CN219910586U

CN219910586U - Energy-saving automatic sun-shading window

Info

Publication number: CN219910586U
Application number: CN202321214181.9U
Authority: CN
Inventors: 陈建冈; 孙耐毅; 张少斌; 袁震
Original assignee: Jiangsu Heye Technology Group Co ltd
Current assignee: Jiangsu Heye Technology Group Co ltd
Priority date: 2023-05-19
Filing date: 2023-05-19
Publication date: 2023-10-27
Anticipated expiration: 2033-05-19

Abstract

The utility model discloses an energy-saving automatic sun-shading window, which relates to the technical field of sun-shading windows and comprises a sun-shading mechanism, wherein the sun-shading mechanism comprises an outer window frame body, an inner cavity of the outer window frame body is rotatably connected with a glass installation inner frame capable of being opened and closed through a hinge, double-layer vacuum transparent glass windows are fixed at two sides of the inner cavity of the glass installation inner frame, an upper installation frame is fixed at the top wall of the outer window frame body, and a sun-shading component extending to the inner cavity of the glass installation inner frame is fixed at the bottom of the inner cavity of the upper installation frame; the energy-saving mechanism comprises a lower mounting frame, and the lower mounting frame is fixed at the bottom wall position of the outer window frame body. According to the utility model, the first abutting component and the second abutting component are started to drive the protection frame body to rotate at the end part of the installation rod through the hinge shaft, so that the inclination angle of the protection frame body and the solar cell panel is changed, the inclination angle of the solar cell panel can be adjusted according to the angle change of solar rays, and the power generation efficiency is improved.

Description

Energy-saving automatic sun-shading window

Technical Field

The utility model relates to the technical field of sunshade windows, in particular to an energy-saving automatic sunshade window.

Background

The building door and window is used as illumination ventilation equipment, the traditional basic door and window only realizes ventilation and light transmission performance, the heat preservation performance is poor, the defect causes high room temperature in summer, even if indoor refrigeration equipment is opened, the low heat preservation performance causes cold air to be exposed, and the energy consumption of the refrigeration equipment is increased, and the same is true in winter.

The Chinese patent document with the bulletin number of CN215859882U discloses a novel sunshade energy-saving window, which comprises a door window frame, wherein a solar panel is fixed at the top of the door window frame through a bent rod, two mounting seats are also fixed on the door window frame, a sliding block is slidably arranged in each mounting seat, the sliding block is fixed at one end of sunshade cloth, the other end of the sunshade cloth is fixed on a rotating shaft, one end of the rotating shaft is fixedly connected with the output end of a motor, the motor is positioned at a first fixing seat fixed on the door window frame, and the other end of the rotating shaft is connected with a second fixing seat fixed on the door window frame through a bearing, so that the motor drives the rotating shaft to drive the sunshade cloth to wind and unwind in a positive and negative rotation manner.

When the novel sunshade energy-saving window disclosed in the patent document is used, the solar panel is required to generate electricity, but the inclination angle of the solar panel cannot be automatically adjusted, and the irradiation angle of sunlight can be changed, so that the electricity generation efficiency is unstable and can be changed.

Disclosure of Invention

In order to solve the problems that the inclination angle of a solar panel cannot be automatically adjusted when the novel sunshade energy-saving window disclosed in the patent document is used, so that the power generation efficiency is unstable and can be changed, the utility model provides an energy-saving automatic sunshade window.

The utility model provides an energy-saving automatic sun-shading window, which adopts the following technical scheme:

an energy-saving automatic sun-shading window comprises

The sunshade mechanism comprises an outer window frame body, wherein an inner cavity of the outer window frame body is rotatably connected with a glass installation inner frame capable of being opened and closed through a hinge, double-layer vacuum transparent glass windows are fixed at two sides of the inner cavity of the glass installation inner frame, an upper installation frame is fixed at the top wall of the outer window frame body, and a sunshade component extending to the inner cavity of the glass installation inner frame is fixed at the bottom of the inner cavity of the upper installation frame;

the energy-saving mechanism comprises a lower mounting frame, the bottom wall position at the outer window frame body is fixed to the lower mounting frame, the rolling subassembly that extends to glass installation inside casing inner chamber is fixed to lower mounting frame inner chamber roof position, the outer wall slope of lower mounting frame one side is fixed with the installation pole, the tip position of installation pole articulates through the articulated shaft has the protection framework, the inner chamber bottom wall position of protection framework is fixed with solar cell panel, electric connection between solar cell panel and the outside battery, lower mounting frame inner chamber bottom position is fixed with the first butt subassembly that contacts with protection framework outer wall lower extreme position, lower mounting frame inner wall upper end position is fixed with the second butt subassembly that contacts with protection framework outer wall upper end position.

