CN211008369U - Energy-saving sun-shading window structure for green building - Google Patents

Abstract

The utility model relates to an energy-conserving sunshade window structure of green building, its technical scheme's main points are, including window frame, casement and sunshading board, the sunshading board includes fixed stop, adjustable fender and connects baffle in the middle of the polylith between fixed stop and adjustable fender, and the sunshading board can be packed up around its articulated department and be the ruggedness or expand and be flat, and the sunshading board is packed up or is expanded in the horizontal direction. The upper end and the lower end of the movable baffle and each middle baffle are respectively connected with a sliding piece, the sliding pieces are arranged at the hinged parts of the side, close to the window sashes, of the sun shield in a folded state, the upper edge and the lower edge of the window frame are respectively provided with a sliding rail, and the sliding pieces are connected in the corresponding sliding rails in a sliding mode. The movable baffle is provided with a connecting hole, and the pull rope passes through the connecting hole and is fixedly connected with the movable baffle. By applying a horizontal pulling force to the pulling rope, the pulling rope drives the movable baffle to move, and the sun shield on the sun-shading window can be conveniently folded and unfolded in a labor-saving manner.

Description

Energy-saving sun-shading window structure for green building

Technical Field

The utility model relates to a window, more specifically say, it relates to an energy-conserving sunshade window structure for installing on building body.

Background

Along with the development of economy, people pay more attention to green life, and green buildings are greatly valued at home, so that the building heat insulation, decoration and dimming, environmental protection and energy conservation have very important significance. The building sunshade is an important means for realizing green buildings, can block sunlight radiation outdoors, rarely enters the room due to heat radiation, inhibits the rise of indoor temperature, and can greatly reduce the energy consumption of an air conditioner in summer. The heat insulating property of the window or the curtain wall can be increased in winter, and the heating energy consumption is reduced. The building protection device not only plays a certain protection role for green buildings, but also saves energy.

At present, most buildings are provided with a sun-shading device outdoors for reducing the photothermal effect of outdoor sunlight formed indoors. Sunshade windows are widely used in building sunshade as an implementation form of building sunshade. In consideration of the effective utilization of natural energy, people set solar cells on the sun-shading windows of buildings irradiated by sunlight all year round so as to fully utilize and convert solar energy into electric energy.

In the prior art, a chinese patent of publication No. CN109898960A discloses a solar window, which includes a window sash, a window frame, a solar cell panel, a controller and an energy storage device, wherein the solar cell panel is composed of three panels, a first panel is fixedly connected to an upper edge of the window frame, an upper end and a lower end of a second panel are respectively hinged to the first panel and the third panel, and energy transmission can be performed between the first panel and the third panel, the solar cell panel occupies less space when not in use due to the design of the retractable solar cell panel, and the light receiving area is larger and the power generation amount is more when in use. But need the manpower to hold up solar cell panel just can realize accomodating and the expansion of solar cell panel when using the formula solar cell panel of packing up, then more hard when using on great window, very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving sunshade window structure of green building can realize packing up and expanding of sunshading board on the sunshade window conveniently laborsavingly.

The above technical purpose of the present invention can be achieved by the following technical solutions: an energy-saving sun-shading window structure for green buildings comprises a window frame, window sashes and sun-shading boards, wherein each sun-shading board comprises a fixed baffle, a movable baffle and a plurality of middle baffles connected between the fixed baffle and the movable baffle, one end of the fixed baffle is hinged and fixed on one side of the window frame, the other end of the fixed baffle is hinged with the middle baffles, the plurality of middle baffles are hinged with each other, the movable baffle is hinged with the middle baffles, the sun visor can be folded or unfolded around the hinged position to form a flat plate shape, the folding or unfolding moving direction of the sun visor is the horizontal direction, the upper end and the lower end of the movable baffle and each middle baffle are connected with a sliding piece which is arranged at the hinge joint of one side of the sun visor close to the window sash in the folded state, the upper edge and the lower edge of the window frame are both provided with sliding rails, and the sliding parts are connected in the corresponding sliding rails in a sliding mode.

