CN213540113U - Energy-saving plastic-steel door and window - Google Patents

Abstract

The application relates to an energy-saving plastic-steel door window, which relates to the technical field of plastic-steel door windows, and the main technical scheme of the energy-saving plastic-steel door window comprises a mounting frame and a push-pull frame arranged in the mounting frame, wherein the inner side wall of the mounting frame is provided with a sliding chute for the push-pull frame to slide, the push-pull frame is provided with a sealing assembly for sealing a gap between the push-pull frame and the mounting frame, and the sealing assembly is positioned in the sliding chute; in the use process of the door and window, when the indoor ventilation is needed, the push-pull frame is pulled to slide in the sliding groove, so that the door and window are opened to ventilate indoors, when the indoor temperature is needed to be adjusted, the push-pull frame is pulled to close the door and window, and the gap between the push-pull frame and the mounting frame is sealed through the sealing assembly, so that the possibility of heat transfer between the indoor space and the outdoor space through the gap is reduced, and the energy consumed in adjusting the indoor temperature is saved.

Description

Energy-saving plastic-steel door and window

Technical Field

The application relates to the technical field of plastic-steel doors and windows, in particular to an energy-saving plastic-steel door and window.

Background

The plastic-steel door and window is made of polyvinyl chloride resin as a main principle, a sealing rubber sleeve, hardware and the like are usually required to be assembled on a window frame, and when the door and window is large in size, a steel lining needs to be added inside a site to increase the rigidity of the door and window.

The utility model discloses a chinese utility model patent that the grant bulletin number is CN202945945U discloses a fixed push-and-pull integration plastic-steel door and window, including austral window, sliding sash perpendicular frame, the austral window, sliding sash that sets up in austral window, sliding sash perpendicular frame and the fixed cross beam of setting on austral window, sliding sash perpendicular frame slide and be connected, fixed cross beam is located austral window, sliding sash top, sliding sash and austral window, sliding sash.

When the plastic-steel door and window is used and ventilation is needed indoors, the sliding window needs to be pulled to slide in the vertical frame of the sliding window, so that the window is opened; when the indoor temperature needs to be adjusted, the sliding window needs to be pulled reversely, and the door and the window need to be closed; in the repeated moving process of the sliding window, repeated friction is generated between the sliding window and the vertical frame of the sliding window, so that a gap is generated, indoor and outdoor heat is exchanged through the gap, and when the indoor temperature needs to be adjusted, more energy needs to be consumed.

SUMMERY OF THE UTILITY MODEL

In order to reduce the possibility that door and window produced the gap, improve door and window's energy-conserving performance, this application provides an energy-saving plastic steel door and window.

The application provides an energy-saving plastic-steel door and window adopts following technical scheme:

an energy-saving plastic steel door and window comprises a mounting frame and a push-pull frame arranged in the mounting frame, wherein a sliding groove for the push-pull frame to slide is formed in the inner side wall of the mounting frame, a sealing assembly for sealing a gap between the push-pull frame and the mounting frame is arranged on the push-pull frame, and the sealing assembly is located in the sliding groove.

Through adopting above-mentioned technical scheme, in door and window use, when indoor needs ventilation, pulling push-and-pull frame slides in the spout to open door and window and to indoor ventilation, when needs adjust indoor temperature, pulling push-and-pull frame closed door and window, seal the gap between push-and-pull frame and the installing frame through seal assembly, thereby reduce the possibility that takes place heat transfer through the gap between indoor and outdoor, be favorable to sparingly adjusting the energy that consumes when indoor temperature.

Preferably, seal assembly is including setting up closing plate, the connecting plate of setting on the closing plate on the push-and-pull frame and fixing the coupling spring on the connecting plate, the connecting plate is followed the thickness direction of closing plate sets up, be equipped with the seal groove on the lateral wall of push-and-pull frame, the seal groove slides and connects in the seal groove, be equipped with the spread groove on the groove lateral wall of seal groove, the connecting plate slides and connects in the spread groove, coupling spring keeps away from the one end of connecting plate and the tank bottom wall fixed connection of spread groove, the one side that the connecting plate was kept away from to the closing plate stretches out the seal groove, be equipped with sealed piece on the groove lateral wall of spout, sealed.

Through adopting above-mentioned technical scheme, after the closed door and window of push-and-pull frame, sealed piece promotes the closing plate and removes, and the closing plate promotes in the connecting plate inserts the spread groove, and connecting plate extrusion coupling spring, connecting spring take place reaction after compression deformation and act on the connecting plate, thereby the connecting plate promotes sealed piece of closing plate extrusion, and the closing plate is inconsistent with the side of sealed piece to seal the gap between push-and-pull frame and the installing frame.

Preferably, a filling pad is arranged on the side surface of the sealing plate, and the filling pad is positioned on one side of the sealing plate, which is far away from the sealing block.

