CN115182668B

CN115182668B - Energy-saving door and window

Info

Publication number: CN115182668B
Application number: CN202210880998.3A
Authority: CN
Inventors: 孙兵
Original assignee: Shenzhen Xingheda Construction Technology Co ltd
Current assignee: Shenzhen Xingheda Construction Technology Co ltd
Priority date: 2022-07-26
Filing date: 2022-07-26
Publication date: 2024-06-14
Anticipated expiration: 2042-07-26
Also published as: CN115182668A

Abstract

The application relates to the technical field of door and window manufacturing, in particular to an energy-saving door and window, which comprises a glass mounting frame, wherein an inner hollow glass and an outer hollow glass are arranged in parallel in the middle of the glass mounting frame, a positioning steel bar is fixed between the inner hollow glass and the outer hollow glass, a glass blocking plate is arranged on one side of the inner hollow glass and the outer hollow glass far away from the glass mounting frame, a solar panel is arranged on the outer wall of the outer hollow glass, a controller and a heating lamp are arranged on the outer wall of the inner hollow glass, the controller is respectively and electrically connected with the solar panel and the heating lamp, a connecting component is arranged between the glass mounting frame and a wall body, and the glass mounting frame is fixed on the wall body through the connecting component.

Description

Energy-saving door and window

Technical Field

The application relates to the technical field of door and window manufacturing, in particular to an energy-saving door and window.

Background

Along with the continuous improvement of life quality of people, people put forward higher requirements on energy conservation of doors and windows. The door and window are important components in the building enclosure structure system, are sensitive parts for energy loss and energy loss, are related to lighting, ventilation and sound insulation, and are key for building energy conservation.

The existing door and window is disclosed as a door and window made of aluminum alloy or plastic steel window, when the door and window is actually applied, the heat conducting performance of iron and aluminum is very high, the heat in a building can be easily emitted outdoors, when the weather is cold, the indoor temperature can be reduced, the heat outside the building can also easily enter the room, when the weather is hot, the indoor temperature can be increased, and the heat preservation performance of the door and window is poor.

In order to solve the defect of high heat conductivity of aluminum alloy or steel, doors and windows made of plastic or wood windows are also disclosed in the prior art, and in practical application, the strength of the plastic windows and the wood windows is low, and the doors and windows are easy to crack and become brittle along with the longer use time, so that the water tightness of the doors and windows is low and the wind resistance is poor.

Therefore, the traditional doors and windows are difficult to achieve multi-position unification of energy conservation, fire resistance and heat preservation, are also plagued by problems of corrosion, aging and the like, and have the problem of low energy conservation coefficient.

Disclosure of Invention

In order to improve the energy-saving coefficient of the door and window, the application provides the energy-saving door and window.

The application provides an energy-saving door and window, which adopts the following technical scheme:

The utility model provides an energy-conserving door and window, includes the glass installation frame, the middle part of glass installation frame is provided with built-in cavity glass and external cavity glass side by side, built-in cavity glass with be fixed with the location billet between the external cavity glass, built-in cavity glass external cavity glass keeps away from one side of glass installation frame is provided with glass closure plate, external cavity glass's outer wall is provided with solar panel, built-in cavity glass's outer wall is provided with controller and warm lamp, the controller respectively with solar panel warm lamp electric connection, be provided with coupling assembling between glass installation frame and the wall body, the glass installation frame passes through coupling assembling is fixed on the wall body.

Through adopting above-mentioned technical scheme, the location billet is fixed between built-in cavity glass and the external cavity glass, on the one hand, can increase the space between built-in cavity glass and the external cavity glass, play thermal-insulated, fire prevention's effect, on the other hand, make built-in cavity glass and external cavity glass keep erect the state, make door and window more pleasing to the eye, simultaneously, the visible light can pierce through built-in cavity glass, external cavity glass, in order to guarantee indoor luminance, built-in cavity glass and external cavity glass can also absorb the ultraviolet ray, reflect the infrared ray, can reduce indoor ultraviolet ray and infrared ray effectively, be favorable to improving the comfort level when people are indoor, in addition, solar panel can become the light energy into electric energy, and provide the energy for the warm lamp, the warm lamp can promote the room temperature voluntarily, the energy saving coefficient of door and window has been improved, and, under coupling assembling components's effect, make built-in cavity glass, external cavity glass, the glass mount frame can assemble on the wall body steadily, the equipment process is quick and convenient, easy to the operation of staff, be favorable to saving the cost of maintaining door and window.