Through adopting above-mentioned technical scheme, start first butt subassembly and second butt subassembly and drive the protection framework and pass through the articulated shaft and rotate in the tip position of installation pole to change the inclination of protection framework and solar cell panel, and then can adjust solar cell panel's inclination according to solar ray's angle change.

Optionally, the sunshade component comprises a first winch, the first winch is fixed at the bottom wall position of the inner cavity of the upper mounting frame, a winding and unwinding wheel is fixed at the outer position of the output shaft of the first winch, and sunshade soft cloth extending to the inner cavity of the glass mounting inner frame is fixed on the outer wall of the winding and unwinding wheel.

Optionally, the winding assembly comprises a second winch, the second winch is fixed at the top wall position of the inner cavity of the lower mounting frame, a winding wheel is fixed at the outer position of the output shaft of the second winch, and a traction rope which extends to the inner cavity of the glass mounting inner frame and is fixed with the bottom position of the sun-shading soft cloth is arranged at the outer part of the winding wheel.

Through adopting above-mentioned technical scheme, thereby start second hoist engine drive take-up pulley counter-rotating rolling tractive rope, simultaneously, start first hoist engine drive and roll up and unreel the wheel rotation and make sunshade soft cloth extend gradually, pull down the tractive of tractive rope and remove to can cover the area of double-deck vacuum transparent glass window, make it unable light of permeating, increase the effect of sunshade.

Optionally, the first butt subassembly includes the cylinder, the inner chamber diapire position at the lower mounting frame is fixed to the cylinder, the tip of the horizontal output shaft of cylinder runs through the mounting frame outer wall down and rotates and be connected with first butt wheel, first butt wheel outer wall contacts with the outer wall of protection framework.

Optionally, the second butt subassembly includes the mounting bracket, the mounting bracket is fixed on the inner wall of installing the frame down, the top position of mounting bracket is fixed with driving motor, the driving motor output is fixed with the lead screw body of being connected with the inner wall rotation of installing the frame down, lead screw body externally mounted has screw nut, screw nut roof fixedly has the connecting rod that runs through installing the frame outer wall down, connecting rod tip position rotation is connected with the second butt wheel that contacts with the protection frame outer wall.

Through adopting above-mentioned technical scheme, utilize prior art's timing relay automatic control cylinder and driving motor start can, the cylinder is flexible can drive first butt wheel and control the removal, thereby driving motor drives the lead screw body and rotates can drive lead screw nut and control the removal, can drive connecting rod and the synchronous left and right movement of second butt wheel under lead screw nut's effect, and then can promote the protection framework and rotate in the tip position of installation pole through the articulated shaft to change the inclination of protection framework and solar cell panel.

Optionally, a drain hole is formed in the bottom wall of the protective frame body.

Through adopting above-mentioned technical scheme, can make the rainwater of protection framework inner chamber automatic discharge under the effect of wash port, avoid the rainwater to cause the influence to solar cell panel's normal use as far as possible.

Optionally, a protection net is fixed on the inner wall of the protection frame body.

By adopting the technical scheme, under the action of the net structure of the protective net, the direct collision of high-altitude objects to the surface of the solar cell panel is avoided as much as possible.

Optionally, a plurality of groups of connecting components are uniformly fixed on the top wall of the upper mounting frame and the bottom wall of the lower mounting frame.

Optionally, the connecting assembly includes connecting vertical pole, connecting vertical pole is fixed on last installing frame or lower installing frame, the outer wall of connecting vertical pole is evenly crisscross to be installed the multiunit and is connected the transverse rod.

Through adopting above-mentioned technical scheme, place in the window hole of building with last installing frame, outer window frame body and lower installing frame, can be pre-buried to the wall of building under the effect of multiunit connection vertical pole and connection vertical pole to can increase the connection stability of this energy-conserving automatic sun-shading window and building.

