CN114059727A

CN114059727A - A intelligent sunshade auxiliary assembly for building

Info

Publication number: CN114059727A
Application number: CN202111354295.9A
Authority: CN
Inventors: 陈琳; 隋杰礼; 王磊
Original assignee: Yantai University
Current assignee: Yantai University
Priority date: 2021-11-16
Filing date: 2021-11-16
Publication date: 2022-02-18
Anticipated expiration: 2041-11-16
Also published as: CN114059727B

Abstract

The invention relates to a sun-shading auxiliary device, in particular to an intelligent sun-shading auxiliary device for a building, which comprises a sliding sun-shading plate mechanism, a wind power utilization mechanism and a supporting frame mechanism, wherein the sun-shading angle of the device can be changed, the device can be completely unshielded, the device can ventilate indoors, the device can cool indoors, the device can generate electricity, the sliding sun-shading plate mechanism is connected with the wind power utilization mechanism, and the wind power utilization mechanism is connected with the supporting frame mechanism.

Description

A intelligent sunshade auxiliary assembly for building

Technical Field

The invention relates to a sunshade auxiliary device, in particular to an intelligent sunshade auxiliary device for a building.

Background

Light pollution is always a problem troubling building users, the traditional technical means is that the shielding effect is not ideal due to the fact that a curtain is used for shielding, and the adjusting means cannot adapt to various applicable working conditions and cannot form a good ventilation effect, so that the intelligent sun-shading auxiliary equipment for the building is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing intelligent auxiliary sunshade equipment for a building, the equipment can change the sunshade angle, the equipment can completely shield, the equipment can ventilate the indoor space, the equipment can cool the indoor space, and the equipment can generate electricity.

In order to solve the technical problem, the invention relates to a sunshade auxiliary device, in particular to an intelligent sunshade auxiliary device for a building.

The sliding sunshade plate mechanism is connected with the wind power utilization mechanism, and the wind power utilization mechanism is connected with the supporting frame mechanism.

As a further optimization of the technical scheme, the sliding sun shield mechanism of the intelligent sun shield auxiliary equipment for the building comprises a support with a hole, a sliding air box, a first seat with a slope, a second seat with a slope, a first air cylinder, a sun shield body, a water retaining brim, a rotating seat, a sliding support, a step rod, a first spring, an intermediate shell, a wind wheel, a threaded opening, a motor, a fixed pipe, a sliding pipe and an L-shaped channel, wherein the support with the hole is connected to the sun shield body, the upper end of the sun shield body is provided with the water retaining brim, the sliding air box is symmetrically connected with the first seat with the slope at the left side and the right side, the first seat with the slope is contacted with the second seat with the slope, the movable end of the first air cylinder is connected with the second seat with the slope, the first air cylinder is fixedly connected to the sun shield body, the rotating seat is in threaded connection with the threaded opening arranged on the sun shield body, the rotating seat is symmetrically provided with the sliding support up and down, sliding support goes up sliding connection has the ladder pole, and first spring housing is on the ladder pole, and middle shell links to each other with rotating the seat, and slip bellows and middle shell sliding connection, wind wheel rotate with rotating the seat and be connected, are equipped with the fixed pipe of several on rotating the seat, and sliding connection has the slip pipe in the fixed pipe, and the slip pipe links to each other and communicates with slip bellows, is equipped with L shape passageway on the slip bellows, and L shape passageway one end is linked together with the slip pipe, and the other end is by middle shell sliding seal.

As a further optimization of the technical scheme, the wind power utilization mechanism of the intelligent sun-shading auxiliary equipment for the building comprises a first air box, a first ventilation opening, a connecting pipe, a narrowing part, a second ventilation opening, a second air box, a magnetic induction line providing seat, an inner impeller and a rotating coil, wherein the first ventilation opening is symmetrically arranged on two sides of the first air box, the connecting pipe is communicated with the first ventilation opening on one side, the narrowing part is arranged on the other side of the connecting pipe, the narrowing part extends into the second ventilation opening opposite to the first ventilation opening communicated with the connecting pipe, the first ventilation opening is symmetrically arranged in the second air box, the backs of the first air box and the second air box are both connected with the magnetic induction line providing seat, the rotating coil is rotationally connected on the magnetic induction line providing seat and is connected on the inner impeller, the inner impeller is rotationally connected in the first air box and the second air box, the first air box and the second air box are both connected on a sun-shading board body, the connecting pipe is connected with the support with the hole.

