CN215408132U - Door and window connecting structure for realizing bridge cut-off heat insulation - Google Patents

Abstract

The utility model is suitable for the technical field of doors and windows, and provides a door and window connecting structure for realizing bridge cut-off heat insulation, which comprises an outer frame body, an inner frame body and a heat insulation connecting assembly arranged between the outer frame body and the inner frame body, wherein the outer frame body and the inner frame body are respectively provided with an installation slide rail, and the heat insulation connecting assembly comprises: the connecting parts are respectively arranged on the opposite inner sides of the outer frame body and the inner frame body, and an embedding groove is correspondingly formed between the two connecting parts; the main cutoff bridge is embedded in the embedding groove, and heat insulation pieces and heat insulation cavities are arranged in the main cutoff bridge at intervals; the door and window connecting structure provided by the utility model has the advantages of good heat insulation effect, good waterproof performance and the like, and is beneficial to use.

Description

Door and window connecting structure for realizing bridge cut-off heat insulation

Technical Field

The utility model belongs to the technical field of doors and windows, and particularly relates to a door and window connecting structure for realizing bridge cut-off heat insulation.

Background

In the heat insulation structure of a house, particularly, the cold bridge effect and the heat bridge effect brought by a door and window frame are far higher than those of other parts, and because the door and window frame structure is relatively complex and has high requirements on materials, common materials cannot simultaneously give consideration to heat insulation property, durability and usability.

In general building construction, the heat insulation performance of a house is considered, and sliding window gliding aluminum profiles are mostly adopted in the existing doors and windows.

However, such a door and window connecting structure has a disadvantage of poor heat insulation effect, and is not suitable for use.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to provide a door and window connecting structure for realizing bridge cut-off heat insulation, and aims to solve the problems of poor heat insulation effect and inconvenience in use.

The embodiment of the utility model is realized in such a way, the heat insulation connecting assembly comprises an outer frame body, an inner frame body and a heat insulation connecting assembly arranged between the outer frame body and the inner frame body, installation sliding rails are respectively installed on the outer frame body and the inner frame body, and the heat insulation connecting assembly comprises:

the connecting parts are respectively arranged on the opposite inner sides of the outer frame body and the inner frame body, and an embedding groove is correspondingly formed between the two connecting parts;

the main cutoff bridge is embedded in the embedding groove, and heat insulation pieces and heat insulation cavities are arranged in the main cutoff bridge at intervals;

and the heat insulation cavity is stored with cooling liquid.

Preferably, the heat insulation pieces and the heat insulation cavities are uniformly distributed in a plurality of groups along the width direction of the caulking groove.

Preferably, the caulking groove is dovetail-shaped, and the main isolating bridge is matched with the caulking groove.

Preferably, the connecting parts are arc-shaped, and arc-shaped convex parts of the two connecting parts are oppositely arranged.

Preferably, a first auxiliary separating bridge and a second auxiliary separating bridge are respectively arranged at the top and the bottom of the main separating bridge and between the two connecting parts.

Preferably, the first auxiliary partition bridge is flush with the top surfaces of the outer frame body and the inner frame body, and the first auxiliary partition bridge is mounted on the connecting portion by bolts;

the second pair of partition bridges are embedded between the two connecting parts.

Preferably, the heat insulation foam is filled between the top of the main partition bridge and the first auxiliary partition bridge, and between the bottom of the main partition bridge and the second auxiliary partition bridge.

Preferably, still include the waterproof isolation subassembly that sets up inside the inner frame, waterproof isolation subassembly includes:

the water retaining piece is connected in an open slot on the inner frame body in a sliding manner;

the blocking elastic piece is connected between one side of the water retaining piece and the mounting slide rail of the inner frame body; and

the retaining member is installed on the inner frame body and used for locking the water retaining member on the inner frame body after the water retaining member slides.

The embodiment of the utility model provides a door and window connecting structure for realizing bridge cut-off heat insulation, and the door and window connecting structure for realizing bridge cut-off heat insulation is provided in the embodiment of the utility model, and double effects of heat insulation and heat preservation are formed by arranging heat insulation pieces and heat insulation cavities in a main partition bridge at intervals; the heat insulation effect of the main partition bridge is best exerted by the arc arrangement of the connecting part and the relative arrangement of the arc convex parts; and has better waterproof and insulating properties.

Drawings

Fig. 1 is a front view of a door and window connecting structure for implementing bridge cut-off heat insulation according to an embodiment of the present invention;

FIG. 2 is a front view of a door and window connecting structure water retaining assembly for bridge cut-off heat insulation in a blocking state according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a main isolation bridge according to an embodiment of the present invention.