In summary, the present utility model includes at least one of the following beneficial effects:

the second winch is started to drive the winding wheel to reversely rotate so as to wind the traction rope, meanwhile, the first winch is started to drive the winding and unwinding wheel to rotate and enable the sunshade soft cloth to gradually stretch, the sunshade soft cloth moves downwards under the traction of the traction rope, so that the area of the double-layer vacuum transparent glass window can be covered, the sunshade soft cloth cannot penetrate light, the sunshade effect is improved, and meanwhile, the sunshade soft cloth is arranged at the position between the two groups of double-layer vacuum transparent glass windows, so that shaking during air flowing can be avoided, and the sunshade effect is affected;

the cylinder stretches out and draws back and can drive the first butt wheel and move about, thereby driving motor drives the lead screw body and rotates and to drive screw nut and move about, can drive connecting rod and the synchronous left and right movement of second butt wheel under screw nut's effect, and then can promote the protection framework and rotate in the tip position of installation pole through the articulated shaft to change the inclination of protection framework and solar cell panel.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 3 is a schematic diagram of an energy saving mechanism of the present utility model in front cross-sectional configuration;

fig. 4 is a schematic front cross-sectional view of a second abutment assembly according to the present utility model.

In the figure: 100. a sunshade mechanism; 101. a sunshade assembly; 1011. a first hoist; 1012. a winding and unwinding wheel; 1013. sun-shading soft cloth; 102. double-layer vacuum transparent glass window; 103. an outer window frame body; 104. a glass mounting inner frame; 105. an upper mounting frame; 106. a connection assembly; 1061. connecting a vertical rod; 1062. connecting a transverse rod; 200. an energy-saving mechanism; 201. a winding assembly; 2011. pulling the rope; 2012. a winding wheel; 2013. a second hoist; 202. a lower mounting frame; 203. a first abutment assembly; 2031. a cylinder; 2032. a first abutment wheel; 204. a protective frame; 2041. a drain hole; 205. a mounting rod; 206. a protective net; 207. a solar cell panel; 208. a second abutment assembly; 2081. a driving motor; 2082. a mounting frame; 2083. a lead screw nut; 2084. a screw body; 2085. a connecting rod; 2086. and a second abutting wheel.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

Referring to fig. 1 and 2 of the drawings of the specification, an energy-saving automatic sun-shading window, comprises,

the sunshade mechanism 100 comprises an outer window frame body 103, a glass installation inner frame 104 capable of being opened and closed is rotatably connected to an inner cavity of the outer window frame body 103 through a hinge, the top position of the glass installation inner frame 104 is connected with a brick at the top position of the inner cavity of the outer window frame body 103, double-layer vacuum transparent glass windows 102 are fixed at two sides of the inner cavity of the glass installation inner frame 104, a gap exists between the two groups of double-layer vacuum transparent glass windows 102, and an upper installation frame 105 is fixed at the top wall position of the outer window frame body 103.

Referring to fig. 1 and 2 of the drawings, a sunshade assembly 101 extending into the cavity of the glass mounting inner frame 104 is fixed to the bottom of the cavity of the upper mounting frame 105. The sunshade assembly 101 comprises a first winch 1011, wherein the first winch 1011 is fixed at the bottom wall position of the inner cavity of the upper mounting frame 105, a winding and unwinding wheel 1012 is fixed at the outer position of the output shaft of the first winch 1011, and a sunshade soft cloth 1013 extending to the inner cavity of the glass mounting inner frame 104 is fixed at the outer wall of the winding and unwinding wheel 1012;

referring to fig. 1 and 3 in the drawings, the energy-saving mechanism 200 includes a lower mounting frame 202, the lower mounting frame 202 is fixed at a bottom wall position of the outer window frame body 103, a winding component 201 extending to an inner cavity of the glass mounting inner frame 104 is fixed at a top wall position of an inner cavity of the lower mounting frame 202, the winding component 201 includes a second winding machine 2013, the second winding machine 2013 is fixed at a top wall position of the inner cavity of the lower mounting frame 202, a winding wheel 2012 is fixed at an outer position of an output shaft of the second winding machine 2013, and a pulling rope 2011 extending to the inner cavity of the glass mounting inner frame 104 and fixed with a bottom position of the sun-shading soft cloth 1013 is mounted at an outer position of the winding wheel 2012.

Referring to fig. 1 and 3 of the drawings, an outer wall of one side of the lower mounting frame 202 is obliquely fixed with a mounting rod 205, an end portion of the mounting rod 205 is hinged with a protection frame 204 through a hinge shaft, an outer vertical surface of the protection frame 204 is provided with an opening, a solar panel 207 is fixed at a bottom wall of an inner cavity of the protection frame 204, the solar panel 207 is electrically connected with an external storage battery, and the external storage battery is electrically connected with a second winding engine 2013 and a first winding engine 1011.

The second winch 2013 is started to drive the winding wheel 2012 to rotate and enable the traction rope 2011 to stretch and stretch by a proper size, then the glass installation inner frame 104 is turned over from bottom to top to incline by a certain size, so that the glass installation inner frame 104 does not cover the opening of the outer window frame body 103 completely, air in the inner environment and the outer environment can be exchanged rapidly, and ventilation effect is improved.