As a further optimization of the technical scheme, the supporting frame mechanism of the intelligent auxiliary sunshade device for the building comprises an outer frame, a rotating seat with a chute, a limiting wheel, a limiting block, a second spring, a sliding stepped rod with an inner hole, a limiting rod, a sliding seat, a second air cylinder, a first gear, a second gear, a servo motor, a lead screw and a lifting servo motor, wherein the outer frame is rotatably connected with the rotating seat with the chute, a sunshade plate body is slidably connected with the rotating seat with the chute, one side of the rotating seat with the chute is connected with the limiting wheel, the limiting block is clamped on the limiting wheel through the elastic force of the second spring, the lower end of the limiting block is connected with the sliding stepped rod with the inner hole, the sliding stepped rod with the chute is slidably connected with the rotating seat with the inner hole, the limiting rod is slidably connected with the sliding stepped rod with the inner hole, the limiting rod is connected with the sliding seat, the sliding seat is connected with the second air cylinder, the second cylinder is connected with the rotating seat with the chute, the first gear is connected to one side of the rotating seat with the chute, which is far away from the limiting wheel, the first gear is meshed with the second gear, the second gear is connected with the servo motor, the servo motor is connected with the rotating seat with the chute, the lead screw is connected with the rotating seat with the chute in a rotating mode, the lead screw is connected with the sun shield body in a threaded mode, the lead screw is connected with the lifting servo motor, and the lifting servo motor is connected with the rotating seat with the chute.

As a further optimization of the technical scheme, the wind wheel of the intelligent auxiliary equipment for sunshade of the building of the invention rotates to form the airflow of the sunshade body towards the sliding wind box direction, and the air pressure can overcome the elasticity of the first spring, so that the L-shaped channel is separated from the sliding seal formed between the L-shaped channel and the middle shell after sliding.

The intelligent sun-shading auxiliary equipment for the building has the beneficial effects that:

according to the intelligent auxiliary sunshade equipment for the building, the sunshade angle can be changed, the equipment can be completely unshielded, the equipment can ventilate the indoor space, the equipment can cool the indoor space, and the equipment can generate electricity.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of an intelligent sunshade auxiliary device for a building according to the present invention.

Fig. 2 is a schematic structural diagram of an intelligent sunshade auxiliary device for a building according to the present invention.

Fig. 3 is a schematic structural diagram three of an intelligent sunshade auxiliary device for a building according to the present invention.

Fig. 4 is a schematic structural diagram of an intelligent sunshade auxiliary device for a building according to the present invention.

Fig. 5 is a first structural schematic diagram of a sliding sunshade plate mechanism 1 of an intelligent sunshade auxiliary device for a building.

Fig. 6 is a schematic structural diagram of a sliding sunshade mechanism 1 of an intelligent sunshade auxiliary device for a building according to the present invention.

Fig. 7 is a schematic structural diagram three of the sliding sunshade mechanism 1 of the intelligent sunshade auxiliary device for building of the present invention.

Fig. 8 is a first structural schematic diagram of a wind power utilization mechanism 2 of the intelligent sunshade auxiliary device for buildings.

Fig. 9 is a schematic structural diagram of a wind power utilization mechanism 2 of the intelligent sunshade auxiliary device for buildings according to the invention.

Fig. 10 is a schematic structural diagram three of a wind power utilization mechanism 2 of an intelligent sunshade auxiliary device for a building.

Fig. 11 is a first structural schematic diagram of the supporting frame mechanism 3 of the intelligent sunshade auxiliary equipment for buildings according to the present invention.

