CN213204747U - Green building heat preservation sunshade system - Google Patents

Abstract

The utility model relates to a green building heat preservation solar shading system, it is including installing the frame in building wall lateral surface, building wall lateral surface is equipped with the window, the frame is located the top of window, the side that the frame is close to building wall articulates with building wall lateral surface, the frame is on a parallel with the top side of window with building wall articulated side, building wall is equipped with the adjusting part who is used for adjusting contained angle size between frame and the building wall, adjusting part is located the frame top, adjusting part's work portion and frame are kept away from building wall's side and are connected, be equipped with printing opacity glass in the transversal frame of personally submitting the font back, the bottom surface of frame is equipped with the reflective membrane subassembly of adjustable shading area. This application has the effect that improves sunshade effect and heat preservation effect.

Description

Green building heat preservation sunshade system

Technical Field

The application relates to the field of green building sun-shading measures, in particular to a green building heat-preservation sun-shading system.

Background

Building sun-shading is the use of some physical means to block solar radiant heat and solar rays from entering the room through the building's windows. In the use process of green buildings, particularly under the condition of hot weather in summer, the sun-shading operation is needed to ensure that the indoor temperature is not very high.

In the related art, most of the sunshade devices cover a layer of sunshade material on a frame, the frame is often fixed on a building wall and close to a window of a building, and heat and light are blocked by the sunshade material, so that the sunshade and heat preservation effects are realized.

In view of the above-mentioned related arts, the inventor believes that the sunlight irradiation angle changes due to the rotation of the earth and the revolution of the earth around the sun, but the sun-shading device cannot be adjusted correspondingly according to the sunlight irradiation angle, and has a low capability of adapting to the change of the sunlight irradiation angle, which causes a defect of a reduction in the sun-shading effect and the heat preservation effect.

SUMMERY OF THE UTILITY MODEL

In order to improve sunshade effect and heat preservation effect, this application provides a green building heat preservation sunshade system.

The application provides a green building heat preservation sunshade system adopts following technical scheme:

the utility model provides a green building heat preservation sunshade system, is including installing in the frame of building wall lateral surface, building wall lateral surface is equipped with the window, the frame is located the top of window, the side that the frame is close to building wall is articulated with building wall lateral surface, the frame is on a parallel with the top side of window with building wall articulated side, building wall is equipped with the adjusting part who is used for adjusting contained angle size between frame and the building wall, adjusting part is located the frame top, adjusting part's work portion and frame are kept away from building wall's side and are connected, and the font is returned to transversal personally submitting is equipped with printing opacity glass in the frame, the bottom surface of frame is equipped with the reflective membrane subassembly of adjustable shading area.

Through adopting above-mentioned technical scheme, the workman controls adjusting part according to the change of sunlight irradiation angle, adjusting part can make the frame luffing motion, and then the contained angle size between adjusting frame and the building wall, adjusts the better sunshade of back cooperation reflective membrane subassembly ability and keeps warm, controls reflective membrane subassembly moreover and can adjust reflective membrane subassembly's shading area, be convenient for with sunlight irradiation angle adaptation to make this solar shading system adapt to the strong ability of the change of sunlight irradiation angle, improved solar protection and heat preservation effect.

Preferably, the adjusting part includes installation pipe, first servo motor, first wind-up roll and string, is the level setting installation pipe wherein one end is connected in building wall lateral surface, the installation pipe is located the frame top and communicates with building wall, first servo motor and first wind-up roll all set up in building wall medial surface for order about first wind-up roll pivoted first servo motor's output shaft and first wind-up roll are connected, one of them end of string is connected in first wind-up roll, the other end of string passes the installation pipe and is connected with the side that building wall was kept away from to the frame.

Through adopting above-mentioned technical scheme, the workman starts first servo motor, and first wind-up roll of first servo motor's output shaft drive rotates, and then rolls or unreel the string, and the removal of string can drive the frame luffing motion to be convenient for the workman adjust the contained angle size of frame and building wall.