When the sunshade effect is required to be increased, the second winch 2013 can be started to drive the winding wheel 2012 to reversely rotate so as to wind the traction rope 2011, meanwhile, the first winch 1011 is started to drive the winding wheel 1012 to rotate and enable the sunshade soft cloth 1013 to gradually stretch, and the sunshade soft cloth 1013 moves downwards under the traction of the traction rope 2011, so that the area of the double-layer vacuum transparent glass window 102 can be covered, the sunshade effect can be increased, and meanwhile, the sunshade soft cloth 1013 is arranged at the position between the two groups of double-layer vacuum transparent glass windows 102, so that shaking during air flowing can be avoided, and the sunshade effect is affected.

Referring to fig. 3 of the drawings, an energy-saving automatic sun-shading window includes, a lower mounting frame 202, a first abutting component 203 is fixed at the bottom of the inner cavity of the lower mounting frame 202, the first abutting component 203 includes a cylinder 2031, the cylinder 2031 is fixed at the bottom wall of the inner cavity of the lower mounting frame 202, the end of a horizontal output shaft of the cylinder 2031 penetrates through the outer wall of the lower mounting frame 202 and is rotationally connected with a first abutting wheel 2032, and the outer wall of the first abutting wheel 2032 contacts with the outer wall of a protective frame 204.

Referring to fig. 4 of the drawings, a second abutting component 208 is fixed at the upper end position of the inner wall of the lower mounting frame 202, the second abutting component 208 comprises a mounting frame 2082, the mounting frame 2082 is fixed on the inner wall of the lower mounting frame 202, a driving motor 2081 is fixed at the top position of the mounting frame 2082, a screw rod body 2084 rotationally connected with the inner wall of the lower mounting frame 202 is fixed at the output end of the driving motor 2081, a screw rod nut 2083 is externally mounted on the screw rod body 2084, a connecting rod 2085 penetrating through the outer wall of the lower mounting frame 202 is fixed at the top wall of the screw rod nut 2083, and a second abutting wheel 2086 contacting with the outer wall of the protective frame 204 is rotationally connected at the end position of the connecting rod 2085.

The solar panel 207 is utilized to generate electric energy and store the electric energy into an external storage battery, so that the electric energy in the external storage battery can be utilized to supply power to the first winch 1011 and the second winch 2013, the energy saving effect is improved, the timing relay in the prior art is utilized to automatically control the starting of the air cylinder 2031 and the driving motor 2081, the air cylinder 2031 stretches and contracts to drive the first abutting wheel 2032 to move left and right, the driving motor 2081 drives the screw rod body 2084 to rotate so as to drive the screw rod nut 2083 to move left and right, the connecting rod 2085 and the second abutting wheel 2086 can be driven to synchronously move left and right under the action of the screw rod nut 2083, and the protection frame 204 can be pushed to rotate at the end position of the mounting rod 205 through the hinge shaft, so that the inclination angle of the protection frame 204 and the solar panel 207 is changed.

In a third embodiment, please refer to fig. 3 of the drawings, an energy-saving automatic sun-shading window further includes a drain hole 2041 formed at a bottom wall of the protective frame 204. The rainwater in the inner cavity of the protective frame 204 can be automatically discharged under the action of the drain hole 2041, so that the influence of the rainwater on the normal use of the solar cell panel 207 is avoided as much as possible.

In a fourth embodiment, referring to fig. 3 of the drawings, an energy-saving automatic sun-shading window further includes a protection net 206 fixed on an inner wall of the protection frame 204. Under the action of the net structure of the protective net 206, the high-altitude falling object is prevented from directly colliding with the surface of the solar panel 207 as much as possible.

In a fifth embodiment, referring to fig. 1 and 2 of the drawings, an energy-saving automatic sun-shading window further includes a plurality of groups of connecting assemblies 106 uniformly fixed on the top wall of the upper mounting frame 105 and the bottom wall of the lower mounting frame 202. The connecting assembly 106 comprises connecting vertical rods 1061, wherein the connecting vertical rods 1061 are fixed on the upper mounting frame 105 or the lower mounting frame 202, and a plurality of groups of connecting transverse rods 1062 are uniformly and alternately arranged on the outer wall of the connecting vertical rods 1061.