In the drawings: 1. an outer frame body; 2. an inner frame body; 3. installing a slide rail; 4. a connecting portion; 5. caulking grooves; 6. a main cutoff bridge; 7. a first secondary cutoff bridge; 8. a second set of bridge barriers; 9. insulating foam; 10. a thermal insulation member; 11. a heat insulation cavity; 12. a water blocking member; 13. a locking member; 14. the elastic member is blocked.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, a structure diagram of a door and window connection structure for implementing bridge cut-off thermal insulation according to an embodiment of the present invention includes an outer frame 1, an inner frame 2, and a thermal insulation connection assembly disposed between the outer frame 1 and the inner frame 2, where the outer frame 1 and the inner frame 2 are respectively provided with an installation slide rail 3, and a door and a window are installed through the installation slide rail 3, and the thermal insulation connection assembly includes:

the connecting parts 4 are respectively arranged on the opposite inner sides of the outer frame body 1 and the inner frame body 2, and an embedding groove 5 is correspondingly formed between the two connecting parts 4;

the main partition bridge 6 is embedded in the embedding groove 5, and heat insulation pieces 10 and heat insulation cavities 11 are arranged in the main partition bridge 6 at intervals;

the heat insulation cavity 11 is stored with cooling liquid.

The heat insulation pieces 10 and the heat insulation cavities 11 are evenly distributed with a plurality of groups along the width direction of the caulking groove 5.

In practical application of the present embodiment, the outer frame body 1 and the inner frame body 2 are disconnected and connected by the caulking groove 5, and the heat insulating member 10 and the heat insulating cavity 11 are arranged at an interval in the main partition bridge 6, so as to form double effects of heat insulation and heat preservation, and the specific heat capacity of water in the heat insulating cavity 11 is relatively large, so that a good temperature maintaining effect is achieved, and the air temperature can be prevented from being reduced too fast, and the hot air can be absorbed; compared with the arrangement of a single heat insulation piece 10, the heat insulation effect is better.

The bridge-cut-off heat insulation effect is improved through a plurality of groups of heat insulation pieces 10 and heat insulation cavities 11 which are uniformly distributed.

In one aspect of this embodiment, the thermal insulation member 10 can be, but is not limited to, a strip, a sheet, etc. of nylon.

As shown in fig. 1 to 3, as a preferred embodiment of the present invention, the caulking groove 5 is dovetail-shaped, and the main partition bridge 6 is adapted to the caulking groove 5.

In practical application of the present embodiment, the dovetail-shaped arrangement of the caulking grooves 5 facilitates stable installation and stable connection of the outer frame body 1 and the inner frame body 2, which is maintained in the installation.

As shown in fig. 1 to 3, as another preferred embodiment of the present invention, the connecting portion 4 is arc-shaped, and arc-shaped convex portions of the two connecting portions 4 are oppositely disposed.

This embodiment is when using in the reality, and the arc setting and curved convex part through connecting portion 4 are relative setting, can be outside hot-air when toward interior transmission or when inside heat gives off, all can concentrate on the convex part along connecting portion 4, and then through the effect of main wall bridge 6, play thermal-insulated heat retaining effect as far as, play the best with the thermal-insulated heat preservation effect performance of main wall bridge 6.

As shown in fig. 1 to 3, as another preferred embodiment of the present invention, a first auxiliary blocking bridge 7 and a second auxiliary blocking bridge 8 are respectively disposed at the top and the bottom of the main blocking bridge 6 and between the two connecting portions 4.

In one case of the present embodiment, the first sub partition bridge 7 is flush with the top surfaces of the outer frame body 1 and the inner frame body 2, and the first sub partition bridge 7 is mounted on the connecting portion 4 by bolts;

the second pair of bridge partitions 8 is embedded between the two connection portions 4.

This embodiment is when using in the reality, and the main bridge cut-off 6 that separates forms the thermal-insulated effect of multiple bridge cut-off between outer frame body 1 and interior frame body 2 through the setting of the vice bridge cut-off 7 of separating of first pair and the vice bridge cut-off 8 of separating of second, and wherein the first pair separates the bridge cut-off 7 and can realize dismantling and separate the change through bolt fixed mounting, and the vice bridge cut-off 8 of separating of second inlays establishes the installation, convenient operation.

