly 232 is provided with a first rope winder 2322, a second rope winder 2323, a first mounting frame 2324 and a second mounting frame 2325, the first rope winder 2322 and the second rope winder 2323 are symmetrically arranged, the first mounting frame 2324 is mounted on one side of the first rope winder 2322, the second mounting frame 2325 is mounted on one side of the second rope winder 2323, the first rope winder 2322 is mounted on one side of an adjustable mechanical stopper 2321 through the first mounting frame 2324, the second rope winder 2323 is mounted on the other side of the first power motor 231 through the second mounting frame 2325, the first power motor 231 is used for providing power to drive the first rope winder 2322 and the second rope winder 2323 to rotate, and the adjustable mechanical stopper 2321 controls the first power motor 231 to move so as to control the rotation of the first rope winder 2322 and the second rope winder 2323.

In a specific implementation, the first rope winder 2322 and the second rope winder 2323 are internally provided with hexagonal shafts 2329 which are respectively a first hexagonal shaft and a second hexagonal shaft;

in a concrete implementation, the rope winding assembly 232 is provided with a first locking ring 2326 and a second locking ring 2327, the first locking ring 2326 and the second locking ring 2327 are symmetrically arranged, the other end of the first rope winder 2322 is locked by the first locking ring 2326 to fix the first hexagonal shaft, and the other end of the second rope winder 2323 is locked by the second locking ring 2327 to fix the second hexagonal shaft;

in specific implementation, the roller shutter structure 2 is provided with a lifting rope 22 and a turning rope 28, and the lifting rope 22 and the turning rope 28 are symmetrically arranged.

In the concrete implementation, the lifting and releasing rope 22 passes through the first through holes on the plurality of curtain sheets 21 and is connected with the first rope winder 2322, the turning rope 28 passes through the second through holes on the plurality of curtain sheets 21 and is connected with the second rope winder 2323, the lifting and releasing rope 22 realizes the lifting of the plurality of curtain sheets 21 through the first rope winder 2322, the turning rope 28 realizes the rotation of the plurality of curtain sheets 21 through the second rope winder 2323, the rotation of the first rope winder 2322 can wind the lifting and releasing rope 22, the rolling of the lifting and releasing rope 22 can drive the plurality of curtain sheets 21 to move up and down, the rotation of the second rope winder 2323 can drive the turning rope 28 to rotate, the turning of the turning rope 28 can drive the angle rotation of the plurality of curtain sheets 21, and the building 4 can be balanced among sun shading, lighting and ventilation by adjusting the angle rotation of the curtain sheets 21, and the rotation of the control sheets 21 can achieve the illumination intensity of natural light and further achieve the anti-light ray illumination intensity The glare effect can also provide a comfortable indoor environment by combining the sunshade awning panel 11 and the rolling shutter structure 2 with each other, while reducing the indoor energy consumption of the building 4.

In particular, the lifting rope 22 and the turning rope 28 can be automatically controlled by the first electric mechanism 23, and can be manually pulled.

In specific implementation, the operating voltage range of the first power motor 231 in the first electric mechanism 23 is as follows: 230V AC ± 6%, stroke: 500mm, push and pull: 1000V, 300mm, limit switch row: DEC, minimum window height: 300 mm.

During the concrete implementation, roll up curtain structure 2 and be provided with leaf curtain installing frame 25, leaf curtain installing frame 25 is used for installing a plurality of curtain pieces 21, the top of leaf curtain installing frame 25 is provided with the overhead tank 24 of placing first electric mechanism 23 and is located overhead tank 24 both ends and is provided with installation sign indicating number 27, first electric mechanism 23 is fixed in the overhead tank 24 of leaf curtain installing frame 25 through installation sign indicating number 27.

During the concrete implementation, leaf curtain installing frame 25 adopts aluminum alloy material to make, is convenient for increase a plurality of curtain pieces 21's intensity, and the texture is light, is convenient for carry and installation, also is convenient for a plurality of curtain pieces 21 to maintain.

In a specific implementation, the electric louver mechanism 51 in the vertical sun-shading device 5 is provided with cross beams 512, and the louvers 511 are installed between the cross beams 512.

When the embodiment of the utility model is implemented specifically, a plurality of shutters 511 adopt white shutters 511, are formed by processing aluminum alloy with the thickness of 1.2mm, have the length of 600mm and the width of 86mm, are in a fusiform plane, have large cross section and are of a hollow structure, and the shutters 511 have the advantages of high strength and maintenance free;

the second electric mechanism 52 comprises a second power motor 521, a transmission shaft 522 and a rotary sliding rod 523 for pushing the transmission shaft 522 to rotate, the rotary sliding rod 523 is arranged between the second power motor 521 and the transmission shaft 522, the transmission shaft 522 is mounted on a plurality of louvers 511 and connected with one end of the rotary sliding rod 523, the other end of the transmission shaft 522 is connected with one end of the second power motor 521, the other end of the second power motor 521 is provided with a power cord, the second power motor 521 drives the rotary sliding rod 523 to rotate under the electrification of the power cord and can transmit the louvers 511 onto the transmission shaft 522, the louvers 511 on the transmission shaft 522 rotate under the rotation of the sliding rod, the rotary sliding rod 523 is driven by the second power motor 521 to drive the louvers 511 to adjust the angle, wherein the louvers 511 have an angle adjusting range of 0-105 degrees and have a light adjusting function, Ventilation, rain-proof, dustproof and windproof functions.

In a specific implementation, the electric louver mechanism 51 further includes a connecting bolt and an aluminum alloy auxiliary rib 513, and the transmission shaft 522 is connected with the aluminum alloy auxiliary rib 513 through the connecting bolt.

