CN213573648U - Novel non-heat-insulation type sliding door - Google Patents

Abstract

A novel non-heat-insulation type sliding door relates to the technical field of sliding doors. It includes: the door frame is fixedly arranged on the wall body; the door leaf frame is arranged in the door frame and is assembled with the door frame in a sliding manner; the door plate is arranged in the door leaf frame and is detachably assembled with the door leaf frame; and the installation component is arranged between the door panel and the door leaf frame and is used for realizing detachable assembly between the door panel and the door leaf frame. Adopt above-mentioned technical scheme's novel thermal-insulated type push-and-pull door of non-, it realizes assembling when dismantling between door plant and the door leaf frame through the installation component, and door leaf frame and door frame all realize detachable assembly through long screw, and the push-and-pull door that sets up like this has construction convenience, and the transportation is convenient, easy dismounting, and the installation conversion is convenient, the advantage that the appearance is pleasing to the eye.

Description

Novel non-heat-insulation type sliding door

Technical Field

The utility model relates to a push-and-pull door technical field, concretely relates to novel thermal-insulated type push-and-pull door of non-.

Background

At present, the overall appearance effect of the door is higher and higher due to the fact that the shorter the market is to the overall construction period of the building exterior wall door and the higher and higher cost requirements are. Meanwhile, the door frame, the door leaf frame and the glass press strip are not only stressed components of the door, but also become organic components of the whole building door more and more deeply, and participate in the functional construction of the decoration of the whole building door more and more. The glass installation mode directly influences the construction period, construction transportation, cost, appearance, stress state and waterproof performance of the whole door.

The glass of the existing sliding door is usually installed on the door frame and fixed by the way of glass cement. The sliding door that sets up like this can play good fixed action to the glass of installing on the door frame, but its construction cycle is long, and construction process is complicated, and the installation is inconvenient, consequently, awaits improvement.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a novel thermal-insulated type push-and-pull door of non-, it realizes through the installation component that the assembly when can dismantle between door plant and the door leaf frame, and door leaf frame and door frame all realize detachable assembly through the long screw, and the push-and-pull door that sets up like this has construction convenience, and convenient transportation, easy dismounting, it is convenient that the installation is changed, the pleasing to the eye advantage of appearance.

In order to achieve the above object, the utility model adopts the following technical scheme: a novel non-insulated sliding door comprising: the door frame is fixedly arranged on the wall body; the door leaf frame is arranged in the door frame and is assembled with the door frame in a sliding manner; the door plate is arranged in the door leaf frame and is detachably assembled with the door leaf frame; and the installation component is arranged between the door panel and the door leaf frame and is used for realizing detachable assembly between the door panel and the door leaf frame.

Further, the mounting assembly includes: door plate pressing strips and flexible adhesive tapes; the door plate pressing strip is clamped and assembled with the door leaf frame, and the door plate pressing strip is used for tightly abutting the door plate against the door leaf frame; the flexible adhesive tape is arranged between the door plate pressing strip and the door plate and is fastened with the door plate pressing strip, and the flexible adhesive tape is used for filling a gap between the door plate pressing strip and the door plate so as to meet the sealing requirement.

Furthermore, a first buckling groove is formed in one side, close to the door leaf frame, of the door panel pressing strip, and a first buckling connector assembled with the first buckling groove is formed in the door leaf frame.

Furthermore, a second buckling groove is formed in one side, close to the door plate, of the door plate pressing strip, the interior of the flexible adhesive tape is hollow, and a second buckling connector assembled with the second buckling groove is formed in the flexible adhesive tape.

Further, the doorjamb comprises: the door comprises a door side frame, a door upper frame and a door lower frame, wherein the door side frame, the door upper frame and the door lower frame are fixedly assembled through long screws.

Further, the door frame includes: the door comprises a door edge vertical leaf frame, a door middle and outer vertical leaf frame, a door middle and inner vertical leaf frame, a door upper horizontal leaf frame and a door lower horizontal leaf frame; the door edge vertical leaf frame, the door upper transverse leaf frame and the door lower transverse leaf frame are respectively provided with two blocks, and the door edge vertical leaf frame, the door middle vertical leaf frame, the door upper transverse leaf frame and the door lower transverse leaf frame are fixedly assembled through long screws; the door edge vertical leaf frame, the door middle inner vertical leaf frame, the door upper transverse leaf frame and the door lower transverse leaf frame are fixedly assembled through long screws.