Through adopting above-mentioned technical scheme, when sealed piece promoted the closing plate and removed, the closing plate promoted the packing pad and extrudeed the groove lateral wall of seal groove to seal the seal groove, reduce the possibility that produces the gap between closing plate and the seal groove.

Preferably, the side surface of the sealing plate is provided with a clamping strip, and the side surface of the sealing block is provided with a clamping groove for inserting the clamping strip.

Through adopting above-mentioned technical scheme, when the closing plate with sealed piece laminating, the card strip inserts in the draw-in groove, increases the area of contact between closing plate and the sealed piece, is favorable to increasing the leakproofness between closing plate and the sealed piece.

Preferably, be equipped with the indent on the groove lateral wall of draw-in groove, the indent internal slipping is connected with the briquetting, be equipped with on the side of briquetting and support tight spring, support tight spring and keep away from the one end of briquetting with the tank bottom wall of indent is contradicted, the briquetting is kept away from support tight spring one side with the side of card strip is inconsistent.

Through adopting above-mentioned technical scheme, when the card strip slides in the draw-in groove, promote the briquetting extrusion and support tight spring, thereby support tight spring and promote the briquetting extrusion and block the strip to take place wearing and tearing and produce the possibility in gap when reducing card strip and draw-in groove and sliding, be favorable to increasing the leakproofness between card strip and the draw-in groove, further increase the leakproofness between closing plate and the sealed piece.

Preferably, a sealing gasket is arranged on the side surface of the clamping strip.

Through adopting above-mentioned technical scheme, sealed the gap that reduces between card strip and the draw-in groove of filling up, further improve the leakproofness between card strip and the draw-in groove.

Preferably, the side surface of the sealing block is provided with an anti-abrasion pad, and the anti-abrasion pad is abutted to the outer side wall of the push-pull frame.

By adopting the technical scheme, the anti-abrasion pad reduces the possibility of direct contact between the push-pull frame and the sealing block and reduces the possibility of abrasion of the push-pull frame in the moving process of the push-pull frame.

Preferably, a pressing groove for inserting the pressing block is formed in the side surface of the clamping strip.

Through adopting above-mentioned technical scheme, the briquetting inserts and supports tight inslot, increase briquetting and support the area of contact between the tight groove, be favorable to improving the leakproofness between briquetting and the fixture block.

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

1. when ventilation is needed indoors, the push-pull frame is pulled to slide in the sliding groove so as to open the door and window, when the indoor temperature needs to be adjusted, the push-pull frame is pulled reversely to close the door and window, the sealing assembly seals a gap between the push-pull frame and the mounting frame, the possibility of heat transfer occurring indoors and outdoors through the gap is reduced, the energy consumed in adjusting the indoor temperature is reduced, and therefore the energy-saving performance of the door and window is improved;

2. the filling pad is used for filling and blocking a gap between the sealing plate and the sealing groove, so that the possibility of generating the gap between the sealing plate and the sealing groove is reduced;

3. the anti-abrasion pad reduces the possibility of direct contact between the push-pull frame and the sealing block, and reduces the possibility of abrasion of the push-pull frame by the sealing block in the sliding process of the push-pull frame.

Drawings

FIG. 1 is a front view of an energy-saving plastic-steel door window in an embodiment.

Fig. 2 is a sectional view taken along line a-a of fig. 1.

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

Fig. 4 is an enlarged view of the portion C in fig. 3.

Fig. 5 is a partial structural view in section from D-D in fig. 1.

Description of reference numerals: 1. installing a frame; 11. a push-pull frame; 111. a sealing groove; 112. connecting grooves; 12. a chute; 2. a seal assembly; 21. a sealing plate; 211. filling the pad; 212. clamping the strip; 213. a gasket; 214. abutting against the groove; 22. a connecting plate; 23. a connecting spring; 24. a sealing block; 241. a sliding slope; 242. an anti-wear pad; 243. a card slot; 244. pressing a groove; 245. briquetting; 246. the spring is tightly propped; 247. the inclined plane is tightly propped.

Detailed Description

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

Examples

Referring to fig. 1 and 2, the energy-saving plastic-steel door window comprises a mounting frame 1, a push-pull frame 11 and a sealing assembly 2, wherein the mounting frame 1 is fixed on a wall body.