Preferably, the glass installation frame comprises a glass installation horizontal frame and a glass installation vertical frame, two glass clamping grooves are formed in one side of the glass installation vertical frame, the built-in hollow glass and the external hollow glass are respectively clamped in the two glass clamping grooves, and the glass installation horizontal frame is detachably installed at the top of the glass installation vertical frame.

Through adopting above-mentioned technical scheme, the staff is to built-in cavity glass, external cavity glass joint respectively in two glass draw-in grooves, can accomplish the assembly between built-in cavity glass, external cavity glass and the glass installation mullion, and the glass installation transom is installed at the top of glass installation mullion, can play the effect of protection to built-in cavity glass, external cavity glass's top, reduces the damage, is favorable to prolonging door and window's life.

Preferably, the connecting assembly comprises a pressing frame, a glass baffle and a pressing strip clamping seat are arranged on one side of the pressing frame, the glass mounting frame is arranged between the glass baffle and the pressing strip clamping seat, a locking assembly is arranged outside the glass mounting frame, and the locking assembly is used for fixing the glass mounting frame.

Through adopting above-mentioned technical scheme, under the cooperation effect of glass fender body and layering cassette, can press from both sides tight glass installation frame, improved the installation stability of glass installation frame, under locking assembly's cooperation effect, can further improve the installation stability of glass installation frame, make built-in cavity glass, external cavity glass be difficult for taking place to turn on one's side, be favorable to prolonging door and window's life.

Preferably, a front buffer pad is arranged between the pressing frame and the glass mounting frame, a waveform bulge is arranged on one side, close to the glass mounting frame, of the front buffer pad, a waveform groove is formed in the side wall of the glass mounting frame, and the waveform bulge is in fit and clamping connection with the waveform groove.

Through adopting above-mentioned technical scheme, glass installing frame wraps up and protects built-in cavity glass, external cavity glass's side, and leading blotter has good elasticity, through being provided with leading blotter between pressing frame and glass installing frame, when glass installing frame receives pressure, has the space of resilience of certain degree, can provide buffering, absorbing effect for built-in cavity glass, external cavity glass's activity, makes glass be difficult for broken, is favorable to prolonging door and window's life.

Preferably, the locking assembly includes: a clamping seat groove arranged in the middle of the pressing strip clamping seat; a glass pressing strip clamped in the clamping seat groove; a slot arranged in the middle of the glass baffle body; the baffle body plug block is clamped in the slot; and sealing rubber strips respectively adhered between the glass pressing strip and the glass mounting frame and between the baffle insert block and the glass mounting frame.

Through adopting above-mentioned technical scheme, glass layering joint is in the cassette groove, keep off body inserted block joint in the slot to, all adhere through joint strip between glass layering and the glass installation frame, keep off between body inserted block and the glass installation frame, make glass installation frame can be fixed mutually with the layering steadily, improve the connection stability between the two.

Preferably, a storage cavity is formed in the middle of the pressing frame, and a fireproof blocking block is arranged in the storage cavity.

Through adopting above-mentioned technical scheme, the fire prevention shutoff piece has good fire resistance and heat preservation effect, moreover, through the mid-mounting at the frame of pressing has the fire prevention shutoff piece, can further improve door and window's gas tightness and sound insulation to be favorable to improving door and window's coefficient of energy saving.

Preferably, the connecting assembly comprises an upper wall piece, the upper wall piece is embedded in the wall body, the pressing frame is arranged outside the upper wall piece, a locking piece is arranged between the pressing frame and the wall body, and the pressing frame is connected with the wall body through the locking piece.

Through adopting above-mentioned technical scheme, go up the wall piece and can increase the area of contact of glass installation frame and wall body to, under the effect of retaining member, can improve built-in cavity glass, external cavity glass's installation stability.