Furthermore, a limiting structure is arranged between the outer vertical leaf frame in the door and the inner vertical leaf frame in the door.

Further, limit structure includes: the buffer comprises a first limiting part, a buffer part and a second limiting part; the first limiting part is arranged on the door middle outer vertical leaf frame, and the first limiting part is positioned between the door middle outer vertical leaf frame and the door middle inner vertical leaf frame; the second limiting part is arranged on the door middle inner vertical leaf frame and is positioned between the door middle outer vertical leaf frame and the door middle inner vertical leaf frame, and the second limiting part is used for being matched with the first limiting part; the buffer piece is arranged on the first limiting part and/or the second limiting part and used for reducing impact force generated when the first limiting part is matched with the second limiting part.

After the technical scheme is adopted, the utility model discloses beneficial effect does: when the sliding door is installed, the door side frame, the door lower frame and the door upper frame are fixed through long screws, and the door side vertical leaf frame and the door outer vertical leaf frame, the door upper transverse leaf frame and the door lower transverse leaf frame are fixedly assembled through the long screws; meanwhile, fixedly assembling the door edge vertical leaf frame, the door middle inner vertical leaf frame, the door upper horizontal leaf frame and the door lower horizontal leaf frame; then two door leaf frames which are assembled are installed in the door frame, then the door plate is installed on the door leaf frame, the flexible adhesive tape is buckled in the second buckling groove, the door plate pressing strip buckled with the flexible adhesive tape is buckled with the door leaf frame, the door plate pressing strip is buckled with the first buckling head through the first buckling groove, and the door plate is abutted against the installation position of the door leaf frame. The push-and-pull door that sets up like this, it is through the installation component assembly when realizing dismantling between door plant and the door leaf frame, and door leaf frame and door frame all realize detachable assembly through the long screw, and the push-and-pull door that sets up like this has construction convenience, and the transportation is convenient, easy dismounting, and the installation conversion is convenient, the pleasing to the eye advantage of appearance.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic structural view of the present embodiment after being cut transversely;

FIG. 2 is a schematic structural view of the present embodiment taken along the vertical direction;

fig. 3 is an enlarged view corresponding to detail a in fig. 1.

Description of reference numerals: 100. a door jamb; 110. a door jamb; 120. a door upper frame; 130. a lower door jamb; 200. a door leaf frame; 210. a first snap joint; 220. a door edge vertical leaf frame; 230. the outer vertical fan frame in the door; 240. a vertical sash frame is arranged in the door; 250. a door upper sash frame; 260. a lower door horizontal leaf frame; 300. a door panel; 400. mounting the component; 401. a first snap groove; 402. a second fastening groove; 410. door plate layering; 420. a flexible batten; 421. a second snap joint; 500. a limiting structure; 501. mounting grooves; 510. a first limiting part; 520. a second limiting part; 530. a buffer.

Detailed Description

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

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment as required without making a contribution, but all the embodiments are protected by the patent law within the scope of the claims of the present invention.

This embodiment relates to a novel non-thermal-insulated type push-and-pull door, as shown in fig. 1-3, includes: door jamb 100, door sash frame 200, door panel 300, and mounting assembly 400.

Specifically, as shown in fig. 1-3, the doorjamb 100 is fixedly mounted to a wall. The door frame 200 is disposed in the door frame 100 and is slidably assembled with the door frame 100. The door panel 300 is installed in the door frame 200 and detachably assembled with the door frame 200. The installation component 400 is disposed between the door panel 300 and the door sash frame 200, and the installation component 400 is used for realizing detachable assembly between the door panel 300 and the door sash frame 200. In the present embodiment, the door panel 300 is a glass plate. In other embodiments, the door panel 300 may also be a wood panel, acrylic panel, iron panel, steel panel, or the like.

Further, as shown in fig. 1-3, the mounting assembly 400 includes: door plant layering and flexible adhesive tape. Wherein, the door panel pressing strip is assembled with the door panel frame 200 in a clamping way. The door panel pressing strip is used for tightly abutting the door panel 300 against the door leaf frame 200. The flexible adhesive tape is arranged between the door panel pressing strip and the door panel 300 and is buckled with the door panel pressing strip. The flexible adhesive tape is used for filling the gap between the door panel pressing strip and the door panel 300 so as to meet the sealing requirement.