Preferably, the reflective membrane assembly comprises an automatic winding roller, a reflective membrane body and a waterproof cylinder, the automatic winding roller is rotatably connected to the bottom surface of the frame, the transparent glass is positioned between the two automatic winding rollers, the length direction of an automatic winding roller for automatically winding the reflective film body is parallel to the bottom surface of the frame, the waterproof cylinder is fixed on the bottom surface of the frame through a support frame and is close to the automatic winding roller, the automatic winding roller is positioned between the waterproof cylinder and the frame, the length direction of the waterproof cylinder piston rod is parallel to the bottom surface of the frame and is vertical to the length direction of the automatic winding roller, one end of the reflective membrane body which is arranged in a rectangular film shape is connected with the automatic winding roller, the other end of the reflective membrane body is connected to the end part of the waterproof cylinder piston rod through a connecting plate and used for shielding the reflective membrane body of the light-transmitting glass and the light-transmitting glass in a butting mode.

Through adopting above-mentioned technical scheme, the automatic wind-up roll is the trend of rolling reflective membrane body, waterproof cylinder's piston rod contracts to when the shortest, reflective membrane body stretches out automatic wind-up roll's area minimum, shading area is minimum promptly, workman control waterproof cylinder, waterproof cylinder's piston rod overcomes the trend by automatic wind-up roll rolling and stretches out automatic wind-up roll through connecting the slab band reflective membrane body, waterproof cylinder's piston rod extends the longest, two reflective membrane bodies are close to each other and shelter from printing opacity glass completely, shading area is the biggest promptly, thereby make the better regulation shading area of workman ability.

Preferably, the bottom surface of the frame is provided with a shading component, and the shading component used for adjusting the light entering condition of the window is far away from the building wall.

Through adopting above-mentioned technical scheme, the workman controls shading subassembly can adjust the light condition of advancing of window to make the change of adaptation sunlight irradiation angle that this solar shading system can be better.

Preferably, the shading subassembly includes second wind-up roll, window shade, second servo motor and dead lever, the second wind-up roll rotates to be connected in the frame bottom surface, the second wind-up roll is close to in the side that building wall was kept away from to the frame, the length direction of second wind-up roll is parallel with the length direction of automatic wind-up roll, second servo motor is fixed in the frame bottom surface and is close to in the second wind-up roll for order about second wind-up roll pivoted second servo motor's output shaft and second wind-up roll are connected, window shade one end is connected in the second wind-up roll, are the level setting the dead lever is fixed in the other end of window shade.

Through adopting above-mentioned technical scheme, workman control second servo motor, second servo motor's output shaft drive second wind-up roll rotates, and then carries out the rolling and unreel to the window shade to the realization is to the regulation of window shade extension area, and the window shade is held with the gravity of self to the dead lever, thereby makes the comparatively stable performance shading of window shade.

Preferably, the bottom surface in the installation pipe is provided with two U grooved pulleys, the two U grooved pulleys are close to two ends of the installation pipe respectively, the length direction of a connecting line of the two U grooved pulleys moving in the installation pipe better for the thin rope is parallel to the length direction of the installation pipe, and the thin rope is connected with the U-shaped grooves on the two U grooved pulleys in a sliding mode.

Through adopting above-mentioned technical scheme, the U type recess of U sheave provides gliding position for the string, and when the string removed, the U sheave played the effect of direction, also made that the string can be better move in the installation pipe.

Preferably, the top surface of the installation pipe is provided with a first baffle for keeping off rain, and the first baffle is positioned at one end, far away from the building wall, of the installation pipe.

Through adopting above-mentioned technical scheme, when raining, first baffle can shelter from the rainwater, is favorable to reducing the probability that the rainwater got into the installation pipe.

Preferably, the frame is provided with two opposite second baffles for keeping off rain, and the two second baffles are respectively positioned on two sides of the frame and between the automatic winding roller and the second servo motor.

