CN211900293U

CN211900293U - Energy-conserving push-and-pull door of comprehensive screen

Info

Publication number: CN211900293U
Application number: CN201922306456.1U
Authority: CN
Inventors: 梁晓东
Original assignee: Guangdong Fulinmen Shijia Smart Home Co ltd
Current assignee: Guangdong Fulinmen Shijia Smart Home Co ltd
Priority date: 2019-12-19
Filing date: 2019-12-19
Publication date: 2020-11-10
Anticipated expiration: 2029-12-19

Abstract

The utility model discloses an energy-conserving push-and-pull door of comprehensive screen, it includes the door frame, with but push-and-pull mode movable mounting in the door frame and the first, the second glass casement that the structure is the same, first glass casement including: the frame is provided with a first flange and a second flange which protrude outwards respectively on the outer edges of the front end surface and the rear end surface, a first mounting position is formed between the front end surface of the frame and the first flange, and a second mounting position is formed between the rear end surface of the frame and the second flange; the side edge of the first glass is arranged in the first installation position and is fixed through a shadowless adhesive, and the first glass is in contact with the first flange; and the side edge of the second glass is arranged in the second mounting position and is fixed by the shadowless glue, and the second glass is in contact with the second stop edge. Only the first glass and the second glass are exposed from the whole first glass window sash, so that the requirement of a full-face screen is met, and the appearance of the whole first glass window sash is more attractive; the first glass window sash assembling structure is more stable and has longer service life.

Description

Energy-conserving push-and-pull door of comprehensive screen

The technical field is as follows:

the utility model relates to a push-and-pull door technical field refers in particular to an energy-conserving push-and-pull door of comprehensive screen.

Background art:

the sliding door is a common household door and can be pushed and pulled. With the development of technology and the diversification of decoration means, the functions and the application range of the sliding door are continuously expanded from the surface of the traditional plate material to glass, cloth, rattan plaited materials and aluminum alloy sectional materials and from the sliding door, the folding door to the partition door.

The existing sliding door generally comprises a door frame and a glass window sash which is movably arranged in the door frame in a push-pull mode and can open or close the door frame, wherein the glass window sash comprises a frame and glass arranged on the inner side of the frame, the glass window sash of the structure highlights the whole frame, namely the frame is large in display size and extremely unattractive, and in addition, the assembly structure of the frame and the glass is not stable enough.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art not enough, provide an energy-conserving push-and-pull door of comprehensive screen.

In order to solve the technical problem, the utility model discloses a following technical scheme: this energy-conserving push-and-pull door of comprehensive screen includes the door frame, with first glass casement and the second glass casement of push-and-pull mode movable mounting in the door frame and openable or close the door frame, first glass casement including: the frame is provided with a first flange and a second flange which protrude outwards respectively on the outer edges of the front end surface and the rear end surface of the frame, a first mounting position is formed between the front end surface of the frame and the first flange, and a second mounting position is formed between the rear end surface of the frame and the second flange; the side edge of the first glass is arranged in the first installation position and is fixed through a shadowless adhesive, and the first glass is in contact with the first flange; the side edge of the second glass is arranged in the second installation position and is fixed through a shadowless adhesive, and the second glass is in contact with the second stop edge; the structure of the second glass window sash is the same as that of the first glass window sash.

Further, in the above technical solution, a first receiving groove and a second receiving groove and a first protrusion located between the first receiving groove and the second receiving groove are formed on the inner side of the door frame; a third accommodating groove for the first convex part to be embedded into, and a second convex part and a third convex part which are positioned at two sides of the third accommodating groove are arranged on the outer side surface of the frame, and the first convex part is embedded into the third accommodating groove and is in sealing contact with the third accommodating groove; the edges of the second convex part and the first glass are embedded into the first accommodating groove and are in sealed contact with each other; the third convex part and the edge of the second glass are embedded into the second accommodating groove and are in sealing contact with each other.