Preferably, as shown in fig. 1 to 3, a first fastening groove 401 is formed on the door panel pressing bar at a side close to the door frame 200, and a first fastening connector 210 assembled with the first fastening groove 401 is formed on the door frame 200. The door panel pressing bar is matched with the first buckling connector 210 through the first buckling groove 401, and the door panel pressing bar is pressed on the door leaf frame 200.

Preferably, as shown in fig. 1 to 3, a second fastening groove 402 is provided on one side of the door panel pressing strip close to the door panel 300, the interior of the flexible adhesive tape is hollow, and a second fastening head 421 assembled with the second fastening groove 402 is provided on the flexible adhesive tape.

Further, as shown in fig. 1-3, the doorjamb 100 comprises: a door side frame 110, a door upper frame 120, and a door lower frame 130. The door side frame 110, the door upper frame 120 and the door lower frame 130 are fixedly assembled with each other by means of long screws.

Further, as shown in fig. 1 to 3, the door frame 200 includes: a door side vertical leaf frame 220, a door middle external vertical leaf frame 230, a door middle internal vertical leaf frame 240, a door upper horizontal leaf frame 250 and a door lower horizontal leaf frame 260. Two door side vertical leaf frames 220, two door upper horizontal leaf frames 250 and two door lower horizontal leaf frames 260 are arranged. The door edge vertical leaf frame 220, the door middle vertical leaf frame 230, the door upper horizontal leaf frame 250 and the door lower horizontal leaf frame 260 are fixedly assembled through long screws to form a first door. The door edge vertical leaf frame 220 and the door middle inner vertical leaf frame 240, the door upper horizontal leaf frame 250 and the door lower horizontal leaf frame 260 are also fixedly assembled through long screws to form a second door. The first door and the second door are both slidably mounted on the door frame 100, and the first door and the second door can move independently or together, so as to realize pushing and pulling.

Preferably, in order to avoid the first door and the second door from colliding with each other to generate noise, a limiting structure 500 is disposed between the outer vertical leaf frame 230 and the inner vertical leaf frame 240.

Specifically, as shown in fig. 1-3, the limiting structure 500 includes: a first position-limiting portion 510, a buffer 530 and a second position-limiting portion 520. The first position-limiting portion 510 is disposed on the door outer vertical leaf frame 230, and the first position-limiting portion 510 is located between the door outer vertical leaf frame 230 and the door inner vertical leaf frame 240. The second position-limiting part 520 is disposed on the door middle inner vertical leaf frame 240 and located between the door middle outer vertical leaf frame 230 and the door middle inner vertical leaf frame 240. The second position-limiting portion 520 is used for matching with the first position-limiting portion 510. The buffer 530 is disposed on the first position-limiting portion 510 and/or the second position-limiting portion 520. The buffer 530 is used for absorbing the impact force generated when the first position-limiting portion 510 is engaged with the second position-limiting portion 520. In this embodiment, the first limiting portion 510 and the second limiting portion 520 are bent to form a mounting groove 501, and the cushion 530 is mounted in the mounting groove 501 of the first limiting portion 510.

The working principle of the present embodiment is roughly as follows: when the sliding door is installed, the door side frame 110, the door lower frame 130 and the door upper frame 120 are fixed through long screws, and the door side vertical leaf frame 220 and the door outer vertical leaf frame 230, the door upper horizontal leaf frame 250 and the door lower horizontal leaf frame 260 are fixedly assembled through the long screws; meanwhile, the door side vertical leaf frame 220 is fixedly assembled with the door middle inner vertical leaf frame 240, the door upper horizontal leaf frame 250 and the door lower horizontal leaf frame 260; then, two door leaf frames 200 which are assembled are installed in the door frame 100, then, the door panel 300 is installed on the door leaf frames 200, the flexible adhesive tape is buckled in the second buckling groove 402, the door panel pressing strip buckled with the flexible adhesive tape is buckled with the door leaf frames 200, the door panel pressing strip is buckled with the first buckling head through the first buckling groove, and the door panel 300 is abutted against the installation position of the door leaf frames 200. The push-and-pull door that sets up like this, it is through installation component 400 realize the assembly when can dismantle between door plant 300 and the door leaf frame 200, and door leaf frame 200 and door frame 100 all realize detachable assembly through the long screw, and the push-and-pull door that sets up like this has construction convenience, and the transportation is convenient, easy dismounting, and it is convenient to install the conversion, advantage that the appearance is pleasing to the eye.