Preferably, the upper wall piece comprises a slope reinforcing part and a connecting part, wherein the slope reinforcing part is symmetrically fixed at one side of the connecting part away from the pressing frame, the slope reinforcing part is arranged by the connecting part in an outwards inclined way, and a waterproof filling layer is filled between the two slope reinforcing parts.

Through adopting above-mentioned technical scheme, domatic reinforcing part is set up by connecting portion outside slope, can increase the area of contact between wall piece and the wall body to, through filling between two domatic reinforcing parts has waterproof filling layer, make the wall piece can inlay in the inside of wall body firmly, and then for pressing the assembly between frame and the glass installation frame and provide good holding power, simultaneously, strengthened the connection density between wall piece and the wall body, improved the factor of energy saving of door and window.

Preferably, an installation cavity is formed in the middle of the connecting portion, and waterproof mortar blocks are filled in the installation cavity.

Through adopting above-mentioned technical scheme, through filling at the installation intracavity has waterproof mortar piece, can strengthen the structural rigidity of going up the wall piece, make go up the wall piece be difficult for deformation, waterproof mortar piece has good waterproof, heat preservation, sound insulation's performance, is favorable to improving door and window's coefficient of energy saving.

Preferably, a built-in buffer pad is arranged between the pressing frame and the upper wall piece, a fixing protrusion is fixed on one side of the built-in buffer pad, which is close to the upper wall piece, a limiting bayonet is fixed on the side wall of the upper wall piece, and the fixing protrusion is spliced with the limiting bayonet.

Through adopting above-mentioned technical scheme, through peg graft the fixed arch of built-in blotter with go up the spacing bayonet socket of wall piece, can make built-in blotter assemble together with last wall piece steadily, moreover, built-in blotter has good elasticity, when pressing the frame to receive pressure, has the resilience space of certain degree to can provide buffering, absorbing effect for pressing the activity of frame, make to press and form the flexonics between frame and the last wall piece, be favorable to prolonging the life of door and window.

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

1. The positioning steel bars are fixed between the internal hollow glass and the external hollow glass, so that on one hand, the space between the internal hollow glass and the external hollow glass can be increased, the heat insulation and fire prevention effects are achieved, and on the other hand, the internal hollow glass and the external hollow glass are kept in an upright state, and the door and window are more attractive;

2. the visible light can penetrate through the internal hollow glass and the external hollow glass to ensure the indoor brightness, the internal hollow glass and the external hollow glass can absorb ultraviolet rays and reflect infrared rays, the indoor ultraviolet rays and the infrared rays can be effectively reduced, and the indoor comfort level of people can be improved;

3. The solar panel converts light energy into electric energy and provides energy for the warm lamp, the warm lamp can automatically raise the room temperature, natural resources are reasonably utilized in the use process of the energy-saving door and window, the energy is saved, the environment is protected, and the sustainable development concept of production is met.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a cross-sectional view of fig. 1.

Fig. 3 is an exploded view of fig. 1.

Fig. 4 is an enlarged view of a in fig. 3.

Fig. 5 is a schematic diagram illustrating an assembly of a solar panel and an external hollow glass according to an embodiment of the present application.

Reference numerals illustrate: 1. a glass mounting frame; 11. a glass mounting transverse frame; 111. fixing nails; 12. a glass mounting mullion; 121. a glass clamping groove; 122. a glass closure plate; 123. positioning steel bars; 124. a wave-shaped groove; 125. a weight reduction groove; 126. a locking bar; 127. a heat insulation space; 13. a front cushion pad; 131. a wave-shaped protrusion; 14. built-in hollow glass; 15. external hollow glass; 16. a solar panel; 17. a warm lamp; 18. a controller; 2. pressing a frame; 21. a first fixing frame; 211. the connecting clamping seat; 22. a transition fixing frame; 23. a second fixing frame; 24. a fire-resistant block; 25. a glass baffle; 26. a pressing bar clamping seat; 3. a baffle insert block; 4. glazing bead; 5. a cushion pad is arranged in the inner part; 51. a fixing protrusion; 6. an inner sealing strip; 61. arc wrap angle; 62. a P-shaped seal; 7. an inner sealing bump; 71. an arc-shaped pressing plate; 72. a sealing bump; 8. a wall piece is arranged; 81. slope reinforcement; 811. a waterproof filling layer; 821. a mounting cavity; 822. a waterproof mortar block; 823. a first engagement frame; 8231. limiting bayonet; 824. a second engagement frame; 825. a blocking frame; 8251. a connection groove; 83. a locking screw; 9. a wall body.

