CN212249685U - Energy-saving flush door structure - Google Patents

Abstract

The utility model relates to the technical field of door and window, specifically disclose an energy-saving parallel and level door structure, the utility model discloses a frame, threshold and door leaf, frame, threshold and door leaf are the bridge cut-off structure, have stronger thermal insulation performance to be equipped with the outside seal structure of compriseing first recess, outside joint strip, bottom joint strip, outside threshold, the inside seal structure of compriseing inside joint strip, inboard threshold, second recess possesses double-deck seal structure, the utility model discloses holistic water proofness and gas tightness are stronger, the utility model discloses well door leaf and frame side parallel and level compare with general vertical hinged door and more have the aesthetic feeling.

Description

Energy-saving flush door structure

Technical Field

The utility model relates to a door and window technical field, concretely relates to energy-saving parallel and level door structure.

Background

At present, with the improvement of the living standard of people, the requirement on the environment and the performance of a home is higher and higher, but the traditional door is generally a non-energy-saving aluminum alloy door window or a wood window, and lacks other performances such as good water tightness, air tightness, heat insulation and the like, so that the requirements of people on energy-saving doors and windows are difficult to meet, most of the energy-saving doors and windows do not have related drainage facilities, the door leaf adopts a glass gluing process, is easy to age and shrink, the sealing structure of the door leaf is not tight, cannot meet the high performance requirements of people, the door leaf protrudes out of a frame, and the appearance lacks of aesthetic feeling.

Therefore, the utility model provides a high-performance door and window system with strong water tightness and air tightness, convenient installation and aesthetic feeling is very necessary.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be: lack good water proofness among the prior art, the gas tightness, the outward appearance lacks dare, provides a water proofness and gas tightness strong, simple to operate, has aesthetic energy-saving parallel and level door structure.

The utility model is realized by the following technical proposal, an energy-saving flush door structure comprises a frame positioned on two side surfaces and a top surface, a doorsill at the bottom and a door leaf, wherein the door leaf is positioned on the frame through hinges;

the frame comprises an outer side frame and an inner side frame; the doorsill comprises an outer doorsill and an inner doorsill, the frame and the doorsill are of a bridge cut-off structure, and the inner section and the outer section are connected through a heat insulation strip;

the door leaf comprises a first side frame, a second side frame and glass, the first side frame and the second side frame are connected through a heat insulation strip, a pressing line is connected above the second side frame, and the glass is arranged between the pressing line and the top end of the first side frame;

a first groove is formed in the top corner of the first side frame, a first flange is arranged on the outer side frame, an external sealing rubber strip is mounted on the first flange, a compensation material is mounted in the first groove in the bottom of the first side frame, a bottom sealing rubber strip is mounted on the compensation material, when the door leaf is closed, the first groove in the top and the side of the first side frame is tightly attached to the external sealing rubber strip, and the bottom sealing rubber strip is tightly attached to the outer side door sill to form an external sealing structure in a combined mode;

the second side frame is provided with a second flange, an inner sealing rubber strip is mounted on the second flange, a second groove is formed in the top angle of the inner side frame, and when the door leaf is closed, the inner sealing rubber strip is tightly attached to the inner side doorsill and the second groove to form an inner sealing structure; through outside and inside double-deck seal structure, can strengthen greatly the utility model discloses holistic water proofness and gas tightness.

When the door leaf was closed, the side parallel and level of first side frame and outside frame, outside threshold, the side parallel and level of second side frame and inside frame is compared with the structure of the high protrusion frame of door leaf, the utility model discloses door leaf and frame side parallel and level more have the aesthetic feeling.

Further, the outer adhesive tape of the EPDM composite foamed glass is installed at the top end of the first side frame, the outer adhesive tape is tightly attached to the glass under the action of the pressing line, air tightness and water tightness are improved, meanwhile, the glass can be installed indoors, and the danger of outdoor glue applying is reduced.

Furthermore, the outer side doorsill sectional material is provided with a bulge, when the door leaf is closed, the contact position of the bottom sealing rubber strip and the outer side doorsill is on the right side close to the high point of the bulge, so that the outer side doorsill on the left side of the bottom sealing rubber strip is in a single-side slope shape facing the outdoor space, the water retaining performance is more prominent, and the watertight performance is improved.

Further, glass holds in the palm below the glass, glass holds in the palm and uses at glass diagonal corner portion, changes glass stress structure, prevents to fall the angle flagging, and easy to assemble strengthens structural stability.

Furthermore, the pressing line adopts a closed cavity type pressing line, so that the installation is convenient, and the air tightness performance is improved.