The above description is only for the purpose of illustration and not limitation, and other modifications or equivalent replacements made by those skilled in the art to the technical solution of the present invention should be covered by the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solution of the present invention.

Claims (8)

1. A novel non-insulated sliding door, comprising:

the door frame (100), the said door frame (100) is fixedly mounted on wall;

the door frame (200), the door frame (200) is arranged in the door frame (100), and is assembled with the door frame (100) in a sliding way;

the door panel (300) is installed in the door leaf frame (200), and is detachably assembled with the door leaf frame (200);

and the installation component (400) is arranged between the door panel (300) and the door leaf frame (200) and is used for realizing the detachable assembly between the door panel (300) and the door leaf frame (200).

2. A new non-insulated sliding door according to claim 1, characterized in that said mounting assembly (400) comprises: door plate pressing strips and flexible adhesive tapes;

the door panel pressing strip is clamped and assembled with the door leaf frame (200), and the door panel pressing strip is used for tightly abutting the door panel (300) against the door leaf frame (200);

the flexible adhesive tape is arranged between the door panel pressing strip and the door panel (300) and is fastened with the door panel pressing strip, and the flexible adhesive tape is used for filling a gap between the door panel pressing strip and the door panel (300) so as to meet the sealing requirement.

3. A novel non-insulated sliding door according to claim 2, wherein the door panel batten has a first fastening groove (401) on one side near the door leaf frame (200), and the door leaf frame (200) has a first fastening joint (210) assembled with the first fastening groove (401).

4. The novel non-insulated sliding door according to claim 3, wherein a second fastening groove (402) is provided on the door panel pressing bar near the door panel (300), the flexible adhesive tape is hollow, and a second fastening joint (421) assembled with the second fastening groove (402) is provided on the flexible adhesive tape.

5. A new non-insulated sliding door according to claim 4, characterized in that said jamb (100) comprises: the door comprises a door side frame (110), a door upper frame (120) and a door lower frame (130), wherein the door side frame (110), the door upper frame (120) and the door lower frame (130) are fixedly assembled through long screws.

6. A new non-insulated sliding door according to claim 5, characterized in that said door leaf frame (200) comprises: a door edge vertical leaf frame (220), a door middle and outer vertical leaf frame (230), a door middle and inner vertical leaf frame (240), a door upper horizontal leaf frame (250) and a door lower horizontal leaf frame (260); the door edge vertical leaf frame (220), the door upper horizontal leaf frame (250) and the door lower horizontal leaf frame (260) are respectively provided with two blocks, and the door edge vertical leaf frame (220), the door middle vertical leaf frame (230), the door upper horizontal leaf frame (250) and the door lower horizontal leaf frame (260) are fixedly assembled through long screws; the door edge vertical leaf frame (220), the door middle inner vertical leaf frame (240), the door upper horizontal leaf frame (250) and the door lower horizontal leaf frame (260) are also fixedly assembled through long screws.

7. A novel non-insulated sliding door according to claim 6, characterised in that a stop structure (500) is provided between the outer vertical leaf frame (230) and the inner vertical leaf frame (240) of the door.

8. A new non-insulated sliding door according to claim 7, characterized in that said stop structure (500) comprises: a first limit part (510), a buffer (530) and a second limit part (520);

the first limiting part (510) is arranged on the door middle outer vertical leaf frame (230), and the first limiting part (510) is positioned between the door middle outer vertical leaf frame (230) and the door middle inner vertical leaf frame (240);

the second limiting part (520) is arranged on the door middle vertical leaf frame (240) and is positioned between the door middle vertical leaf frame (230) and the door middle vertical leaf frame (240), and the second limiting part (520) is used for being matched with the first limiting part (510);

the buffer piece (530) is arranged on the first limiting part (510) and/or the second limiting part (520), and the buffer piece (530) is used for reducing impact force generated when the first limiting part (510) is matched with the second limiting part (520).

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