Detailed Description

The application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses an energy-saving door and window.

Referring to fig. 1 and 2, an energy-saving door and window comprises a glass installation frame 1 and a connecting component, wherein the middle part of the glass installation frame 1 is provided with an internal hollow glass 14 and an external hollow glass 15, the internal hollow glass 14 and the external hollow glass 15 are connected on the glass installation frame 1 in parallel, the connecting component comprises a pressing frame 2 and an upper wall piece 8, the upper wall piece 8 is embedded in a wall body 9, the pressing frame 2 is arranged outside the upper wall piece 8, one side of the pressing frame 2 close to the wall body 9 is fixed with the wall body 9 in a bolt connection mode, and the glass installation frame 1 is fixed on one side of the pressing frame 2 far away from the upper wall piece 8, so that the internal hollow glass 14 and the external hollow glass 15 can be fixed on the wall body 9.

Referring to fig. 2 and 3, the upper wall piece 8 includes a slope reinforcement portion 81 and a connection portion, specifically, the slope reinforcement portion 81 and the connection portion are welded and fixed, in the embodiment of the present application, the slope reinforcement portion 81 is symmetrically fixed at one side of the connection portion far away from the press frame 2, the slope reinforcement portion 81 is arranged by the connection portion in an outward tilting manner so as to increase the contact area between the upper wall piece 8 and the wall 9, and a plugboard is fixed at one end of the slope reinforcement portion 81 near the wall 9, so that the plugboard is flush with the connection portion, and the plugboard is fixed with the wall 9 by means of bolting, thereby being beneficial to improving the connection stability between the upper wall piece 8 and the wall 9.

More specifically, the connection portion includes a first connection frame 823, a second connection frame 824, and a blocking frame 825, where the first connection frame 823 and the blocking frame 825 are rectangular frames, the second connection frame 824 is an "L" shaped frame, the first connection frame 823 and the second connection frame 824 are disposed at a side of the second connection frame 824 far away from the pressing frame 2, and the blocking frame 825 is fixed on a groove on a side surface of the second connection frame 824, so that the blocking frame 825 and the second connection frame 824 are disposed at a side of the second connection frame 824 far away from the first connection frame 823.

In order to improve the waterproof property between the upper wall piece 8 and the wall body 9, a waterproof filling layer 811 is filled between the two slope reinforcing parts 81, an installation cavity 821 is formed in the middle of the upper wall piece 8, waterproof mortar blocks 822 are filled in the installation cavity 821, the upper wall piece 8 can be firmly inlaid in the wall body 9, good supporting force is provided for assembly between the pressing frame 2 and the glass installation frame 1, and meanwhile, the connection density between the upper wall piece 8 and the wall body 9 is enhanced.

Referring to fig. 2 and 3, the pressing frame 2 includes a first fixing frame 21, a second fixing frame 23, and a transition fixing frame 22, where the first fixing frame 21 and the second fixing frame 23 are welded on opposite sides of the transition fixing frame 22, respectively, and one sides of the first fixing frame 21, the transition fixing frame 22, and the second fixing frame 23 far away from the wall 9 are flush with each other, specifically, the first fixing frame 21 is a "concave" frame body, and the second fixing frame 23 and the transition fixing frame 22 are rectangular frames.

In order to improve the convenience of assembling the pressing frame 2 on the upper wall piece 8, referring to fig. 2 and 3, a connection clamping seat 211 is arranged at a position of the first fixing frame 21 close to the first connection frame 823, correspondingly, an inner sealing convex block 7 is arranged between the first fixing frame 21 and the first connection frame 823, the inner sealing convex block 7 comprises a sealing convex block 72 and an arc pressing plate 71, the arc pressing plate 71 is welded on one side of the sealing convex block 72, the arc pressing plate 71 is abutted against the first connection frame 823, the sealing convex block 72 is inserted into the connection clamping seat 211, and the arc pressing plate 71 and the first connection frame 823 and the sealing convex block 72 and the connection clamping seat 211 are fixed in a glue bonding mode.