Through adopting above-mentioned technical scheme, during the horizontal migration sunshading board, the slider of fixing sunshading board upper end and lower extreme removes in the horizontal direction in the slide rail, and the slider drives sunshading board horizontal migration, and the window frame is supporting the sunshading board along fixed slide rail and slider down, only exerts external force on the horizontal direction and overcomes the frictional force of slider and slide rail, alright light realize packing up or expanding of sunshading board, and above-mentioned technical scheme also is applicable to great window structure.

Preferably, the sliding member is a universal wheel or a universal ball.

Through adopting above-mentioned technical scheme, the sunshading board can slide in a flexible way on the slide rail to the resistance of sunshading board horizontal migration has been reduced greatly, has reduced the pulling force to the sunshading board removal in the horizontal direction.

Preferably, the energy-saving sun-shading window structure for green buildings further comprises a pulling assembly, the pulling assembly comprises a pull rope and a frame penetrating hole arranged on the side edge of the window frame on one side of the fixed baffle, the frame penetrating hole is communicated with the inner side and the outer side of the window frame, one end of the pull rope is fixedly connected with the movable baffle, and the other end of the pull rope penetrates through the frame penetrating hole and extends to the inner side of the window frame.

Through adopting above-mentioned technical scheme, stay cord and sunshading board one end fixed connection, the window frame is inboard to be introduced through the last dress frame hole on the window frame side edge to the other end of stay cord to people can apply the pulling force to the sunshading board through the stay cord indoor, make the horizontal migration of sunshading board on the slide rail, realize the purpose of packing up of sunshading board.

Preferably, a connecting hole is formed in the edge of the movable baffle, and the pull rope penetrates through the connecting hole and is tied up to realize the fixed connection of the pull rope and the movable baffle.

Through adopting above-mentioned technical scheme, the perforation on stay cord and the adjustable fender adopts the formula of tying up to be connected, and when the stay cord tightened up, the stay cord can firmly drive the adjustable fender and remove to pack up the sunshading board.

Preferably, the fixed baffle and the middle baffle are both provided with through holes, when the sun visor is in a retracted state, the through holes are communicated with the connecting holes, and the pull rope penetrates through the through holes.

Through adopting above-mentioned technical scheme, the stay cord of fixing on the connecting hole links together adjustable fender, fixed stop and intermediate head through the perforation, when packing up the sunshading board, can make the stay cord keep the horizontality, and the stay cord does not wind, shortens the rope length, and the pulling process is more smooth.

Preferably, the pulling assembly further comprises a horizontal steering wheel and a vertical steering wheel, the horizontal steering wheel is arranged on the side edge of the window frame, the height of the horizontal steering wheel is equal to that of the connecting hole, the height of the frame penetrating hole is equal to that of the horizontal steering wheel, the vertical steering wheel is arranged on the inner side of the window frame and is located below the frame penetrating hole, and the wheel surface of the vertical steering wheel is equal to that of the frame penetrating hole.

Through adopting above-mentioned technical scheme, the horizontal directive wheel that the window frame side set up pulls stay cord one end level through the wearing frame hole, and the stay cord makes the stay cord direction perpendicular downwards through the wearing frame hole via perpendicular directive wheel, and horizontal directive wheel and perpendicular directive wheel have changed the atress direction of stay cord, have reduced the pulling force and the stay cord of stay cord through the frictional force in wearing frame hole when sunshading board is packed up, convenience of customers operation.

Preferably, the pulling assembly further comprises a cord wrapping rod disposed on the inside of the window frame.

Through adopting above-mentioned technical scheme, extend to indoor stay cord end and can twine on the rope winding stick, the stay cord is fixed indoor, prevents that exogenic action from making the sunshading board of packing up or expanding from taking place to remove on the slide rail.

Preferably, a nylon guide sleeve is arranged in the frame penetrating hole.

