CN217400756U - Wear a thermal-insulated energy-conserving vertical hinged door - Google Patents

Abstract

The utility model discloses a strip-penetrating heat-insulating energy-saving vertical hinged door, which comprises a door frame, a false middle stile, a window middle stile, a door threshold, a left rotating door leaf and a right rotating door leaf; the left rotating door leaf rotates by taking one side of the false middle stile as a shaft; the right rotating door leaf rotates by taking one side of the door frame as a shaft; the door frame comprises an inner door frame and an outer door frame; the rotary door leaf comprises an inner rotary door leaf frame and an outer rotary door leaf frame; the window mullion comprises an inner window middle tappet and an outer window middle tappet; and a first heat insulation piece, a second heat insulation piece and a third heat insulation piece are respectively arranged at the front, middle and rear positions between the rotary door leaf and the door frame as well as between the rotary door leaf and the false middle stile. The utility model discloses a multilayer seal heat insulation structure through set up on door frame, false mullion, window mullion, turning door leaf and be connected the structure of and the adaptation with first heat insulating part, second heat insulating part and third heat insulating part to promote the thermal-insulated and sealing performance of this vertical hinged door, effectively reduce interior outdoor heat exchange, promote thermal-insulated effect greatly, reach energy-conserving purpose.

Description

Wear a thermal-insulated energy-conserving vertical hinged door

Technical Field

The utility model relates to a door and window technical field especially relates to a wear thermal-insulated energy-conserving vertical hinged door of strip.

Background

The soundproof and heat-insulating properties of the vertical hinged door affect the living comfort of the house and the consumption of heating and cooling; when heating and refrigerating are needed in winter and summer, the door leaf with the heat preservation function is selected to reduce indoor and outdoor heat exchange, so that a certain energy-saving effect is achieved, and the concept of green and environment protection is met.

However, although the hollow glass part and the mullion and transition material part of the existing vertical hinged door are both of the structure of bridge cut-off heat insulation, due to the limitation of structural design of joints of the rotary door leaf and the glass, the door frame and the mullion, heat exchange between the inner chamber and the outer chamber cannot be effectively reduced, and the heat insulation and energy saving effects are poor.

Therefore, it is urgently needed to provide a heat-insulating and energy-saving side hung door with a through strip, which is reasonable in design and has good heat-insulating and energy-saving effects.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model discloses the technical scheme who adopts as follows:

the utility model provides a wear thermal-insulated energy-conserving vertical hinged door of strip, includes that door frame, false mullion, window mullion, threshold and setting are in levogyration door leaf and right turn door leaf in the door frame, its characterized in that:

the left rotating door leaf rotates by taking one side of the false middle stile as a shaft; the right rotating door leaf rotates by taking one side of the door frame as a shaft;

and the front, middle and rear positions between the left rotating door leaf, the right rotating door leaf, the door frame and the false middle stile are respectively provided with a first heat insulation piece, a second heat insulation piece and a third heat insulation piece.

Preferably, the door frame comprises an inner door frame and an outer door frame; two or more heat insulation bridge cut-off penetrating strips are arranged between the inner door frame and the outer door frame; one sides of the inner door frame and the outer door frame, which are close to the heat insulation bridge-cut-off strip, are provided with first strip-penetrating clamping grooves; the heat insulation bridge-cut-off penetrating strip is clamped with the inner door frame and the outer door frame through a first penetrating strip clamping groove respectively;

the inner door frame comprises an inner door frame body and a first flange arranged on the same side of the left rotary door leaf; when the left rotary door leaf is closed, the third heat insulation piece is tightly attached to the first flange;

the outer door frame comprises an outer door frame body and a first extension edge extending along the direction of a left-turning door leaf of the outer door frame body; a first groove is formed in one end, close to the left rotating door leaf, of the first extending edge; the first heat insulation piece is arranged on the first groove;

the inner door frame body and one side of the outer door frame body, which is close to the left rotating door leaf, are provided with first clamping grooves; the second heat insulation piece is connected with the inner door frame body and the outer door frame body in a clamping mode through the two first clamping grooves.