Fig. 12 is a schematic structural diagram of a supporting frame mechanism 3 of an intelligent sunshade auxiliary device for a building according to the present invention.

In the figure: a sliding sun visor mechanism 1; 1-1 of a support with holes; a sliding air box 1-2; 1-3 of a first inclined seat; 1-4 of a second inclined seat; a first cylinder 1-5; a sun visor body 1-6; 1-7 parts of water retaining eaves; 1-8 of a rotating seat; 1-9 of a sliding support; 1-10 of stair rods; a first spring 1-11; 1-12 of the middle shell; 1-13 of wind wheel; threaded openings 1-14; 1-15 of a motor; 1-16 of a fixed pipe; sliding tubes 1-17; l-shaped channels 1-18; a wind power utilization mechanism 2; a first windbox 2-1; a first vent 2-2; connecting pipes 2-3; a narrowing part 2-4; 2-5 of a second ventilation opening; a second windbox 2-6; magnetic induction line providing seats 2-7; 2-8 parts of an inner impeller; rotating the coils 2-9; a supporting frame mechanism 3; an outer frame 3-1; a rotating seat 3-2 with a chute; 3-3 of a limiting wheel; 3-4 parts of a limiting block; 3-5 parts of a second spring; 3-6 of sliding stepped rods with inner holes; 3-7 parts of a limiting rod; 3-8 parts of a sliding seat; a second cylinder 3-9; a first gear 3-10; a second gear 3-11; 3-12 parts of a servo motor; 3-13 parts of a lead screw; the servo motors 3-14 are raised.

Detailed Description

The first embodiment is as follows:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, the embodiment is described below, wherein an outer frame 3-1 is fixed on an outer wall of a building by high-strength bolts to fully cover the window, and when the amount of light entering needs to be adjusted, the adjustment is performed by two ways, the first way is to change the opening and closing angle, a servo motor 3-12 is operated to drive a second gear 3-11 to rotate, the second gear 3-11 rotates to drive a first gear 3-10 to rotate, the first gear 3-10 drives a chute-equipped rotating seat 3-2 to rotate, the rotation direction is clockwise when viewed from the first gear 3-10 to the chute-equipped rotating seat 3-2, so that the chute-equipped rotating seat 3-2 drives a sun visor body 1-6 to gradually open, in the process, the limiting block 3-4 is pushed by the rotation of the limiting wheel 3-3 to continuously compress the second spring 3-5 downwards and then reset, when the angle of the sun visor body 1-6 needs to be fixed, the sliding seat 3-8 is driven by the second cylinder 3-9 to move upwards, the sliding seat 3-8 drives the limiting rod 3-7 to move upwards and insert into the limiting position of the sliding stepped rod 3-6 with the inner hole, so that the second spring 3-5 cannot be compressed, the rotation of the limiting wheel 3-3 is limited, and the fixing of the angle of the sun visor body 1-6 is completed; the second way to change the sunshade area is: the lead screws 3-13 are driven to rotate by the operation of the lifting servo motors 3-14, the lead screws 3-13 can drive the sun visor bodies 1-6 to move upwards or downwards, and the shading area can be changed and adjusted as required according to the operation direction of the lifting servo motors 3-14.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present embodiment further describes the first embodiment, when indoor air needs to be replaced, the motors 1-15 operate to drive the wind wheels 1-13 to rotate, the wind wheels 1-13 rotate to form air flow, the flow direction is indoor toward the wind wheels 1-13, wind pressure enters the sliding wind boxes 1-2 from the sliding pipes 1-17 to push the sliding wind boxes 1-2, the sliding wind boxes 1-2 slide against the elastic force of the first springs 1-11, so that the L-shaped channels 1-18 slide and then separate from the sliding seals formed between the L-shaped channels 1-18 and the middle shells 1-12, and thus the wind blows out from the L-shaped channels 1-18 to perform ventilation.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present embodiment further describes the first embodiment, when the indoor needs to be cooled, the reverse rotation of the motor 1-15 will perform the function of reversing the airflow, before the reverse operation, the first cylinder 1-5 will drive the second seat with inclined surface 1-4 to move downward, the second seat with inclined surface 1-4 will laterally press the first seat with inclined surface 1-3 through its own inclined surface, the first seat with inclined surface 1-3 will drive the sliding bellows 1-2 to move to overcome the elastic force of the first spring 1-11, so that the L-shaped channel 1-18 will break away from the sliding seal formed between the middle housing 1-12 after sliding, and thus the air outside the building enters the indoor from the L-shaped channel 1-18, the wind wheel 1-13 can be additionally provided with electric heating plates when necessary, thereby being suitable for the use working condition of low temperature and difficult air exchange in cold areas in winter.