Through adopting above-mentioned technical scheme, when raining, the rainwater is sheltered from to the second baffle, is favorable to reducing the rainwater condition of dripping to waterproof cylinder and second servo motor, plays the guard action.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the workman is according to the change of sunlight irradiation angle, control adjusting part, and adjusting part can make the frame luffing motion, and then the contained angle size between adjusting frame and the building wall, adjusts the sunshade that back cooperation reflective membrane subassembly can be better and keeps warm, controls reflective membrane subassembly moreover and can adjust reflective membrane subassembly's shading area, be convenient for with sunlight irradiation angle adaptation to make this solar shading system adapt to the ability reinforce of the change of sunlight irradiation angle, improved solar protection and heat preservation effect.

2. The automatic wind-up roll is the trend of rolling reflective membrane body, waterproof cylinder's piston rod contracts to when the shortest, reflective membrane body stretches out automatic wind-up roll's area minimum, shading area is minimum promptly, the waterproof cylinder of workman control, waterproof cylinder's piston rod overcomes the trend by automatic wind-up roll rolling and stretches out automatic wind-up roll through connecting the slab band reflective membrane body, waterproof cylinder's piston rod extends the longest, two reflective membrane bodies are close to each other and shelter from printing opacity glass completely, shading area is the biggest promptly, thereby make the better regulation shading area of workman ability.

3. The workman controls second servo motor, and second servo motor's output shaft drive second wind-up roll rotates, and then carries out the rolling and unreel to the window shade to the realization stretches out the regulation of area to the window shade, the window shade is held with the gravity of self to the dead lever, thereby makes the comparatively stable performance shading of window shade.

Drawings

Fig. 1 is a schematic view of the overall structure of a heat-preservation sunshade system for green buildings in this embodiment.

Fig. 2 is a schematic view of another angle overall structure of the heat preservation and sun-shading system for green buildings in the embodiment.

Fig. 3 is a sectional view of the green building heat preservation sunshade system in the embodiment.

Fig. 4 is a partially enlarged schematic view of a portion a in fig. 3.

Description of reference numerals: 1. building a wall body; 2. a frame; 3. a window; 4. a light-transmitting glass; 5. installing a pipe; 6. a first servo motor; 7. a first wind-up roll; 8. a string; 9. a U grooved pulley; 10. a first baffle plate; 11. an automatic wind-up roll; 12. a reflective film body; 13. a waterproof cylinder; 14. a support frame; 15. a connecting plate; 16. a second wind-up roll; 17. a window blind; 18. a second servo motor; 19. fixing the rod; 20. a second baffle.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses green building heat preservation sunshade system. Referring to fig. 1, a green building heat preservation sunshade system, including installing in the frame 2 of building wall 1 lateral surface, window 3 has been seted up to building wall 1 lateral surface, frame 2 is located window 3's top, frame 2 is close to building wall 1's side and is articulated with building wall 1 lateral surface, frame 2 is on a parallel with window 3's top side with building wall 1 articulated side, building wall 1 is equipped with adjusting part, adjusting part is located frame 2 top, adjusting part's work portion and frame 2 keep away from building wall 1's side and are connected, be used for adjusting the contained angle size between frame 2 and the building wall 1. The cross section of the frame 2 is in a shape like a Chinese character 'hui', the transparent glass 4 is embedded in the frame 2, the bottom surface of the frame 2 is provided with two reflective film assemblies with adjustable shading areas, and the transparent glass 4 is positioned between the two reflective film assemblies.