Preferably, the false middle tappet comprises an inner false middle tappet and an outer false middle tappet; two or more heat insulation bridge-cut-off penetrating strips are arranged between the inner false middle tappet frame and the outer false middle tappet frame; one sides of the inner false middle tappet frame and the outer false middle tappet frame, which are close to the heat insulation bridge-cut-off penetration bar, are provided with second penetration bar clamping grooves; the heat insulation bridge-cut-off penetration strip is clamped with the inner false middle tappet frame and the outer false middle tappet frame through a second penetration strip clamping groove;

the inner false middle support frame comprises an inner false middle support frame body and a second flange arranged on the same side of the right rotary door leaf; when the right rotary door leaf is closed, the third heat insulation piece is tightly attached to the second baffle;

the outer false middle support frame comprises an outer false middle support frame body and a second extending edge extending along the direction that the outer false middle support frame body rotates the door leaf rightwards; a second groove is formed in one end, close to the right rotating door leaf, of the second extending edge; the first heat insulation piece is arranged on the second groove;

the inner false mullion frame body and one side of the outer false mullion frame body, which is close to the right rotary door leaf, are both provided with a second clamping groove; the second heat insulation piece is connected with the inner false middle support body and the outer false middle support body in a clamped mode through two second clamping grooves.

Preferably, the left rotating door leaf and the right rotating door leaf comprise an inner rotating door leaf frame and an outer rotating door leaf frame;

two or more heat insulation bridge-cut-off penetrating strips are arranged between the inner rotating door leaf frame and the outer rotating door leaf frame; third strip penetrating clamping grooves are formed in one sides, close to the heat insulation bridge-cut-off strip, of the inner rotating door leaf frame and one side, close to the heat insulation bridge-cut-off strip, of the outer rotating door leaf frame; the heat insulation bridge-cut-off passing strip is clamped with the inner rotating door leaf frame and the outer rotating door leaf frame through a third passing strip clamping groove respectively;

the internal rotating door leaf frame comprises an internal rotating door leaf frame body, a third extending edge and a limiting rib, wherein the third extending edge and the limiting rib are arranged on the same side of a false mullion or a door frame; the third extending edge is positioned above the limiting rib; a third groove is formed in one end, close to the false mullion or the door frame, of the third extending edge; the third heat insulation piece is arranged on the third groove;

when the left rotating door leaf or the right rotating door leaf is closed, one end, close to the rotating door leaf frame body, of the second heat insulation piece is tightly attached to the limiting rib;

a first connecting plate clamping groove is formed in one side, away from the false mullion or the door frame, of the inner rotating door leaf frame body; the first connecting plate clamping groove is provided with a clamped first connecting plate; the other end of the first connecting plate is provided with a first mounting groove;

the outer rotating door leaf frame comprises an outer rotating door leaf frame body and a notch arranged on the same side of the false middle stile or the door frame;

when the left rotating door leaf or the right rotating door leaf is closed, the first heat insulation piece is positioned in the notch and is tightly attached to the bottom of the notch;

a fourth extension edge extending towards the outer rotating door leaf frame body is arranged on one side, away from the false mullion or the door frame, of the outer rotating door leaf frame body; a second mounting groove is formed in one end, far away from the outer rotating door leaf frame body, of the fourth extending edge;

and a first glass is arranged between the first connecting plate and the fourth extending edge.

Preferably, the window mullion comprises an inner window middle tappet and an outer window middle tappet; two or more heat insulation bridge-cut-off penetrating strips are arranged between the inner window middle tappet frame and the outer window middle tappet frame; a fourth strip penetrating clamping groove is formed in one side, close to the heat insulation bridge cut-off strip, of each of the inner window middle tappet frame and the outer window middle tappet frame; the heat insulation bridge-cut-off penetration strip is respectively clamped with the inner window middle tappet frame and the outer window middle tappet frame through a fourth penetration strip clamping groove;