Through adopting above-mentioned technical scheme, the nylon uide bushing in the wearing frame hole has good wearability and mechanicalness, has reduced the stay cord through the frictional force in wearing frame hole, has prolonged the life of stay cord, has reduced the application of force to the stay cord.

Preferably, the other side of the window frame is also provided with a group of pulling assemblies of the same structure.

By adopting the technical scheme, the sun shield can be conveniently and laborsavingly unfolded by the pulling assembly of the window frame on the other side, the sun shield completely shields outdoor sunlight, and a solar cell panel which is fixed on the sun shield and faces sunlight irradiation absorbs the sunlight to be converted into direct current which can be input into the energy storage device, so that the purposes of energy conservation and shading are achieved.

To sum up, the utility model discloses following beneficial effect has:

the utility model provides a, the last edge and the lower edge of window frame are equipped with the slide rail, the slider is all installed to middle baffle and adjustable fender upper end and lower extreme, the slider slides in the slide rail, when packing up or expand the sunshading board, the sunshading board moves on the horizontal direction, the slide rail and the slider on edge are supporting the sunshading board under the window frame, when sunshading board horizontal migration, only exert external force in the horizontal direction and overcome the frictional force of slider and slide rail, alright easily realize that the sunshading board packs up or expands, this technical scheme also is applicable to great window structure.

One end of the pull rope penetrates through the connecting hole and is fixedly connected with the movable baffle, and the other end of the pull rope is led into the inner side of the window frame through a frame penetrating hole in the side edge of the window frame, so that people can apply pulling force to the sun visor through the pull rope indoors, and the sun visor is folded or unfolded.

The stay cord links together adjustable fender, fixed stop and intermediate baffle through the perforation, when packing up or launching the sunshading board, can make the stay cord keep the horizontality, reduces the application force to the stay cord, uses manpower sparingly, and this plays the fixed action to the sunshading board simultaneously.

And fourthly, one end of a horizontal steering wheel traction pull rope arranged on the side edge of the window frame horizontally passes through the frame penetrating hole, the pull rope penetrates into the room through the frame penetrating hole via the vertical steering wheel, the horizontal steering wheel and the vertical steering wheel change the stress direction of the pull rope, and the resistance of the pull rope and the friction force of the pull rope passing through the frame penetrating hole are reduced.

Drawings

Fig. 1 is a schematic view of a partially deployed sun visor construction.

Fig. 2 is a schematic view of the sun visor in a partially cut away configuration when stowed.

Fig. 3 is an enlarged view of a portion a of fig. 2.

Reference numerals: 1. a window sash; 2. a window frame; 3. a sun visor; 31. fixing a baffle plate; 32. an intermediate baffle; 33. a movable baffle; 4. connecting holes; 5. perforating; 61. pulling a rope; 62. a frame penetrating hole; 63. a horizontal steering wheel; 64. a vertical steering wheel; 65. a rope winding rod; 7. a slide rail; 81. a flexible conductive material; 82. a solar panel; 83. a controller; 84. an energy storage device; 9. a nylon guide sleeve; 10. a slider.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses an energy-conserving sunshade window structure of green building, including window frame 2, casement 1 and sunshading board 3, sunshading board 3 includes fixed stop 31, adjustable fender 33 and connect baffle 32 in the middle of fixed stop 31 and the polylith between adjustable fender 33, fixed stop 31 one end is articulated to be fixed in one side of window frame 2, the fixed stop 31 other end is articulated with middle baffle 32, it is articulated each other between baffle 32 in the middle of the polylith, adjustable fender 33 is articulated with middle baffle 32, make sunshading board 3 can pack up around its articulated department and be the ruggedness or expand and be flat, the activity direction that sunshading board 3 packed up or expanded is the horizontal direction.