The fourth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, the first embodiment will be further described, when the direction of the external natural wind is from the first wind box 2-1 to the second wind box 2-6, the wind enters from the first air vent 2-2 and then enters into the connecting pipe 2-3, during which the inner impeller 2-8 in the first wind box 2-1 is driven to rotate, so as to drive the magnetic induction line providing seat 2-7 corresponding to the cutting of the rotating coil 2-9 connected with the inner impeller to generate electricity, and then the wind continues to move, and blows into the second air vent 2-5 at the insertion side from the connecting pipe 2-3 through the narrowing portion 2-4, and the natural wind also directly enters into the second wind box 2-6 from the second air vent 2-5, the wind pressure of the narrowing part 2-4 can enable the second ventilation opening 2-5 to obtain larger air inflow, so that the rotating speed of the inner impeller 2-8 in the second ventilation opening 2-6 is faster, more electric energy is generated, an assembly for collecting the electric energy is arranged on the device to collect the electric energy, and the electric energy can be supplied to other motors on the device for use.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an intelligence sunshade auxiliary assembly for building, includes slip sunshade plate mechanism (1), wind-force utilizes mechanism (2), braced frame mechanism (3), its characterized in that: the sliding sunshade plate mechanism (1) is connected with the wind power utilization mechanism (2), and the wind power utilization mechanism (2) is connected with the supporting frame mechanism (3).

2. The intelligent sunshade auxiliary equipment for building of claim 1 is characterized in that: the sliding sun visor mechanism (1) comprises a hole support (1-1), a sliding air box (1-2), a first inclined seat (1-3), a second inclined seat (1-4), a first air cylinder (1-5), a sun visor body (1-6), a water blocking eave (1-7), a rotating seat (1-8), a sliding support (1-9), a stepped rod (1-10), a first spring (1-11), a middle shell (1-12), a wind wheel (1-13), a threaded opening (1-14), a motor (1-15), a fixed pipe (1-16), a sliding pipe (1-17) and an L-shaped channel (1-18), wherein the hole support (1-1) is connected to the sun visor body (1-6), the water blocking eave (1-7) is arranged at the upper end of the sun visor body (1-6), the left side and the right side of a sliding air box (1-2) are symmetrically connected with a first inclined seat (1-3), the first inclined seat (1-3) is contacted with a second inclined seat (1-4), the movable end of a first air cylinder (1-5) is connected with the second inclined seat (1-4), the first air cylinder (1-5) is fixedly connected on a sun shield body (1-6), a rotating seat (1-8) is in threaded connection with a threaded opening (1-14) arranged on the sun shield body (1-6), sliding supports (1-9) are symmetrically arranged on the upper part and the lower part of the rotating seat (1-8), stepped rods (1-10) are slidably connected on the sliding supports (1-9), first springs (1-11) are sleeved on the stepped rods (1-10), middle shells (1-12) are connected with the rotating seat (1-8), the sliding air box (1-2) is connected with the middle shell (1-12) in a sliding mode, the wind wheel (1-13) is connected with the rotating seat (1-8) in a rotating mode, a plurality of fixing pipes (1-16) are arranged on the rotating seat (1-8), the sliding pipes (1-17) are connected in the fixing pipes (1-16) in a sliding mode, the sliding pipes (1-17) are connected and communicated with the sliding air box (1-2), an L-shaped channel (1-18) is arranged on the sliding air box (1-2), one end of the L-shaped channel (1-18) is communicated with the sliding pipes (1-17), and the other end of the L-shaped channel (1-18) is sealed in a sliding mode through the middle shell (1-12).