More specifically, a connection groove 8251 is formed on one side of the baffle frame 825, which is close to the second fixed frame 23, and in the embodiment of the present application, the connection groove 8251 is an arc groove, correspondingly, a chamfer is formed on the side wall of the second fixed frame 23, an inner sealing strip 6 is disposed between the baffle frame 825 and the second fixed frame 23, the inner sealing strip 6 includes a P-shaped sealing strip 62 and an arc wrap angle 61, the arc wrap angle 61 is welded at a corner of the P-shaped sealing strip 62, the arc wrap angle 61 wraps a corner of the transition fixed frame 22, so that protection can be achieved, and the P-shaped sealing strip 62 is abutted against the connection groove 8251 in an adapting manner, and the P-shaped sealing strip 62 and the connection groove 8251, the arc wrap angle 61 and the transition fixed frame 22 are fixed by means of glue adhesion.

In the embodiment of the application, a worker embeds the whole upper wall piece 8 in the wall body 9, the first fixing frame 21 and the first connecting frame 823 are fixed through the inner sealing convex blocks 7, the baffle frame 825 and the second fixing frame 23 are fixed through the inner sealing strips 6, the pressing frame 2 is in a balanced state, and a plurality of locking screws 83 are arranged between the pressing frame 2 and the wall body 9, so that the pressing frame 2 is stably assembled on the wall body 9.

In order to improve the fireproof performance of the pressing frame 2, the middle parts of the first fixing frame 21, the second fixing frame 23 and the transition fixing frame 22 are respectively provided with a storage cavity, fireproof blocking blocks 24 are arranged in the storage cavities, in the embodiment of the application, the fireproof blocking blocks 24 are blocks made of glass fiber reinforced polyurethane, so that the pressing frame 2 has good heat resistance and fireproof performance, with reference to fig. 2 and 3, a built-in cushion 5 is arranged between the pressing frame 2 and the upper wall piece 8, the built-in cushion 5 is a rubber pad, one side of the built-in cushion 5, which is close to the upper wall piece 8, is welded with fixing protrusions 51, correspondingly, the side wall of the first connecting frame 823 is provided with limiting bayonets 8231, the number of the limiting bayonets 8231 is determined according to the situation, the top view of the limiting bayonets 8231 is in a T shape, the fixing protrusions 51 are spliced with the limiting bayonets 8231, the built-in cushion 5 can provide buffering and damping effects for the assembling of the pressing frame 2 in the process of the upper wall piece 8, and the service life of the pressing frame 2 is improved.

Referring to fig. 2 and 3, one side of the press frame 2 far away from the upper wall piece 8 is provided with a glass baffle 25 and a press bar clamping seat 26, the glass baffle 25 and the press bar clamping seat 26 are just right to be arranged, the glass mounting frame 1 is arranged between the glass baffle 25 and the press bar clamping seat 26, a locking component is arranged outside the glass mounting frame 1, the glass mounting frame 1 can be fixed through the locking component, the locking component comprises a glass press bar 4 and a baffle insert 3, specifically, the middle part of the press bar clamping seat 26 is provided with a clamping seat groove, so that the glass press bar 4 is in fit and clamped in the clamping seat groove, the middle part of the glass baffle 25 is provided with a slot, and the baffle insert 3 is clamped in the slot.

In addition, sealing rubber strips are respectively adhered between the glass pressing strip 4 and the glass mounting frame 1 and between the baffle body inserting block 3 and the glass mounting frame 1, and in the embodiment of the application, the sealing rubber strips are ethylene propylene diene rubber, so that the sealing rubber strips have good weather resistance and sealing property, further, the glass mounting frame 1 and the pressing frame 2 have good sealing property, and the glass mounting frame 1 can be firmly mounted on the pressing frame 2 under the action of the sealing rubber strips.