Referring to fig. 2 and 3, the upper end and the lower end of the movable baffle 33 and each intermediate baffle 32 are connected with a sliding element 10, the sliding element 10 is disposed at the hinge joint of the side, close to the window sash 1, of the sun visor 3 in the folded state, the upper edge and the lower edge of the window frame 2 are both provided with sliding rails 7, the sliding element 10 is slidably connected in the corresponding sliding rail 7, the sun visor 3 is supported by the sliding rail 7 and the sliding element 10 fixed to the lower edge of the window frame 2, and only an external force is applied in the horizontal direction to overcome the friction force between the sliding element 10 and the sliding rail 7, so that the folding or unfolding of the sun.

In the present embodiment, the sliding member 10 is a universal wheel, and in other embodiments, may be a universal ball. The sun visor 3 can flexibly slide on the slide rail 7, so that the resistance of the horizontal movement of the sun visor 3 is greatly reduced, and the pulling force for the folding or unfolding of the sun visor 3 in the horizontal direction is reduced.

Referring to fig. 1, a solar cell panel 82 is arranged on one surface of the sun visor 3 facing outdoors, the solar cell panels 82 are connected through a flexible conductive material 81, energy transmission of the solar cell panel 82 is achieved, the solar cell panel 82 is connected with a controller 83, the controller 83 is connected with an energy storage device 84, the controller 83 and the energy storage device 84 are both fixed on a window frame 2 hinged with a fixed baffle 31, the energy storage device 84 is located under the controller 83, the controller 83 converts energy on the solar cell panel 82 into direct current and stores the direct current in the energy storage device 84, and utilization of renewable energy solar energy is achieved.

In order to facilitate the folding and unfolding of the sun visor 3, the energy-saving sun visor window structure for green buildings further comprises a pulling assembly, as shown in fig. 1, the pulling assembly comprises a pull rope 61, a horizontal steering wheel 63, a vertical steering wheel 64 and a frame penetrating hole 62 arranged on the side edge of the window frame 2, the frame penetrating hole 62 is communicated with the inner side and the outer side of the window frame 2, and the movable baffle 33 is provided with a connecting hole 4; the fixed baffle 31 and each intermediate baffle 32 are provided with through holes 5, the heights of the through holes 5, the connecting holes 4 and the frame through holes 62 are equal, and when the sun visor 3 is in a folded state, the through holes 5 are communicated with the connecting holes 4 in combination with fig. 3. One end of the pull rope 61 penetrates through the connecting hole 4 and is tied on the connecting hole 4, the other end of the pull rope 61 penetrates through the middle baffle 32 and the through hole 5 on the fixed baffle 31 and penetrates through the frame penetrating hole 62 to extend indoors, so that the pull rope 61 is not wound, the length of the rope is shortened, and the pulling process is smoother; the nylon guide sleeve 9 is arranged in the frame penetrating hole 62, so that the friction force of the pull rope 61 penetrating through the frame penetrating hole 62 is reduced.

Referring to fig. 3, the horizontal steering wheel 63 is arranged on the side edge of the window frame 2, the height of the horizontal steering wheel 63 is the same as that of the connecting hole 4, and the height of the frame through hole 62 is equal to the height of the wheel surface center of the horizontal steering wheel 63 which is wound by the pull rope 61; the vertical steering wheel 64 is arranged on the inner side of the window frame 2, the vertical steering wheel 64 is positioned below the frame penetrating hole 62, the wheel surface of the vertical steering wheel 64 is flush with the height of the frame penetrating hole 62, the pull rope 61 changes the direction of the pull rope 61 through the horizontal steering wheel 63, one end of the pull rope 61 is opposite to the frame penetrating hole 62 and extends into the window frame 2, the direction of the pull rope 61 extending into the window frame 2 is changed after passing through the vertical steering wheel 64, the direction of the pull rope 61 is vertically downward, the pull rope 61 positioned in the frame penetrating hole 62 is in a straight state, people can conveniently control the folding of the sun visor 3 through the pull rope 61 indoors, and the operation of users is convenient.