Referring to fig. 2 and 3, a sliding groove 12 is formed in the inner side wall of the mounting frame 1, the push-pull frame 11 is connected in the sliding groove 12 in a sliding manner, the push-pull frame 11 is arranged along the height direction of the mounting frame 1, the sealing assemblies 2 are arranged on the push-pull frame 11 and used for sealing gaps between the push-pull frame 11 and the mounting frame 1, the sealing assemblies 2 are located in the sliding groove 12, the number of the sealing assemblies 2 can be two, and the two sealing assemblies 2 are distributed along the height direction of the push-pull frame 11; when the plastic-steel door and window is used and ventilation is needed indoors, the push-pull frame 11 slides in the sliding groove 12 by pulling the push-pull frame 11, so that the door and window are opened, and the ventilation is conducted indoors; when the indoor temperature needs to be adjusted, the push-pull frame 11 is pulled reversely, so that the push-pull frame 11 is pulled to close the door and window, the sealing assembly 2 is used for sealing a gap between the push-pull frame 11 and the mounting frame 1, the possibility that indoor and outdoor heat is transferred through the gap is reduced, the energy consumed when the indoor temperature is adjusted is favorably reduced, and the energy saving performance of the door and window is improved.

Referring to fig. 3, the sealing assembly 2 includes a sealing plate 21, a connecting plate 22, a connecting spring 23 and a sealing block 24, a sealing groove 111 is provided on an outer side wall of the push-pull frame 11, the sealing groove 111 is disposed along a width direction of the push-pull frame 11, the sealing plate 21 is located in the sealing groove 111, the sealing plate 21 is disposed along a length direction of the sealing groove 111, a connecting groove 112 is provided on a groove side wall of the sealing groove 111, the connecting groove 112 is disposed along the length direction of the sealing groove 111, the connecting plate 22 is disposed on a top wall of the sealing plate 21, the connecting plate 22 and the sealing plate 21 are integrally manufactured, the connecting plate 22 is disposed along the thickness direction of the sealing plate 21, one end of the connecting plate; the side of the sealing plate 21 remote from the connecting plate 22 protrudes through the sealing groove 111.

Referring to fig. 3, one end of the connection spring 23 is fixed to a side surface of the connection plate 22, and the other end is welded to a groove bottom wall of the connection groove 112, and the connection spring 23 is disposed along a height direction of the connection plate 22.

Referring to fig. 3, the sealing block 24 is welded on the side wall of the chute 12, the sealing block 24 is arranged along the length direction of the sealing plate 21, and a sliding inclined surface 241 for the sealing plate 21 to slide is arranged on the side surface of the sealing block 24; when the indoor temperature needs to be adjusted, the push-pull frame 11 is pulled to move, the push-pull frame 11 drives the sealing plate 21 to move, after the bottom wall of the sealing plate 21 extrudes the sliding inclined surface 241, the bottom wall of the sealing plate 21 is abutted to the top wall of the sealing block 24, the sealing block 24 pushes the sealing plate 21 to slide in the sealing groove 111, the sealing plate 21 pushes the connecting plate 22 to extend into the connecting groove 112, the connecting plate 22 extrudes the connecting spring 23, the connecting spring 23 is compressed and deformed, the connecting spring 23 acts against the connecting plate 22 in a reverse mode, the connecting plate 22 pushes the sealing plate 21 to extrude the sealing block 24, and therefore the sealing plate 21 and the sealing block 24 are attached to each other, and therefore a gap.

Referring to fig. 3, a filling pad 211 is adhered to a side of the sealing plate 21 away from the sealing block 24, and a side of the filling pad 211 away from the sealing plate 21 is attached to a side wall of the sealing groove 111; when the sealing block 24 presses the sealing plate 21, the sealing plate 21 presses the filling pad 211, and the filling pad 211 closes a gap between the sealing plate 21 and the sealing groove 111, so that the sealing property between the sealing plate 21 and the sealing groove 111 is improved; an anti-abrasion pad 242 is adhered to one side of the sealing block 24 close to the push-pull frame 11, and one side of the anti-abrasion pad 242 far away from the sealing block 24 is abutted against the side face of the push-pull frame 11; during the movement of the push-pull frame 11, the anti-wear pad 242 reduces the possibility of the push-pull frame 11 directly contacting the gasket 213, and reduces the possibility of the seal block 24 wearing the push-pull frame 11.

Referring to fig. 4 and 5, the bottom wall of the sealing plate 21 is provided with a clamping strip 212, the clamping strip 212 is arranged along the length direction of the sealing plate 21, the top wall of the sealing block 24 is provided with a clamping groove 243 for the clamping strip 212 to be inserted into, the side wall of the clamping strip 212 is adhered with a sealing gasket 213, and the side surface of the sealing gasket 213 is abutted against the side wall of the clamping groove 243; the sealing gasket 213 fills the gap between the card slot 243 and the card bar 212, which is beneficial to improving the sealing performance between the card bar 212 and the card slot 243.