Referring to fig. 2 and 4, the glass installation frame 1 includes a glass installation horizontal frame 11 and a glass installation vertical frame 12, specifically, the glass installation vertical frame 12 is a frame body made of aluminum alloy, and has good structural strength and is not easy to deform, two glass clamping grooves 121 are formed in a penetrating manner along the length direction of the side wall of the glass installation vertical frame 12, the two glass clamping grooves 121 are arranged in parallel, an internal hollow glass 14 and an external hollow glass 15 are respectively inserted into the two glass clamping grooves 121, waterproof strips are arranged in the glass clamping grooves 121, the internal hollow glass 14 is inserted into the glass clamping grooves 121, or the external hollow glass 15 is inserted into the glass clamping grooves 121 and is filled through the waterproof strips, so that the internal hollow glass 14 and the external hollow glass 15 can be firmly installed with the glass installation vertical frame 12.

In addition, the side wall of the inner hollow glass 14 and the outer hollow glass 15 extending out of the glass mounting mullion 12 is fixed with a glass blocking plate 122, and a positioning steel bar 123 is arranged between the inner hollow glass 14 and the outer hollow glass 15, and the positioning steel bar 123 is fixed between the inner hollow glass 14 and the outer hollow glass 15 in a glue bonding mode, so that a heat insulation space 127 is reserved between the inner hollow glass 14 and the outer hollow glass 15, and the air tightness of a door and a window and the heat insulation effect of the door and the window are improved.

In the embodiment of the application, the internal hollow glass 14 and the external hollow glass 15 are heat reflection glass, so that the heat insulation effect on infrared rays can be achieved, the heat insulation effect on ultraviolet rays can be achieved, the effect of reducing the incidence of ultraviolet rays into a room can be achieved, and the heat insulation effect on visible light can be achieved, so that the indoor daylighting performance can be ensured.

Referring to fig. 3 and 4, a front buffer pad 13 is arranged between the glass mounting frame 1 and the pressing frame 2, the front buffer pad 13 is a rubber pad, a waveform bulge 131 is fixed on one side of the front buffer pad 13, which is close to the glass mounting frame 1, correspondingly, a waveform groove 124 is formed in the side wall of the glass mounting mullion 12, the waveform bulge 131 and the waveform groove 124 are in fit and clamping connection, and the arrangement of the front buffer pad 13 can provide buffering and damping effects for the glass mounting frame 1 during the assembly of the pressing frame 2, so that the service life of the glass mounting frame 1 is prolonged.

In the embodiment of the application, two locking bars 126 are fixed in the weight reducing groove 125, the glass mounting transverse frame 11 covers the top surface of the glass mounting vertical frame 12, through holes are formed in the glass mounting transverse frame 11 in a penetrating manner, the number of the through holes is consistent with that of the locking bars 126, fixing nails 111 are arranged between the locking bars 126 and the glass mounting transverse frame 11, and the fixing nails 111 penetrate through the through holes and are in threaded connection with the locking bars 126, so that the glass mounting transverse frame 11 can be stably assembled with the glass mounting vertical frame 12, and the connection stability and the connection density of doors and windows can be improved.

The staff is firstly to be connected with two glass draw-in grooves 121 respectively to built-in hollow glass 14 and external hollow glass 15, fills through the waterproof strip for built-in hollow glass 14, external hollow glass 15 can firmly install mutually with glass installation mullion 12, then under the effect of staple 111, makes glass installation mullion 11 assemble together with glass installation mullion 12 steadily, again with glass layering 4 looks adaptation joint at the cassette groove, with the inside of keeping off body inserted block 3 joint at the slot, glass layering 4 and keeping off body inserted block 3 press from both sides glass installation mullion 12 tightly, under joint strip's effect, glass installation mullion 1 is fixed with pressing frame 2 steadily, and then accomplishes the assembly of door and window and wall body 9.

In order to further improve the energy saving coefficient of the door and window, the outer wall of the external hollow glass 15 is provided with two solar panels 16, the outer wall of the internal hollow glass 14 is provided with a controller 18 and a warm lamp 17, the controller 18 is respectively electrically connected with the solar panels 16 and the warm lamp 17, in the embodiment of the application, the solar panels 16 are arc-shaped solar panels 16, and the connection angle between the solar panels 16 and the external hollow glass 15 is 0-180 degrees.