The upper mounting frame 105, the outer window frame body 103 and the lower mounting frame 202 are placed in a window hole of a building, and can be embedded in a wall of the building under the action of a plurality of groups of connecting vertical rods 1061 and connecting vertical rods 1061, so that the connection stability of the energy-saving automatic sun-shading window and the building can be increased.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims

1. An energy-conserving automatic sun-shading window, its characterized in that: comprising the steps of (a) a step of,

the sunshade mechanism (100) comprises an outer window frame body (103), wherein an inner cavity of the outer window frame body (103) is rotatably connected with a glass installation inner frame (104) capable of being opened and closed through a hinge, double-layer vacuum transparent glass windows (102) are fixed at two sides of the inner cavity of the glass installation inner frame (104), an upper installation frame (105) is fixed at the top wall of the outer window frame body (103), and a sunshade component (101) extending to the inner cavity of the glass installation inner frame (104) is fixed at the bottom of the inner cavity of the upper installation frame (105);

energy-saving mechanism (200), it includes down installation frame (202), the diapire position at outer window frame body (103) is fixed to installation frame (202) down, installation frame (202) inner chamber roof position is fixed with rolling subassembly (201) that extend to glass installation inside casing (104) inner chamber down, the outer wall slope of installation frame (202) one side down is fixed with installation pole (205), the tip position of installation pole (205) articulates through the articulated shaft has protection framework (204), the inner chamber diapire position of protection framework (204) is fixed with solar cell panel (207), electric connection between solar cell panel (207) and the outside battery, installation frame (202) inner chamber bottom position is fixed with first butt subassembly (203) that contact with protection framework (204) outer wall lower extreme position down, installation frame (202) inner wall upper end position is fixed with second butt subassembly (208) that contact with protection framework (204) outer wall upper end position down.

2. An energy efficient automatic sun shade according to claim 1, wherein: the sunshade assembly (101) comprises a first winch (1011), the first winch (1011) is fixed at the bottom wall position of the inner cavity of the upper mounting frame (105), a winding and unwinding wheel (1012) is fixed at the outer position of an output shaft of the first winch (1011), and a sunshade soft cloth (1013) extending to the inner cavity of the glass mounting inner frame (104) is fixed on the outer wall of the winding and unwinding wheel (1012).

3. An energy efficient automatic sun shade according to claim 1, wherein: the winding assembly (201) comprises a second winch (2013), the second winch (2013) is fixed at the top wall position of the inner cavity of the lower mounting frame (202), a winding wheel (2012) is fixed at the outer position of an output shaft of the second winch (2013), and a traction rope (2011) extending to the inner cavity of the glass mounting inner frame (104) and fixed with the bottom position of the sun-shading soft cloth (1013) is arranged at the outer part of the winding wheel (2012).

4. An energy efficient automatic sun shade according to claim 1, wherein: the first abutting assembly (203) comprises a cylinder (2031), the cylinder (2031) is fixed at the bottom wall of the inner cavity of the lower mounting frame (202), the end part of the horizontal output shaft of the cylinder (2031) penetrates through the outer wall of the lower mounting frame (202) and is rotationally connected with a first abutting wheel (2032), and the outer wall of the first abutting wheel (2032) is in contact with the outer wall of the protective frame body (204).

5. An energy efficient automatic sun shade according to claim 1, wherein: the second butt subassembly (208) is including mounting bracket (2082), mounting bracket (2082) are fixed on the inner wall of installing frame (202) down, the top position of mounting bracket (2082) is fixed with driving motor (2081), driving motor (2081) output is fixed with screw body (2084) of being connected with the rotation of installing frame (202) inner wall down, screw body (2084) externally mounted has screw nut (2083), screw nut (2083) roof position is fixed with connecting rod (2085) that runs through installing frame (202) outer wall down, connecting rod (2085) tip position rotation is connected with second butt wheel (2086) that contact with protective frame body (204) outer wall.

6. An energy efficient automatic sun shade according to claim 1, wherein: a drain hole (2041) is formed in the bottom wall of the protective frame body (204).

7. An energy efficient automatic sun shade according to claim 1, wherein: the inner wall of the protection frame body (204) is fixed with a protection net (206).

8. An energy efficient automatic sun shade according to claim 1, wherein: a plurality of groups of connecting components (106) are uniformly fixed at the positions of the top wall of the upper mounting frame (105) and the bottom wall of the lower mounting frame (202).

9. An energy efficient automatic sun shade according to claim 8, wherein: the connecting assembly (106) comprises connecting vertical rods (1061), the connecting vertical rods (1061) are fixed on the upper mounting frame (105) or the lower mounting frame (202), and a plurality of groups of connecting transverse rods (1062) are uniformly and alternately arranged on the outer walls of the connecting vertical rods (1061).