As shown in figures 1-2, as another preferred embodiment of the utility model, thermal insulation foam 9 is respectively filled between the top of the caulking groove 5 and the first auxiliary partition bridge 7, and between the bottom of the caulking groove 5 and the second auxiliary partition bridge 8.

In one aspect of this embodiment, the thermal insulation foam 9 is a phenolic foam, which has good thermal insulation and heat retention properties.

In practical application of this embodiment, the filled thermal insulation foam 9 further plays a role in thermal insulation.

As shown in fig. 2, as another preferred embodiment of the present invention, the present invention further includes a waterproof isolation assembly disposed inside the inner frame 2, the waterproof isolation assembly includes:

the water retaining piece 12 is connected in an open slot arranged on the inner frame body 2 in a sliding way;

a blocking elastic member 14 connected between one side of the water blocking member 12 and the mounting rail 3 of the inner frame 2; and

and a locking member 13 mounted on the inner frame 2 for locking the water blocking member 12 to the inner frame 2 after the water blocking member 12 slides, wherein the locking member 13 may be, but is not limited to, a locking screw.

This embodiment is when using in the reality, when to the rainy weather condition of difference, through with retaining member 12 roll-off to suitable height to utilize retaining member 13 to lock it in interior framework 2, at this moment, through blockking 14 case outsides slopes of elastic component, inboard height is higher than inboard height, forms an outwards slope, and the rainwater can not get into in the room, and can be directed against the weather condition of difference and freely adjust stretching out of retaining member 12, plays nimble waterproof effect.

The embodiment of the utility model provides a door and window connecting structure for realizing bridge cut-off heat insulation, and double effects of heat insulation and heat preservation are formed by arranging heat insulation pieces and heat insulation cavities in a main bridge cut-off at intervals; the heat insulation effect of the main partition bridge is best exerted by the arc arrangement of the connecting part and the relative arrangement of the arc convex parts; and has better waterproof and insulating properties.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a realize thermal-insulated door and window connection structure of bridge cut-off, includes outer framework and interior framework and sets up the thermal-insulated coupling assembling between outer framework and interior framework, equally divide on outer framework and the interior framework and do not install the installation slide rail, its characterized in that, thermal-insulated coupling assembling includes:

the connecting parts are respectively arranged on the opposite inner sides of the outer frame body and the inner frame body, and an embedding groove is correspondingly formed between the two connecting parts;

the main cutoff bridge is embedded in the embedding groove, and heat insulation pieces and heat insulation cavities are arranged in the main cutoff bridge at intervals;

and the heat insulation cavity is stored with cooling liquid.

2. The door and window connecting structure for realizing bridge cut-off heat insulation according to claim 1, wherein the heat insulation pieces and the heat insulation cavities are uniformly distributed in a plurality of groups along the width direction of the caulking groove.

3. The door and window connecting structure for realizing bridge-cut-off heat insulation of claim 2, wherein the caulking groove is dovetail-shaped, and the main bridge-cut-off is matched with the caulking groove.

4. The door and window connecting structure for realizing bridge cut-off and heat insulation of claim 1, wherein the connecting parts are arc-shaped, and arc-shaped convex parts of the two connecting parts are oppositely arranged.

5. The door and window connecting structure for realizing bridge cut-off and heat insulation according to any one of claims 1 to 4, wherein a first auxiliary bridge cut-off and a second auxiliary bridge cut-off are respectively arranged at the top and the bottom of the main bridge cut-off and between the two connecting portions.

6. The door and window connecting structure for realizing bridge cut-off heat insulation according to claim 5, wherein the first auxiliary bridge cut-off is flush with the top surfaces of the outer frame body and the inner frame body, and the first auxiliary bridge cut-off is mounted on the connecting part through bolts;

the second pair of partition bridges are embedded between the two connecting parts.

7. The door and window connecting structure for realizing bridge cut-off heat insulation according to claim 5, wherein the heat insulation foam is filled between the top of the main bridge cut-off and the first auxiliary bridge cut-off and between the bottom of the main bridge cut-off and the second auxiliary bridge cut-off respectively.

8. The door and window connecting structure for realizing bridge cut-off and heat insulation according to claims 2-3, further comprising a waterproof isolating assembly arranged on the inner side of the inner frame body, wherein the waterproof isolating assembly comprises:

the water retaining piece is connected in an open slot on the inner frame body in a sliding manner;

the blocking elastic piece is connected between one side of the water retaining piece and the mounting slide rail of the inner frame body; and

the retaining member is installed on the inner frame body and used for locking the water retaining member on the inner frame body after the water retaining member slides.

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