When the connection angle between the solar panel 16 and the external hollow glass 15 is 90 degrees, referring to fig. 3 and 5, the two solar panels 16 are just opposite to each other, when sunlight passes through the external hollow glass 15 and the internal hollow glass 14, a part of light is reflected onto the solar panel 16, meanwhile, the two solar panels 16 can absorb light and convert the light into electric energy, and under the cooperation of the two solar panels 16, the light reflected by the glass can be effectively converged, so that the light utilization rate is improved.

When the connection angle between the solar panels 16 and the external hollow glass 15 is 0 °, referring to fig. 3 and 5, the directions of the two solar panels 16 are consistent with the transverse direction of the external hollow glass 15, and the solar panels 16 can absorb the light directly incident on the solar panels and convert the light into electric energy.

In the embodiment of the present application, the solar panel 16 converts light energy into electric energy, and when the indoor temperature is lower than the preset temperature, the controller 18 automatically turns on the heating lamp 17, so that the indoor temperature can be raised.

The implementation principle of the energy-saving door and window of the embodiment of the application is as follows:

The staff inlays whole upper wall piece 8 in wall body 9 earlier, fixes through interior sealing lug 7 between first fixed frame 21 and the first connection frame 823, keeps off between frame 825 and the second fixed frame 23 and fixes through interior sealing strip 6, makes press frame 2 in balanced state, then fixes press frame 2 on wall body 9 steadily through locking screw 83.

Then, the staff connects the inner hollow glass 14 and the outer hollow glass 15 with the two glass clamping grooves 121, respectively, and fills the gaps between the inner hollow glass 14 and the glass clamping grooves 121 and between the outer hollow glass 15 and the glass clamping grooves 121 by using waterproof strips, so that the inner hollow glass 14 and the outer hollow glass 15 can be firmly installed with the glass installation mullion 12.

The glass-mounting transom 11 is assembled with the glass-mounting mullion 12 by the staples 111.

The glass layering 4 looks adaptation joint is in the cassette groove, keeps off the inside of body inserted block 3 joint at the slot, and glass layering 4 and keep off body inserted block 3 press from both sides tight glass installation mullion 12, under joint strip's effect, glass installation mullion 1 is fixed with pressing frame 2 steadily, and then accomplishes the assembly of door and window and wall body 9.

When the door and window is used, the solar panel 16 converts light energy into electric energy, and when the indoor temperature is lower than the preset temperature, the controller 18 automatically turns on the warm lamp 17 to raise the indoor temperature.

The foregoing is illustrative of the present application, and is not meant to limit the scope of the application in any way, therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. The energy-saving door window is characterized by comprising a glass mounting frame (1), wherein an internal hollow glass (14) and an external hollow glass (15) are arranged in parallel in the middle of the glass mounting frame (1), a positioning steel bar (123) is fixed between the internal hollow glass (14) and the external hollow glass (15), a glass blocking plate (122) is arranged on one side, far away from the glass mounting frame (1), of the external hollow glass (15), a solar panel (16) is arranged on the outer wall of the external hollow glass (15), a controller (18) and a warm lamp (17) are arranged on the outer wall of the internal hollow glass (14), the controller (18) is electrically connected with the solar panel (16) and the warm lamp (17) respectively, a connecting assembly is arranged between the glass mounting frame (1) and the wall body (9), and the glass mounting frame (1) is fixed on the wall body (9) through the connecting assembly;

The connecting assembly comprises a pressing frame (2), a glass baffle (25) and a pressing strip clamping seat (26) are arranged on one side of the pressing frame (2), the glass mounting frame (1) is arranged between the glass baffle (25) and the pressing strip clamping seat (26), a locking assembly is arranged outside the glass mounting frame (1), and the locking assembly is used for fixing the glass mounting frame (1);