the inner window middle stile comprises an inner window middle stile body and a third flange arranged on the same side of the right rotary door leaf or the left rotary door leaf; when the right rotary door leaf or the left rotary door leaf is closed, the third heat insulation part is tightly attached to the third flange;

the outer window middle tappet frame comprises an outer window middle tappet frame body, a fifth extending edge and a sixth extending edge, wherein the fifth extending edge extends upwards along the outer window middle tappet frame body, and the sixth extending edge extends downwards along the outer window middle tappet frame body; a third mounting groove is formed in one end, away from the outer window middle tappet body, of the fifth extending edge, and a fourth groove is formed in one end, away from the outer window middle tappet body, of the sixth extending edge; the first heat insulation piece is arranged on the fourth groove;

third clamping grooves are formed in the inner window mullion frame body and one side, close to the right rotating door leaf or the left rotating door leaf, of the outer window mullion frame body; the second heat insulation piece is connected with the inner window mullion frame body and the outer window mullion frame body in a clamping mode through two third clamping grooves.

Preferably, a fastener clamping groove is formed in one side, away from the right rotating door leaf or the left rotating door leaf, of the inner window mullion frame body; the fastener clamping groove is provided with a clamped fastener; a second connecting plate is arranged at the position, located at the fastener clamping groove, of the mullion frame of the inner window; one end of the second connecting plate is connected with the inner window mullion frame body through a fastener, and the other end of the second connecting plate is provided with a fourth mounting groove;

and second glass is arranged between the second connecting plate and the fifth extending edge.

Preferably, the door frame, the false mullion, the window mullion and the doorsill are all extruded aluminum profiles.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses a reasonable in design adopts the sealed thermal-insulated structure of multilayer, through set up on door frame, false mullion, window mullion, the rotating door leaf and be connected the structure of and the adaptation with first heat insulating part, second heat insulating part and third heat insulating part to promote the thermal-insulated and sealing performance of this vertical hinged door, effectively reduce interior outdoor heat exchange, promote thermal-insulated effect greatly, reach energy-conserving purpose.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure A-A in FIG. 1;

FIG. 3 is a schematic view of the cross-sectional structure B-B in FIG. 1;

fig. 4 is a schematic cross-sectional view of the door frame of the present invention;

FIG. 5 is a schematic cross-sectional view of a false middle stile according to the present invention;

fig. 6 is a schematic cross-sectional view of the middle left-hand door leaf or the right-hand door leaf of the present invention;

FIG. 7 is a schematic cross-sectional view of a mullion of the present invention;

wherein: the door frame 1, the false middle stile 2, the window middle stile 3, the door sill 4, the left rotating door leaf 5, the right rotating door leaf 6, the first heat insulation part 7, the second heat insulation part 8, the third heat insulation part 9, the heat insulation bridge cut-off penetrating strip 10, the inner door frame 11, the outer door frame 12, the inner false middle stile 21, the outer false middle stile 22, the inner window middle stile 31, the outer window middle stile 32, the inner rotating door leaf 51, the outer rotating door leaf 52, the first connecting plate 60, the first mounting groove 61, the first glass 70, the fastener 80, the second connecting plate 90, the fourth mounting groove 91, the second glass 100, the first penetrating strip clamping groove 110, the inner door frame body 111, the first blocking edge 112, the outer door frame body 121, the first extending edge 122, the first groove 123, the first clamping groove 11a, the second penetrating strip clamping groove 210, the inner false middle stile body 211, the second blocking edge 212, the outer false middle stile body 221, the second extending edge 222, the second groove 223, The second slot 22a, the fourth slot 310, the inner window middle stile body 311, the third flange 312, the fastener slot 313, the outer window middle stile body 321, the fifth extension edge 322, the sixth extension edge 323, the third mounting groove 324, the fourth groove 325, the third slot 31a, the third slot 510, the inner rotating door leaf frame body 511, the third extension edge 512, the limiting rib 513, the third groove 514, the first connecting plate slot 515, the outer rotating door leaf frame body 521, the notch 522, the fourth extension edge 523, and the second mounting groove 524.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "front," "back," "left," "right," "up," "down," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1-7, a wear a thermal-insulated energy-conserving vertical hinged door of strip, includes door frame 1, false stile 2, window stile 3, threshold 4 and sets up left turn door leaf 5 and right turn door leaf 6 in the door frame 1, its characterized in that:

the left rotating door leaf 5 rotates by taking one side of the false middle stile 2 as a shaft; the right rotating door leaf 6 rotates by taking one side of the door frame 1 as an axis;

the front, middle and rear positions between the left-hand rotating door leaf 5 and the right-hand rotating door leaf 6 and the door frame 1 and the false middle stile 2 are respectively provided with a first heat insulation part 7, a second heat insulation part 8 and a third heat insulation part 9.

Further, as shown in fig. 2, 3 and 4, the door frame 1 includes an inner door frame 11 and an outer door frame 12; two or more heat insulation bridge-cut-off penetrating strips 10 are arranged between the inner door frame 11 and the outer door frame 12; one sides of the inner door frame 11 and the outer door frame 12 close to the heat insulation bridge cut-off strip 10 are both provided with a first strip passing clamping groove 110; the heat insulation bridge-cut-off strip 10 is respectively clamped with the inner door frame 11 and the outer door frame 12 through a first strip-passing clamping groove 110;

the inner door frame 11 comprises an inner door frame body 111 and a first rib 112 arranged on the same side of the left turning door leaf 5; when the left turning door leaf 5 is closed, the third heat insulation part 9 is tightly attached to the first rib 112;

the outer door frame 12 includes an outer door frame body 121 and a first extension side 122 extending along the outer door frame body 121 in the direction of the left swing door 5; a first groove 123 is formed at one end of the first extending edge 122 close to the left turning door leaf 5; the first thermal insulation member 7 is disposed on the first groove 123;

the inner doorframe frame body 111 and the outer doorframe frame body 121 are both provided with a first clamping groove 11a at one side close to the left rotary door leaf 5; the second heat insulation member 8 is clamped with the inner door frame body 111 and the outer door frame body 121 through two first clamping grooves 11 a.

In this embodiment, the door frame 1 is composed of an inner door frame 11 and an outer door frame 12, and the inner door frame 11 and the outer door frame 12 are connected by a bridge-cut-off heat-insulation connecting structure, so that the door frame 1 has good heat-insulation performance as a whole; meanwhile, a first rib 112 attached to the third heat insulation piece 9 is arranged on the inner door frame body 111, a first clamping groove 11a used for installing the first heat insulation piece 7 is formed in the outer door frame body 121, and a first clamping groove 11a used for being clamped with the second heat insulation piece 8 is formed in the inner door frame body 111 and the outer door frame body 121, so that the door frame 1 is provided with structures connected with and adapted to the first heat insulation piece 7, the second heat insulation piece 8 and the third heat insulation piece 9 respectively, when the left-hand rotating door leaf 5 is closed, a joint of the door frame 1 and the left-hand rotating door leaf 5 forms three layers of heat insulation layers from front to back, the heat insulation and sealing performance of the joint of the door frame 1 and the left-hand rotating door leaf 5 are greatly improved, heat exchange between the inner room and the outer room is effectively reduced, the heat insulation effect is greatly improved, and the purpose of energy conservation is achieved.

Further, as shown in fig. 2, 3 and 5, the false middle stile 2 comprises an inner false middle stile frame 21 and an outer false middle stile frame 22; two or more heat insulation bridge cut-off penetration strips 10 are arranged between the inner false middle straight frame 21 and the outer false middle straight frame 22; a second penetrating strip clamping groove 210 is formed in one side, close to the heat insulation bridge cut-off penetrating strip 10, of each of the inner false middle tappet frame 21 and the outer false middle tappet frame 22; the heat insulation bridge-cut-off penetration strip 10 is respectively clamped with the inner false middle tappet frame 21 and the outer false middle tappet frame 22 through a second penetration strip clamping groove 210;