Referring to fig. 1, the pulling assembly further includes a rope winding rod 65, the rope winding rod 65 is fixed inside the window frame 2, the rope winding rod 65 is located right below the vertical steering wheel 64, and when the sun visor 3 is folded, the pulling rope 61 can be wound and fixed on the rope winding rod 65 to prevent the sun visor 3 folded by external force from moving on the sliding rail 7.

The other side of the window frame 2 is also provided with a group of pulling assemblies with the same structure, the sun shield 3 can be pulled to be unfolded in the horizontal direction through the pulling assemblies to shield sunlight outside the window frame 2, and meanwhile, the solar cell panel 82 on the sun shield 3 can fully absorb solar energy to realize effective utilization of renewable resources.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides an energy-conserving sunshade window structure of green building, includes window frame (2), casement (1) and sunshading board (3), sunshading board (3) are including fixed stop (31), adjustable fender (33) and connect baffle (32) in the middle of the polylith between fixed stop (31) and adjustable fender (33), and fixed stop (31) one end is articulated to be fixed in one side of window frame (2), and the fixed stop (31) other end is articulated with middle baffle (32), and articulated each other between baffle (32) in the middle of the polylith, adjustable fender (33) are articulated with middle baffle (32), sunshading board (3) can be packed up around its articulated department and be the ruggedly or expand and be flat, its characterized in that: the folding and unfolding moving direction of the sun visor (3) is the horizontal direction, the upper end and the lower end of the movable baffle (33) and each middle baffle (32) are both connected with a sliding piece (10), the sliding piece (10) is arranged at the hinged position of one side, close to the window sash (1), of the sun visor (3) in the folding state, sliding rails (7) are arranged on the upper edge and the lower edge of the window frame (2), and the sliding pieces (10) are connected in the corresponding sliding rails (7) in a sliding mode.

2. The green building energy-saving sunshade window structure of claim 1, wherein: the sliding member (10) is a universal wheel or a universal ball.

3. The green building energy-saving sunshade window structure of claim 1, wherein: the energy-conserving sunshade window structure of green building is still including the pulling subassembly, the pulling subassembly includes stay cord (61) and sets up frame hole (62) of wearing on window frame (2) side edge on fixed stop (31) one side, frame hole (62) intercommunication window frame (2) inboard and outside, the one end and the adjustable fender (33) fixed connection of stay cord (61), the other end passes frame hole (62) and extends to window frame (2) inboard.

4. The green building energy-saving sunshade window structure of claim 3, wherein: the edge of the movable baffle (33) is provided with a connecting hole (4), and the pull rope (61) penetrates through the connecting hole (4) and is tied up to realize the fixed connection of the pull rope (61) and the movable baffle (33).

5. The green building energy-saving sunshade window structure of claim 4, wherein: the fixed baffle (31) and the middle baffle (32) are both provided with through holes (5), when the sun visor (3) is in a retracted state, the through holes (5) are communicated with the connecting holes (4), and the pull rope (61) penetrates through the through holes (5).

6. The green building energy-saving sunshade window structure of claim 3, wherein: the pulling assembly further comprises a horizontal steering wheel (63) and a vertical steering wheel (64), the horizontal steering wheel (63) is arranged on the side edge of the window frame (2), the height of the horizontal steering wheel (63) is the same as that of the connecting hole (4), the height of the frame penetrating hole (62) is equivalent to that of the horizontal steering wheel (63), the vertical steering wheel (64) is arranged on the inner side of the window frame (2), the vertical steering wheel (64) is located below the frame penetrating hole (62), and the wheel surface of the vertical steering wheel (64) is flush with the height of the frame penetrating hole (62).

7. The green building energy-saving sunshade window structure of claim 6, wherein: the pulling assembly further comprises a cord winding bar (65) arranged on the inside of the window frame (2).

8. The green building energy-saving sunshade window structure of claim 7, wherein: a nylon guide sleeve (9) is arranged in the frame penetrating hole (62).

9. A green building energy-saving sunshade window structure of claim 3 or 4 or 6 or 7 or 8, characterized in that: the other side of the window frame (2) is also provided with a group of pulling components with the same structure.

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