Referring to fig. 1 and 2, adjusting part includes installation pipe 5, first servo motor 6, first wind-up roll 7 and string 8, and installation pipe 5 is the level setting, and installation pipe 5 wherein one end is fixed in building wall 1 lateral surface, and installation pipe 5 is located frame 2 top and communicates with building wall 1. First wind-up roll 7 rotates to be connected in building wall 1 medial surface and be located window 3 top, and first wind-up roll 7 is horizontal setting and first wind-up roll 7's length direction is parallel with building wall 1 medial surface. First servo motor 6 is fixed in 1 medial surface of building wall and is close to in first wind-up roll 7, and first servo motor 6's output shaft is connected with first wind-up roll 7 for drive first wind-up roll 7 rotates. One end of the thin rope 8 is connected to the first winding roller 7, and the other end of the thin rope 8 penetrates through the mounting pipe 5 and is connected with the side edge, far away from the building wall 1, of the frame 2. The workman starts first servo motor 6, and first wind-up roll 7 of first servo motor 6's output shaft drive rotates, and then rolls or unreel string 8, and the removal of string 8 can drive frame 2 luffing motion to be convenient for the workman adjust frame 2 and building wall 1's contained angle size, make this system be convenient for with the sunlight irradiation angle adaptation, improved sunshade effect and heat preservation effect.

Referring to fig. 3, one end of the installation pipe 5 close to the building wall 1 is arranged to penetrate through the building wall 1, two U-shaped grooved wheels 9 are arranged on the bottom surface in the installation pipe 5, the two U-shaped grooved wheels 9 are close to two ends of the installation pipe 5 respectively, the length direction of the connection line of the two U-shaped grooved wheels 9 is parallel to the length direction of the installation pipe 5, and the thin rope 8 is slidably connected with the U-shaped grooves in the two U-shaped grooved wheels 9. The U-shaped groove of the U-shaped groove 9 provides a sliding position for the thin rope 8, and when the thin rope 8 moves, the U-shaped groove 9 plays a guiding role, so that the thin rope 8 can better move in the installation pipe 5.

Referring to fig. 3, a first baffle 10 for keeping off rain is arranged on the top surface of the installation pipe 5, the first baffle 10 is located at one end of the installation pipe 5 far away from the building wall 1, the first baffle 10 is arranged in a downward inclination mode, and the inclination angle is 30 degrees. When raining, the first baffle 10 can shield rainwater, which is beneficial to reducing the probability that rainwater enters the installation pipe 5.

Referring to fig. 4, the reflective film assembly includes an automatic wind-up roll 11, a reflective film body 12 and a waterproof cylinder 13, the automatic wind-up roll 11 is rotatably connected to the bottom surface of the frame 2, the transparent glass 4 is located between the two automatic wind-up rolls 11, the length direction of the automatic wind-up roll 11 is parallel to the bottom surface of the frame 2, the waterproof cylinder 13 is fixed to the bottom surface of the frame 2 through a support frame 14 and is close to the automatic wind-up roll 11, the automatic wind-up roll 11 is located between the waterproof cylinder 13 and the frame 2, the length direction of a piston rod of the waterproof cylinder 13 is parallel to the bottom surface of the frame 2 and is perpendicular to the length direction of the automatic wind-up roll 11, one end of the rectangular film-shaped reflective film body 12 is connected to the automatic wind-up roll 11, the other end of the reflective film body 12, the side of the reflective film body 12 far away from the waterproof cylinder 13 is abutted against the side of the transparent glass 4 close to the waterproof cylinder 13, so as to shield the transparent glass 4 and block heat.

Referring to fig. 4, in an initial state, the reflective film body 12 is wound at the automatic winding roller 11, and if the reflective film body 12 is pulled, the automatic winding roller 11 tends to wind the reflective film body 12. When the piston rod of waterproof cylinder 13 contracts to the shortest, reflective membrane body 12 stretches out the area minimum of automatic wind-up roll 11, shading area is minimum promptly, workman control waterproof cylinder 13, waterproof cylinder 13's piston rod takes reflective membrane body 12 to overcome the trend of being rolled by automatic wind-up roll 11 and stretches out automatic wind-up roll 11 through connecting plate 15, waterproof cylinder 13's piston rod extends the longest, two reflective membrane bodies 12 are close to each other and shelter from printing opacity glass 4 completely, shading area is the biggest promptly, thereby make the better regulation shading area of workman ability.