Referring to fig. 4 and 5, a pressing groove 244 is arranged on the groove side wall of the clamping groove 243, the pressing groove 244 is arranged along the length direction of the clamping groove 243, a pressing block 245 is connected in the pressing groove 244 in a sliding manner, a resisting spring 246 is welded on the groove bottom wall of the pressing groove 244, one end of the resisting spring 246 is welded with the side surface of the pressing block 245, one end, far away from the resisting spring 246, of the pressing block 245 extends out of the pressing groove 244 and is attached to the side surface of the clamping strip 212, a resisting groove 214 for inserting the pressing block 245 is arranged on the side surface of the clamping strip 212, the resisting groove 214 increases the contact area between the pressing block 245 and the clamping strip 212, and the sealing performance between the pressing block 245 and the clamping strip.

Referring to fig. 4 and 5, a pressing block 245 is provided with a pressing inclined surface 247 on a side surface thereof, and the pressing inclined surface 247 is arranged toward a side of the clamping block inserted into the clamping groove 243; when the sealing plate 21 is attached to the sealing block 24, the clamping strip 212 is inserted into the clamping groove 243, the edge of the clamping strip 212 presses the abutting inclined surface 247, so that the pressing block 245 is pushed to extend into the pressing groove 244, the pressing block 245 pushes the abutting spring 246 to generate compression deformation, the abutting spring 246 reacts on the pressing block 245, and the pressing block 245 abuts against the clamping strip 212, so that the sealing performance between the sealing plate 21 and the sealing block 24 is further improved.

The implementation principle of the embodiment is as follows: when ventilation is needed indoors, the push-pull frame 11 is pulled to move in the sliding groove 12, so that the door and the window are opened by the push-pull frame 11, and the indoor ventilation is smooth; when the indoor temperature needs to be adjusted, the push-pull frame 11 is pulled reversely, the push-pull frame 11 closes the door and window, the sealing assembly 2 seals a gap between the push-pull frame 11 and the mounting frame 1, the possibility of heat transfer between the indoor and the outdoor is reduced, the energy consumed by adjusting the indoor temperature is reduced, and the energy saving performance of the door and window is improved.

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

Claims (7)

1. The utility model provides an energy-saving plastic-steel door and window which characterized in that: the mounting frame comprises a mounting frame (1) and a push-pull frame (11) arranged in the mounting frame (1), wherein a sliding groove (12) for the push-pull frame (11) to slide is formed in the inner side wall of the mounting frame (1), a sealing assembly (2) for sealing a gap between the push-pull frame (11) and the mounting frame (1) is arranged on the push-pull frame (11), and the sealing assembly (2) is located in the sliding groove (12); the sealing assembly (2) comprises a sealing plate (21) arranged on a push-pull frame (11), a connecting plate (22) arranged on the sealing plate (21) and a connecting spring (23) fixed on the connecting plate (22), wherein the connecting plate (22) is arranged along the thickness direction of the sealing plate (21), a sealing groove (111) is formed in the outer side wall of the push-pull frame (11), the sealing groove (111) is connected in the sealing groove (111) in a sliding manner, a connecting groove (112) is formed in the groove side wall of the sealing groove (111), the connecting plate (22) is connected in the connecting groove (112) in a sliding manner, one end, far away from the connecting plate (22), of the connecting spring (23) is fixedly connected with the groove bottom wall of the connecting groove (112), one side, far away from the connecting plate (22), of the sealing plate (21) extends out of the sealing groove (111), and a sealing, the sealing block (24) is located on the side of the sealing plate (21) remote from the connecting plate (22).

2. The energy-saving plastic-steel door and window of claim 1, characterized in that: the side face of the sealing plate (21) is provided with a filling pad (211), and the filling pad (211) is located on one side, far away from the sealing block (24), of the sealing plate (21).

3. The energy-saving plastic-steel door and window of claim 1, characterized in that: the side surface of the sealing plate (21) is provided with a clamping strip (212), and the side surface of the sealing block (24) is provided with a clamping groove (243) for the clamping strip (212) to be inserted.

4. The energy-saving plastic-steel door and window of claim 3, characterized in that: be equipped with indent (244) on the groove lateral wall of draw-in groove (243), sliding is connected with briquetting (245) in indent (244), be equipped with on the side of briquetting (245) and support tight spring (246), support the one end that tight spring (246) kept away from briquetting (245) with the tank bottom wall of indent (244) contradicts, briquetting (245) are kept away from one side of supporting tight spring (246) with the side of card strip (212) is contradicted.

5. The energy-saving plastic-steel door and window of claim 3, characterized in that: and a sealing gasket (213) is arranged on the side surface of the clamping strip (212).

6. The energy-saving plastic-steel door and window of claim 1, characterized in that: and an anti-abrasion pad (242) is arranged on the side surface of the sealing block (24), and the anti-abrasion pad (242) is abutted to the outer side wall of the push-pull frame (11).

7. The energy-saving plastic-steel door and window of claim 4, characterized in that: and a pressing groove (214) for inserting the pressing block (245) is arranged on the side surface of the clamping strip (212).

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