Furthermore, an invisible hinge is arranged between the second side frame and the inner side frame and is completely positioned in a cavity formed by the second side frame and the inner side frame, and the inner side frame is not provided with a tearing opening, so that the air tightness is improved.

The utility model has the advantages that:

1. the utility model discloses be equipped with outside seal structure and inside seal structure, through double-deck seal structure, can strengthen greatly the utility model discloses holistic water proofness and gas tightness.

2. The utility model discloses a door leaf and frame side parallel and level compare with the structure of the high protrusion frame of door leaf, more have the aesthetic feeling.

3. Outer adhesive tape of EPDM composite foam glass is installed on first side frame top, under the effect of line ball and closely laminate between the glass, increased gas tightness and water proofness, glass can reduce the danger of outdoor beating glue simultaneously at indoor location.

4. The utility model discloses an outside threshold section bar is equipped with protruding manger plate performance more outstanding, has increased the watertight performance.

5. The utility model discloses a hinge is arranged in the cavity that second side frame and inboard frame formed completely, the inboard frame does not have the mouth of tearing, has increased the air tightness performance.

6. The utility model discloses a close chamber formula line ball, the installation of being convenient for has increased airtight performance.

Drawings

Fig. 1 is a schematic structural view of the door leaf and the doorsill of the present invention;

fig. 2 is a schematic structural view of the door leaf and the frame of the present invention.

In the figure: 1, a frame; 11 an outer frame; 111 a first rib; 112 an outer sealing rubber strip; 12 an inner side frame; 121 a second groove; 2, a threshold; 21 an outboard door sill; 211 are raised; 22 an inboard side sill; 3, door leaves; 31 a first side frame; 311 a first groove; 312 a compensating material; 313 bottom sealing rubber strip; 314 outer adhesive tape of glass; 32 a second side frame; 321 a second flange; 322 internal sealing rubber strips; 33 glass; 34 pressing a line; 35, a glass support; 4 heat insulating strips.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-2, an energy-saving flush door structure comprises a frame 1 positioned on two side surfaces and a top surface, a doorsill 2 positioned at the bottom and a door leaf 3, wherein the door leaf 3 is hinged on the frame 1;

the frame 1 comprises an outer side frame 11 and an inner side frame 12; the doorsill 2 comprises an outer doorsill 21 and an inner doorsill 22, the frame 1 and the doorsill 2 are both of a bridge cut-off structure, and the inner section and the outer section are connected through a heat insulation strip 4;

the door leaf 3 comprises a first side frame 31, a second side frame 32 and glass 33, the first side frame 31 and the second side frame 32 are connected through a heat insulation strip 4, a pressing line 34 is connected above the second side frame 32, and the glass 33 is arranged between the pressing line 34 and the top end of the first side frame 31;

a first groove 311 is formed in the top corner of the first side frame 31, a first rib 111 is formed in the outer side frame 11, an outer sealing rubber strip 112 is mounted on the first rib 111, a compensation material 312 is mounted in the first groove 311 in the bottom of the first side frame 31, a bottom sealing rubber strip 313 is mounted on the compensation material 312, when the door leaf 3 is closed, the first groove 311 in the top and the side of the first side frame 31 is tightly attached to the outer sealing rubber strip 112, and the bottom sealing rubber strip 313 is tightly attached to the outer side doorsill 31 to form an outer sealing structure in a combined manner;

the second side frame 32 is provided with a second stopping edge 321, an inner sealing rubber strip 322 is mounted on the second stopping edge 321, a second groove 121 is formed in the top corner of the inner side frame 12, and when the door leaf 3 is closed, the inner sealing rubber strip 322 is tightly attached to the inner side doorsill 22 and the second groove 121 to form an inner sealing structure; through outside and inside double-deck seal structure, can strengthen greatly the utility model discloses holistic water proofness and gas tightness.

When door leaf 3 is closed, the side parallel and level of first side frame 31 and outside frame 11, outside threshold 21, the side parallel and level of second side frame 32 and inside frame 12 compares with the structure of 3 high salient frames 1 of door leaf, the utility model discloses door leaf 3 and frame 1 side parallel and level more have the aesthetic feeling.

In practical application, the top end of the first side frame 31 is provided with the EPDM composite foamed glass outer adhesive tape 314 which is tightly attached to the glass 33 under the action of the pressing line 34, so that air tightness and water tightness are improved, meanwhile, the glass can be installed indoors, and the danger of glue applying outdoors is reduced.