Referring to fig. 3, the bottom surface of the frame 2 is provided with a shading component which is close to the side edge of the frame 2 far away from the building wall 1 and is used for controlling the light inlet amount of the window 3. The worker controls the shading assembly to adjust the light entering condition of the window 3, so that the shading system can better adapt to the change of the sunlight irradiation angle.

Referring to fig. 3 and 4, the shading assembly comprises a second winding roller 16, a shading curtain 17, a second servo motor 18 and a fixing rod 19, the second winding roller 16 is rotatably connected to the bottom surface of the frame 2, the second winding roller 16 is close to the side edge of the frame 2 far away from the building wall 1, and the length direction of the second winding roller 16 is parallel to the length direction of the automatic winding roller 11. Second servo motor 18 is waterproof servo motor, and second servo motor 18 is fixed in 2 bottom surfaces of frame and is close to in second wind-up roll 16, and second servo motor 18's output shaft and second wind-up roll 16 are connected for order about second wind-up roll 16 and rotate, and window shade 17 one end is connected in second wind-up roll 16, is the other end that dead lever 19 of level setting is fixed in window shade 17, and the length of dead lever 19 is greater than the width of window shade 17. The workman controls second servo motor 18, and second servo motor 18's output shaft drive second wind-up roll 16 rotates, and then carries out the rolling and unreel to window shade 17 to the realization stretches out the regulation of area to window shade 17, dead lever 19 is with the taut window shade 17 of self gravity, thereby makes the comparatively stable performance shading of window shade 17.

Referring to fig. 1 and 4, the frame 2 is provided with two opposite second barriers 20, the two second barriers 20 are respectively located at two sides of the frame 2, the window blind 17 is located between the two second barriers 20, and the second barriers 20 are arranged in a downward inclination manner for keeping off rain. When raining, the second baffle 20 shields rainwater, which is beneficial to reducing the rainwater dropping on the waterproof cylinder 13 and the second servo motor 18, and plays a role in protection.

The implementation principle of the heat-preservation sun-shading system for the green building provided by the embodiment of the application is as follows: the workman is according to the change of sunlight irradiation angle, control first servo motor 6, the first wind-up roll 7 of output shaft drive of first servo motor 6 rotates, and then roll up or unreel string 8, the removal of string 8 can drive 2 luffing motion of frame, thereby be convenient for with sunlight irradiation angle adaptation, then control waterproof cylinder 13, waterproof cylinder 13's piston rod takes reflective membrane body 12 to overcome the trend of being rolled up by automatic wind-up roll 11 and stretches out automatic wind-up roll 11 through connecting plate 15, adjust the shading area of reflective membrane body 12, and then adjust shading effect and heat preservation effect. And finally, the second servo motor 18 is controlled, the output shaft of the second servo motor 18 drives the second winding roller 16 to rotate, so that the window shade 17 is wound and unwound, the stretching area of the window shade 17 is adjusted, the sun shading system is strong in capability of adapting to the change of the sunlight irradiation angle, and the sun shading effect and the heat preservation effect are improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a green building heat preservation sunshade system, is including installing in frame (2) of building wall (1) lateral surface, building wall (1) lateral surface is equipped with window (3), frame (2) are located the top of window (3), its characterized in that: frame (2) are close to the side of building wall (1) and are articulated with building wall (1) lateral surface, frame (2) and building wall (1) articulated side are on a parallel with the top side of window (3), building wall (1) is equipped with the adjusting part that is used for adjusting contained angle size between frame (2) and building wall (1), adjusting part is located frame (2) top, the side that building wall (1) was kept away from in adjusting part's working portion and frame (2) is connected, and is transversal personally submits back the font be equipped with printing opacity glass (4) in frame (2), the bottom surface of frame (2) is equipped with two reflection of light membrane subassemblies of adjustable shading area, printing opacity glass (4) are located between two reflection of light membrane subassemblies.