During specific implementation, the electric louver mechanism 51 is provided with a plurality of transmission clamps 514 and a plurality of mounting fixtures 515 for mounting the plurality of transmission clamps 514, the plurality of transmission clamps 514 are mounted and fixed at mounting positions of the plurality of louvers 511 and the transmission shaft 522 through the plurality of mounting fixtures 515, and the transmission shaft 522 drives the plurality of louvers 511 to rotate through rotation of the plurality of transmission clamps 514.

In a specific implementation, the plurality of mounting fixtures 515 may be fixed by screws or bolts.

In specific implementation, the power supplies of the first power motor 231 and the second power motor 521 are installed in the weak current chamber, can be controlled by a manual remote controller, and are combined with the fire-fighting linkage mechanism of the building 4, so that the purposes of lightning surge resistance, electromagnetic wave resistance and radiation interference resistance are achieved.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (9)

1. The utility model provides an external automatic control type building sunshade economizer system, this sunshade economizer system is including horizontal solar protection devices and vertical solar protection devices, its characterized in that: the horizontal sun shading device comprises a sun shading and floating awning structure and a roller shutter structure, wherein the sun shading and floating awning structure is uniformly arranged on the periphery of a building, the roller shutter structure can slide along an aluminum alloy connecting guide rail of the building, the sun shading and floating awning structure is provided with a sun shading and energy-saving sun shading and floating awning plate for the building, the roller shutter structure comprises a plurality of curtain sheets and a first electric mechanism arranged above the plurality of curtain sheets, the first electric mechanism drives the plurality of curtain sheets to rotate so as to realize sun shading, lighting and energy saving in the horizontal direction, the vertical sun shading device comprises an electric shutter mechanism arranged on the outer side of a glass curtain wall of the building and a second electric mechanism arranged on the electric shutter mechanism, the electric shutter mechanism is provided with a plurality of shutters, and the plurality of shutters on the electric shutter mechanism are driven by the second electric mechanism to open and close so.

2. The external self-controlled building sun-shading energy-saving system of claim 1, characterized in that: the sunshade floating awning plate is provided with a plurality of aluminum alloy louver blades along the floating direction of the sunshade floating awning plate.

3. The external self-controlled building sun-shading energy-saving system of claim 1, characterized in that: the first electric mechanism is provided with a first power motor and rope rolling assemblies positioned at two ends of the first power motor, and the rope rolling assemblies are connected with the first power motor.

4. The external self-controlled building sun-shading energy-saving system of claim 3, characterized in that: the rope winding assembly is provided with an adjustable mechanical limiter and a first fixing frame located on one side of the adjustable mechanical limiter, one end of the adjustable mechanical limiter is connected with the first fixing frame, and the adjustable mechanical limiter is connected with the first power motor through the first fixing frame, so that the adjustable mechanical limiter plays a limiting control role in driving of the first power motor.

5. The external self-controlled building sun-shading energy-saving system of claim 4, characterized in that: the rope rolling component is provided with a first rope rolling device, a second rope rolling device, a first mounting frame and a second mounting frame, the first rope rolling device and the second rope rolling device are symmetrically arranged, the first mounting frame is installed on one side of the first rope rolling device, the second mounting frame is installed on one side of the second rope rolling device, the first rope rolling device is installed on one side of an adjustable mechanical limiting device through the first mounting frame, the second rope rolling device is installed on the other side of a first power motor through the second mounting frame, the first power motor is used for providing power to drive the first rope rolling device and the second rope rolling device to rotate, and the adjustable mechanical limiting device controls the rotation of the first rope rolling device and the second rope rolling device by controlling the motion of the first power motor.

6. The external self-controlled building sun-shading energy-saving system of claim 1, characterized in that: the roller shutter structure comprises a lifting winding and unwinding rope and a turning rope, the lifting winding and unwinding rope and the turning rope are symmetrically arranged, the lifting winding and unwinding rope penetrates through a plurality of curtain sheets and is connected with a first rope winder, the turning rope penetrates through the curtain sheets and is connected with a second rope winder, the lifting winding and unwinding rope realizes the lifting of the curtain sheets through the first rope winder, and the turning rope realizes the rotation of the curtain sheets through the second rope winder.

7. The external self-controlled building sun-shading energy-saving system of claim 1, characterized in that: the second electric mechanism includes second motor power, transmission shaft, plays the rotation slide bar of rotation promotion effect to the transmission shaft, rotate the slide bar and locate between second motor power and the transmission shaft, install on a plurality of tripes on the transmission shaft and be connected with the one end that rotates the slide bar, the other end that rotates the slide bar is connected with second motor power's one end, second motor power's the other end is provided with the power cord, and second motor power drives under the circular telegram of power cord and rotates the slide bar and rotate and can rotate to make a plurality of tripes rotate to the transmission shaft on.

8. The external self-controlled building sun-shading energy-saving system of claim 1, characterized in that: the electric louver mechanism comprises a plurality of transmission fixtures and a plurality of installation fixing pieces used for installing the transmission fixtures, the transmission fixtures are installed and fixed at the installation positions of the louvers and the transmission shaft through the installation fixing pieces, and the transmission shaft is rotated to drive the louvers through the rotation of the transmission fixtures.

9. The external self-controlled building sun-shading energy-saving system of claim 3, characterized in that: the working voltage range of a first power motor in the first electric mechanism is as follows: 230V AC ± 6%, stroke: 500mm, push and pull: 1000V, 300mm, limit switch row: DEC, minimum window height: 300 mm.

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