The locking assembly includes: a clamping seat groove arranged in the middle of the pressing strip clamping seat (26); a glass pressing strip (4) clamped in the clamping seat groove; a slot arranged in the middle of the glass baffle body (25); a baffle insert block (3) clamped in the slot; and sealing rubber strips respectively adhered between the glass pressing strip (4) and the glass mounting frame (1) and between the baffle insert block (3) and the glass mounting frame (1);

The connecting assembly comprises an upper wall piece (8), the upper wall piece (8) is embedded in the wall body (9), the pressing frame (2) is arranged outside the upper wall piece (8), a locking piece is arranged between the pressing frame (2) and the wall body (9), and the pressing frame (2) is connected with the wall body (9) through the locking piece;

The upper wall piece (8) comprises slope surface reinforcing parts (81) and connecting parts, wherein the slope surface reinforcing parts (81) are symmetrically fixed on one side of the connecting parts far away from the press frame (2), the slope surface reinforcing parts (81) are arranged in an outward inclined mode through the connecting parts, and a waterproof filling layer (811) is filled between the two slope surface reinforcing parts (81);

A built-in buffer pad (5) is arranged between the pressing frame (2) and the upper wall piece (8), a fixing protrusion (51) is fixed on one side, close to the upper wall piece (8), of the built-in buffer pad (5), a limiting bayonet (8231) is fixed on the side wall of the upper wall piece (8), and the fixing protrusion (51) is spliced with the limiting bayonet (8231);

The pressing frame (2) comprises a first fixing frame (21), a second fixing frame (23) and a transition fixing frame (22), the connecting part comprises a first connecting frame (823), a second connecting frame (824) and a blocking frame (825), a connecting clamping seat (211) is arranged at the position, close to the first connecting frame (823), of the first fixing frame (21), an inner sealing lug (7) is arranged between the first fixing frame (21) and the first connecting frame (823), the inner sealing lug (7) comprises a sealing lug (72) and an arc pressing plate (71), the arc pressing plate (71) is welded on one side of the sealing lug (72), the arc pressing plate (71) is abutted to the first connecting frame (823), the sealing lug (72) is inserted into the connecting clamping seat (211), and the arc pressing plate (71) is fixed with the first connecting frame (823) and the sealing lug (72) and the connecting clamping seat (211) in a glue bonding mode;

A connecting groove (8251) is formed in one side, close to the second fixing frame (23), of the baffle frame (825), the connecting groove (8251) is an arc-shaped groove, a chamfer is formed in the side wall of the second fixing frame (23), an inner sealing strip (6) is arranged between the baffle frame (825) and the second fixing frame (23), the inner sealing strip (6) comprises a P-shaped sealing strip (62) and an arc-shaped wrap angle (61), the arc-shaped wrap angle (61) is welded at one corner of the P-shaped sealing strip (62), the arc-shaped wrap angle (61) wraps the corner of the transition fixing frame (22), the P-shaped sealing strip (62) is in butt fit with the connecting groove (8251), and the arc-shaped wrap angle (61) is fixed with the transition fixing frame (22) through glue adhesion.

2. An energy-saving door and window according to claim 1, wherein the glass installation frame (1) comprises a glass installation horizontal frame (11) and a glass installation vertical frame (12), two glass clamping grooves (121) are arranged on one side of the glass installation vertical frame (12), the built-in hollow glass (14) and the external hollow glass (15) are respectively clamped in the two glass clamping grooves (121), and the glass installation horizontal frame (11) is detachably arranged at the top of the glass installation vertical frame (12).

3. The energy-saving door and window according to claim 1, wherein a front buffer pad (13) is arranged between the pressing frame (2) and the glass mounting frame (1), a wave-shaped bulge (131) is arranged on one side, close to the glass mounting frame (1), of the front buffer pad (13), a wave-shaped groove (124) is formed in the side wall of the glass mounting frame (1), and the wave-shaped bulge (131) is in fit and clamping connection with the wave-shaped groove (124).

4. An energy-saving door and window according to claim 3, wherein the middle part of the pressing frame (2) is provided with a storage cavity, and a fireproof blocking block (24) is arranged in the storage cavity.

5. The energy-saving door and window according to claim 4, wherein the middle part of the connecting part is provided with a mounting cavity (821), and the inside of the mounting cavity (821) is filled with a waterproof mortar block (822).