2. The green building heat preservation sunshade system of claim 1, characterized in that: adjusting part includes installation pipe (5), first servo motor (6), first wind-up roll (7) and string (8), is the level setting installation pipe (5) wherein one end is connected in building wall (1) lateral surface, installation pipe (5) are located frame (2) top and communicate with building wall (1), first servo motor (6) and first wind-up roll (7) all set up in building wall (1) medial surface for order about the output shaft and the first wind-up roll (7) of first wind-up roll (7) pivoted first servo motor (6) are connected, string (8) wherein one end is connected in first wind-up roll (7), the other end of string (8) passes installation pipe (5) and is connected with the side that building wall (1) was kept away from to frame (2).

3. The green building heat preservation sunshade system of claim 1, characterized in that: the reflective membrane assembly comprises an automatic winding roller (11), a reflective membrane body (12) and a waterproof cylinder (13), wherein the automatic winding roller (11) is rotatably connected to the bottom surface of the frame (2), the light-transmitting glass (4) is positioned between the two automatic winding rollers (11) and is used for automatically winding the reflective membrane body (12), the length direction of the automatic winding roller (11) is parallel to the bottom surface of the frame (2), the waterproof cylinder (13) is fixed to the bottom surface of the frame (2) through a support frame (14) and is close to the automatic winding roller (11), the automatic winding roller (11) is positioned between the waterproof cylinder (13) and the frame (2), the length direction of a piston rod of the waterproof cylinder (13) is parallel to the bottom surface of the frame (2) and is vertical to the length direction of the automatic winding roller (11), the reflective membrane body (12) is arranged in a rectangular film shape, one end of the reflective membrane body (12) is connected to the, the other end of the reflective membrane body (12) is connected to the end part of the piston rod of the waterproof cylinder (13) through a connecting plate (15) and used for shielding the reflective membrane body (12) of the transparent glass (4) and the transparent glass (4) in a butting mode.

4. The green building heat preservation sunshade system of claim 3, characterized in that: and a shading component is arranged on the bottom surface of the frame (2) and used for adjusting the shading component of the light inlet condition of the window (3) to be far away from the building wall body (1).

5. The green building heat preservation sunshade system of claim 4, characterized in that: the shading assembly comprises a second winding roller (16), a shading curtain (17), a second servo motor (18) and a fixing rod (19), the second winding roller (16) is rotatably connected to the bottom surface of the frame (2), the second winding roller (16) is close to the side edge of the frame (2) far away from the building wall (1), the length direction of the second winding roller (16) is parallel to the length direction of the automatic winding roller (11), the second servo motor (18) is fixed to the bottom surface of the frame (2) and close to the second winding roller (16) and used for driving an output shaft of the second servo motor (18) rotating the second winding roller (16) to be connected with the second winding roller (16), one end of the shading curtain (17) is connected to the second winding roller (16) and is horizontally arranged, and the fixing rod (19) is fixed to the other end of the shading curtain (17).

6. The green building heat preservation sunshade system of claim 2, characterized in that: the bottom surface is equipped with two U sheave (9) in installation pipe (5), two U sheave (9) are close to respectively in the both ends of installation pipe (5), are used for making the length direction of two U sheave (9) lines that twine (8) can be better and remove in installation pipe (5) is parallel with the length direction of installation pipe (5), U type recess sliding connection on twine (8) and two U sheave (9).

7. The green building heat preservation sunshade system of claim 2, characterized in that: the top surface of the installation pipe (5) is provided with a first baffle (10) for keeping off rain, and the first baffle (10) is located at one end, far away from the building wall (1), of the installation pipe (5).

8. The green building heat preservation sunshade system of claim 5, characterized in that: the frame (2) is provided with two opposite second baffles (20) for keeping off rain, and the second baffles (20) are respectively positioned on two sides of the frame (2) and between the automatic winding roller (11) and the second servo motor (18).

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