3. The intelligent sunshade auxiliary equipment for building of claim 1 is characterized in that: the wind power utilization mechanism (2) comprises a first air box (2-1), a first ventilation opening (2-2), a connecting pipe (2-3), a narrowing part (2-4), a second ventilation opening (2-5), a second air box (2-6), a magnetic induction line providing seat (2-7), an inner impeller (2-8) and a rotating coil (2-9), wherein the first ventilation opening (2-2) is symmetrically arranged on two sides of the first air box (2-1), the connecting pipe (2-3) is communicated with the first ventilation opening (2-2) on one side, the narrowing part (2-4) is arranged on the other side of the connecting pipe (2-3), the narrowing part (2-4) extends into the second ventilation opening (2-5) opposite to the first ventilation opening (2-2) communicated with the connecting pipe (2-3), the first ventilation openings (2-2) are symmetrically arranged in the second air box (2-6), the backs of the first air box (2-1) and the second air box (2-6) are connected with magnetic induction line providing seats (2-7), rotating coils (2-9) are rotatably connected in the magnetic induction line providing seats (2-7), the rotating coils (2-9) are connected on inner impellers (2-8), the first air box (2-1) and the second air box (2-6) are rotatably connected with inner impellers (2-8), the first air box (2-1) and the second air box (2-6) are connected on sun shield bodies (1-6), and connecting pipes (2-3) are connected with the porous supports (1-1).

4. The intelligent sunshade auxiliary equipment for building of claim 1 is characterized in that: the supporting frame mechanism (3) comprises an outer frame (3-1), a rotating seat (3-2) with a sliding chute, a limiting wheel (3-3), a limiting block (3-4), a second spring (3-5), a sliding stepped rod (3-6) with an inner hole, a limiting rod (3-7), a sliding seat (3-8), a second cylinder (3-9), a first gear (3-10), a second gear (3-11), a servo motor (3-12), a screw rod (3-13) and a lifting servo motor (3-14), wherein the rotating seat (3-2) with the sliding chute is rotatably connected on the outer frame (3-1), a sun shield body (1-6) is slidably connected on the rotating seat (3-2) with the sliding chute, one side of the rotating seat (3-2) with the sliding chute is connected with the limiting wheel (3-3), the limiting blocks (3-4) are clamped on the limiting wheels (3-3) through the elasticity of second springs (3-5), the lower ends of the limiting blocks (3-4) are connected with internally-holed sliding step rods (3-6), the internally-holed sliding step rods (3-6) are connected with a sliding chute rotating seat (3-2) in a sliding manner, the limiting rods (3-7) are connected with the internally-holed sliding step rods (3-6) in a sliding manner, the limiting rods (3-7) are connected with sliding seats (3-8), the sliding seats (3-8) are connected with second cylinders (3-9), the second cylinders (3-9) are connected with the sliding chute rotating seat (3-2), first gears (3-10) are connected on the sides, far away from the limiting wheels (3-3), of the first gears (3-10) are meshed with second gears (3-11), the second gear (3-11) is connected with the servo motor (3-12), the servo motor (3-12) is connected with the rotating seat (3-2) with the sliding groove, the lead screw (3-13) is connected with the rotating seat (3-2) with the sliding groove in a rotating mode, the lead screw (3-13) is in threaded connection with the sun shield body (1-6), the lead screw (3-13) is connected with the lifting servo motor (3-14), and the lifting servo motor (3-14) is connected with the rotating seat (3-2) with the sliding groove.

5. The intelligent sunshade auxiliary equipment for building of claim 4 is characterized in that: the wind wheels (1-13) rotate to form airflow from the sun shield body (1-6) to the sliding wind box (1-2), and the air pressure can overcome the elastic force of the first spring (1-11), so that the L-shaped channel (1-18) is separated from the sliding seal formed between the L-shaped channel and the middle shell (1-12) after sliding.