Further, in the above technical solution, a first sealing strip is disposed on a side wall of the first accommodating groove, and the first sealing strip is in sealing contact with the first glass; a first buffer barrier strip is arranged at the bottom of the first accommodating groove and is in contact with the second convex part, a second sealing strip is arranged on the inner wall of the second convex part, and the second sealing strip is in sealing contact with the outer wall of the first convex part; a third sealing strip is arranged on the side wall of the second accommodating groove and is in sealing contact with the second glass; the bottom of the second accommodating groove is provided with a second buffer barrier strip, the second buffer barrier strip is in contact with the third convex part, the inner wall of the third convex part is provided with a fourth sealing strip, and the fourth sealing strip is in sealing contact with the outer wall of the second convex part.

Further, in the above technical scheme, an F-shaped first anti-dropping section bar is arranged on the outer side of the first glass window sash, and a first anti-collision rubber strip is arranged on the inner side of the first anti-dropping section bar; and a second anti-falling section bar which is in an F shape and is matched with the first anti-falling section bar is arranged on the outer side of the second glass window sash, and a second anti-collision rubber strip is arranged on the inner side of the second anti-falling section bar.

Furthermore, in the above technical solution, a door pocket line assembly is disposed at an outer side of the door frame, and is assembled with the wall through the door pocket line assembly.

Furthermore, in the above technical solution, the door pocket line assembly includes a first F-groove profile and a second F-groove profile that are installed on two sides of the door frame in a pressing manner, a first door pocket line that is sleeved on the periphery of the first F-groove profile, a connecting plate that is inserted into the second F-groove profile and is retractable to adjust the length, and a second door pocket line that is sleeved on the periphery of the connecting plate.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model discloses the outside edge of both ends face is moulded respectively around the frame and is had the first flange and the second flange that the evagination extends to form first installation position and first installation position with both ends face around the frame respectively, wherein, the side of first glass and second glass is installed respectively in this first, second installation position, and it is fixed through the shadowless glue, at this moment, whole first glass casement only exposes the first flange and the second flange of frame, and the thickness of first flange and second flange is thin, so that can regard whole first glass casement to only expose first glass and second glass basically, reach the requirement of full-face screen, make whole first glass casement appearance more pleasing to the eye; in addition, as the side edges of the first glass and the second glass are respectively arranged in the first installation position and the second installation position, namely are attached to the front end face and the rear end face of the whole frame, the contact area is large, and after the first glass and the second glass are fixed through the shadowless glue, the structure is more stable, and the service life is longer.

Description of the drawings:

FIG. 1 is a block diagram of the present invention;

fig. 2 is a schematic view of a partial structure of the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

As shown in fig. 1-2, the energy-saving sliding door with a full-face screen comprises a door frame 1, a first glass window sash 2 and a second glass window sash 3, wherein the first glass window sash 2 and the second glass window sash are movably arranged in the door frame 1 in a sliding manner and can open or close the door frame 1, and the first glass window sash 2 comprises: a frame 21, wherein a first retaining edge 211 and a second retaining edge 212 which protrude outwards are respectively formed on the outer edges of the front end surface and the rear end surface of the frame 21, a first mounting position is formed between the front end surface of the frame 21 and the first retaining edge 211, and a second mounting position is formed between the rear end surface of the frame 21 and the second retaining edge 212; a first glass 22, the side edge of which is installed in the first installation position and is fixed by a shadowless adhesive, and the first glass 22 is contacted with the first rib 211; a second glass 23, the side edge of which is installed in the second installation position and is fixed by a shadowless adhesive, and the second glass 23 is contacted with the second rib 212; the structure of the second glass window sash 3 is the same as that of the first glass window sash 2. The utility model discloses the outside edge of both ends face is moulded respectively around frame 21 has the first flange 211 and the second flange 212 of outside protrusion to form first installation position and first installation position with frame 21 front and back both ends face respectively, wherein, the side of first glass 22 and second glass 23 is installed respectively in this first, second installation position, and it is solid through the shadowless glue, at this moment, whole face first glass casement 2 only exposes the first flange 211 and the second flange 212 of frame 21, and the thickness of first flange 211 and second flange 212 is thin, so that can regard whole face first glass casement 2 to only expose first glass 22 and second glass 23 basically, reach the requirement of full-face screen, make whole first glass casement 2 appearance more pleasing to the eye; in addition, because the side edges of the first glass 22 and the second glass 23 are respectively arranged in the first installation position and the second installation position, namely are attached to the front end face and the rear end face of the whole frame 21, the contact area is large, and after the first glass and the second glass are fixed through a shadowless glue, the structure is more stable, and the service life is longer.