In practical application, the outer side threshold 21 section bar is provided with a bulge 211, when the door leaf 3 is closed, the contact position of the bottom sealing rubber strip 313 and the outer side threshold 21 is on the right side close to the high point of the bulge 211, so that the outer side threshold 21 on the left side of the bottom sealing rubber strip 313 is in a single-side slope shape facing the outdoor, the water retaining performance is more prominent, and the water retaining performance is improved.

In practical application, glass support 35 is arranged below glass 33, glass support 35 is used at the diagonal corner of glass 33, the stress structure of glass 33 is changed, the falling corner is prevented from sagging, the installation is convenient, and the structural stability is enhanced.

In practical application, the pressing line 34 is a closed cavity type pressing line, so that the installation is convenient, and the air tightness is improved.

In practical application, an invisible hinge is arranged between the second side frame 32 and the inner side frame 12 and is completely positioned in a cavity formed by the second side frame 32 and the inner side frame 12, and the inner side frame 12 is not provided with a tearing opening, so that the air tightness is improved.

To sum up, an energy-saving parallel and level door structure have water proofness and gas tightness strong, simple to operate has aesthetic advantage.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the foregoing embodiments are merely illustrative of the technical concepts and features of the present invention, and the purpose of the present invention is to provide a person skilled in the art with the ability to understand the contents of the present invention and implement the same, and not to limit the scope of the present invention.

Claims (6)

1. The utility model provides an energy-saving flush door structure which characterized in that: the door frame comprises frames (1) positioned on two side surfaces and a top surface, a doorsill (2) at the bottom and a door leaf (3), wherein the door leaf (3) is arranged on the frames (1) through hinges;

the frame (1) comprises an outer side frame (11) and an inner side frame (12); the doorsill (2) comprises an outer doorsill (21) and an inner doorsill (22), the frame (1) and the doorsill (2) are of a bridge cut-off structure, and the inner section and the outer section are connected through a heat insulation strip (4);

the door leaf (3) comprises a first side frame (31), a second side frame (32) and glass (33), the first side frame (31) and the second side frame (32) are connected through a heat insulation strip (4), a pressing line (34) is connected above the second side frame (32), and the glass (33) is arranged between the pressing line (34) and the top end of the first side frame (31);

a first groove (311) is formed in the vertex angle of the first side frame (31), a first rib (111) is formed in the outer side frame (11), an outer sealing rubber strip (112) is installed on the first rib (111), a compensation material (312) is installed in the first groove (311) in the bottom of the first side frame (31), a bottom sealing rubber strip (313) is installed on the compensation material (312), when the door leaf (3) is closed, the first groove (311) in the top and the side of the first side frame (31) is tightly attached to the outer sealing rubber strip (112), and the bottom sealing rubber strip (313) is tightly attached to the outer door sill (21) to form an outer sealing structure in a combined mode;

the second side frame (32) is provided with a second rib (321), an inner sealing rubber strip (322) is mounted on the second rib (321), a second groove (121) is formed in the top angle of the inner side frame (12), and when the door leaf (3) is closed, the inner sealing rubber strip (322) is tightly attached to the inner side doorsill (22) and the second groove (121) to form an inner sealing structure;

when the door leaf (3) is closed, the first side frame (31) is flush with the side surfaces of the outer side frame (11) and the outer side doorsill (21), and the second side frame (32) is flush with the side surface of the inner side frame (12).

2. An energy efficient flush door structure as claimed in claim 1, wherein: an outer rubber strip (314) of the EPDM composite foamed glass is installed at the top end of the first side frame (31) and tightly attached to the glass (33) under the action of the pressing line (34).

3. An energy efficient flush door structure as claimed in claim 1, wherein: the outer side threshold (21) is provided with a bulge (211), when the door leaf (3) is closed, the contact position of the bottom sealing rubber strip (313) and the outer side threshold (21) is close to the right side of the high point of the bulge (211), and the outer side threshold (21) on the left side of the bottom sealing rubber strip (313) is in a single-side slope shape facing the outdoor.

4. An energy efficient flush door structure as claimed in claim 1, wherein: glass holds in the palm (35) is equipped with under glass (33), glass holds in the palm (35) and uses at glass (33) diagonal corner portion, changes glass (33) atress structure, prevents to fall the angle and droop.

5. An energy efficient flush door structure as claimed in claim 1, wherein: the pressing line (34) adopts a closed cavity type pressing line, so that the installation is convenient, and the air tightness performance is improved.

6. An energy efficient flush door structure as claimed in claim 1, wherein: an invisible hinge is arranged between the second side frame (32) and the inner side frame (12), the invisible hinge is completely positioned in a cavity formed by the second side frame (32) and the inner side frame (12), and the inner side frame (12) is not provided with a tearing opening.

Images