The first glass 22 and the second glass 23 are non-white high-transmittance tempered glass.

A first accommodating groove 11, a second accommodating groove 12 and a first convex part 13 positioned between the first accommodating groove 11 and the second accommodating groove 12 are formed in the inner side of the doorframe 1; a third receiving groove 213 for the first protrusion 13 to be inserted into, and a second protrusion 214 and a third protrusion 215 located at two sides of the third receiving groove 213 are disposed on an outer side surface of the frame 21, and the first protrusion 13 is inserted into the third receiving groove 213 and is in sealed contact with the third receiving groove; the second protrusion 214 and the edge of the first glass 22 are embedded in the first receiving groove 11 and are in sealing contact with each other; the third convex part 215 and the edge of the second glass 23 are embedded into the second accommodating groove 12 and are in sealing contact with each other, so that the first glass window sash 2 is guaranteed to be in staggered clamping positioning with the inner side of the door frame 1 after being butted, the structure is more stable, multiple sealing contacts are arranged between the first glass window sash and the door frame, and the waterproof and soundproof effects are guaranteed to be ideal. Specifically, the side wall of the first receiving groove 11 is provided with a first sealing strip 111, and the first sealing strip 111 is in sealing contact with the first glass 22; the bottom of the first receiving groove 11 is provided with a first buffer bar 112, and the first buffer bar 112 contacts with the second protrusion 214, so as to prevent damage or noise caused by direct impact; a second sealing strip 216 is arranged on the inner wall of the second convex part 214, and the second sealing strip 216 is in sealing contact with the outer wall of the first convex part 13; a third sealing strip 121 is arranged on the side wall of the second accommodating groove 12, and the third sealing strip 121 is in sealing contact with the second glass 23; a second buffer bar 122 is disposed at the bottom of the second accommodating groove 12 to prevent damage or noise caused by direct impact; the second buffer bar 122 contacts with the third protrusion 215, and a fourth sealing strip 217 is disposed on the inner wall of the third protrusion 215, and the fourth sealing strip 217 contacts with the outer wall of the second protrusion 214 in a sealing manner.

The outer side of the first glass sash 2 is provided with an F-shaped first anti-falling section bar 24, and the inner side of the first anti-falling section bar 24 is provided with a first anti-collision rubber strip 241; the second anti-falling section bar 31 which is F-shaped and matched with the first anti-falling section bar 24 is arranged on the outer side of the second glass window sash 3, the second anti-falling section bar 311 is arranged on the inner side of the second anti-falling section bar 31, the first glass window sash 2 and the second glass window sash 3 are prevented from sliding in a staggered mode, the first glass window sash 2 and the second glass window sash 3 are guaranteed to slide towards the left side and the right side oppositely and cannot be separated from each other, when the first anti-falling section bar 24 and the second anti-falling section bar 31 are about to collide, the first anti-falling adhesive tape 241 is in contact with the second anti-falling adhesive tape 311 first, and damage or noise generation caused by metal collision.

The door frame 1 is provided at the outside thereof with a door pocket wire assembly 14, and is assembled with a wall by means of the door pocket wire assembly 14. The door pocket line assembly 14 includes a first F-groove section 141 and a second F-groove section 142 which are installed at two sides of the door frame 1 in a pressing manner, a first door pocket line 143 which is sleeved on the periphery of the first F-groove section 141, a connecting plate 144 which is inserted into the second F-groove section 142 and is telescopic to adjust the length, and a second door pocket line 145 which is sleeved on the periphery of the connecting plate 144. The door pocket line assembly 14 can be adjusted in a telescopic mode, and is more convenient to use.

To sum up, the utility model discloses the outside edge of both ends face is moulded respectively and is had the first flange 211 and the second flange 212 that outwards stretch around frame 21 to form first installation position and first installation position with frame 21 front and back both ends face respectively, wherein, the side of first glass 22 and second glass 23 is installed respectively in this first, second installation position, and pass through the shadowless glue and solidify, at this moment, whole face first glass casement 2 only exposes first flange 211 and second flange 212 of frame 21, and the thickness of first flange 211 and second flange 212 is thin, so that can think basically that whole face first glass casement 2 only exposes first glass 22 and second glass 23, reach the requirement of full face screen, make whole first glass casement 2 appearance more pleasing to the eye; in addition, because the side edges of the first glass 22 and the second glass 23 are respectively arranged in the first installation position and the second installation position, namely are attached to the front end face and the rear end face of the whole frame 21, the contact area is large, and after the first glass and the second glass are fixed through a shadowless glue, the structure is more stable, and the service life is longer.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims

1. An energy-saving sliding door with a comprehensive screen comprises a door frame (1), a first glass window sash (2) and a second glass window sash (3) which are movably arranged in the door frame (1) in a push-pull mode and can open or close the door frame (1),

the method is characterized in that: the first glass sash (2) comprises:

the frame (21), the outside edge of both ends face forms the first flange (211) and the second flange (212) that outwardly convex respectively around the frame (21), there is the first installation position between first flange (211) and the front end face of the frame (21), there is the second installation position between second flange (212) and the back end face of the frame (21);

the side edge of the first glass (22) is arranged in the first installation position and is fixed by shadowless glue, and the first glass (22) is contacted with the first rib (211);

a second glass (23) with side edges installed in the second installation position and fixed by shadowless glue, wherein the second glass (23) is in contact with the second rib (212);

the structure of the second glass window sash (3) is the same as that of the first glass window sash (2).

2. The full-screen energy-saving sliding door according to claim 1, characterized in that: a first containing groove (11), a second containing groove (12) and a first convex part (13) positioned between the first containing groove (11) and the second containing groove (12) are arranged on the inner side of the door frame (1); a third accommodating groove (213) for the first convex part (13) to be embedded into, and a second convex part (214) and a third convex part (215) which are positioned at two sides of the third accommodating groove (213) are arranged on the outer side surface of the frame (21), and the first convex part (13) is embedded into the third accommodating groove (213) and is in sealing contact with the third accommodating groove; the second convex part (214) and the edge of the first glass (22) are embedded into the first containing groove (11) and are in sealed contact; the third convex part (215) and the edge of the second glass (23) are embedded into the second containing groove (12) and are in sealing contact.

3. The full-screen energy-saving sliding door according to claim 2, characterized in that: a first sealing strip (111) is arranged on the side wall of the first accommodating groove (11), and the first sealing strip (111) is in sealing contact with the first glass (22); a first buffer barrier strip (112) is arranged at the bottom of the first accommodating groove (11), the first buffer barrier strip (112) is in contact with the second convex part (214), a second sealing strip (216) is arranged on the inner wall of the second convex part (214), and the second sealing strip (216) is in sealing contact with the outer wall of the first convex part (13); a third sealing strip (121) is arranged on the side wall of the second accommodating groove (12), and the third sealing strip (121) is in sealing contact with the second glass (23); the bottom of the second accommodating groove (12) is provided with a second buffer barrier strip (122), the second buffer barrier strip (122) is in contact with the third convex part (215), the inner wall of the third convex part (215) is provided with a fourth sealing strip (217), and the fourth sealing strip (217) is in sealing contact with the outer wall of the second convex part (214).

4. A full screen energy saving sliding door according to any one of claims 1 to 3, characterized in that: an F-shaped first anti-falling section bar (24) is arranged on the outer side of the first glass window sash (2), and a first anti-collision rubber strip (241) is arranged on the inner side of the first anti-falling section bar (24); and a second anti-falling section bar (31) which is in an F shape and is matched with the first anti-falling section bar (24) is arranged on the outer side of the second glass window sash (3), and a second anti-collision rubber strip (311) is arranged on the inner side of the second anti-falling section bar (31).

5. The full-screen energy-saving sliding door according to claim 4, characterized in that: the outer side of the door frame (1) is provided with a door pocket line assembly (14), and the door pocket line assembly (14) is combined and assembled with a wall.

6. The full-screen energy-saving sliding door according to claim 5, characterized in that: the door pocket line assembly (14) comprises a first F-shaped groove section bar (141) and a second F-shaped groove section bar (142) which are installed on two sides of the door frame (1) in a pressing mode, a first door pocket line (143) sleeved on the periphery of the first F-shaped groove section bar (141), a connecting plate (144) which is inserted into the second F-shaped groove section bar (142) and can stretch out and draw back to adjust the length, and a second door pocket line (145) sleeved on the periphery of the connecting plate (144).