the inner false middle tappet 21 comprises an inner false middle tappet body 211 and a second flange 212 arranged on the same side of the right turning door leaf 6; when the right rotary door leaf 6 is closed, the third heat insulation element 9 is tightly attached to the second flange 212;

the outer false middle stile 22 comprises an outer false middle stile body 221 and a second extending edge 222 extending along the direction that the outer false middle stile body 221 rotates the door leaf 6 rightwards; a second groove 223 is formed at one end of the second extending edge 222 close to the right turning door leaf 6; the first heat insulating member 7 is disposed on the second groove 223;

the second clamping grooves 22a are formed in the inner false middle stile body 211 and the outer false middle stile body 221 on the sides close to the right rotating door leaf 6; the second heat insulation member 8 is clamped with the inner false middle support body 211 and the outer false middle support body 221 through two second clamping grooves 22 a.

In this embodiment, the false middle stile 2 is composed of an inner false middle stile 21 and an outer false middle stile 22, and the inner false middle stile 21 and the outer false middle stile 22 are connected by a bridge-cut heat insulation connecting structure, so that the false middle stile 2 has good heat insulation performance; meanwhile, a second rib 212 attached to the third heat insulation piece 9 is arranged on the inner false mullion frame body 211, a second groove 223 used for installing the first heat insulation piece 7 is formed in the outer false mullion frame body 221, and a second clamping groove 22a used for being clamped with the second heat insulation piece 8 is formed in the inner false mullion frame body 211 and the outer false mullion frame body 221, so that the structure connected with and adapted to the first heat insulation piece 7, the second heat insulation piece 8 and the third heat insulation piece 9 is formed in the joint of the false mullion 2 and the right-turning door leaf 6 respectively, when the right-turning door leaf 6 is closed, three layers of heat insulation layers from the front to the back are formed at the joint of the false mullion 2 and the right-turning door leaf 6, heat insulation and sealing performance at the joint of the false mullion 2 and the right-turning door leaf 6 are greatly improved, heat exchange between the inner chamber and the outer chamber is effectively reduced, and a heat insulation effect is greatly improved, and an energy-saving purpose is achieved.

Further, as shown in fig. 2, 3 and 6, the left turning door leaf 5 and the right turning door leaf 6 each include an inner turning door leaf frame 51 and an outer turning door leaf frame 52;

two or more heat insulation bridge-cut-off penetrating strips 10 are arranged between the inner rotating door leaf frame 51 and the outer rotating door leaf frame 52; a third strip penetrating clamping groove 510 is formed in one side, close to the heat insulation bridge-cut-off strip 10, of each of the inner rotating door leaf frame 51 and the outer rotating door leaf frame 52; the heat insulation bridge-cut-off strip 10 is respectively clamped with the inner rotating door leaf frame 51 and the outer rotating door leaf frame 52 through a third strip-passing clamping groove 510;

the internal rotation door leaf frame 51 comprises an internal rotation door leaf frame body 511, a third extension edge 512 and a limit rib 513, wherein the third extension edge 512 and the limit rib 513 are arranged on the same side of the false mullion 2 or the door frame 1; the third extending edge 512 is positioned above the limiting rib 513; a third groove 514 is formed at one end of the third extending edge 512, which is close to the false mullion 2 or the door frame 1; the third thermal insulation element 9 is arranged on the third groove 514;

when the left rotating door leaf 5 or the right rotating door leaf 6 is closed, one end of the second heat insulation piece 8 close to the inner rotating door leaf frame body 511 is tightly attached to the limiting rib 513;

a first connecting plate clamping groove 515 is formed in one side, away from the false mullion 2 or the doorframe 1, of the inner rotating door leaf frame body 511; a first connecting plate 60 is clamped and connected with the first connecting plate clamping groove 515; the other end of the first connecting plate 60 is provided with a first mounting groove 61;

the outer swing door leaf frame 52 includes an outer swing door leaf frame body 521 and a recess 522 provided on the same side of the false mullion 2 or the door frame 1;

when the left turning door leaf 5 or the right turning door leaf 6 is closed, the first heat insulation piece 7 is positioned in the notch 522 and is tightly attached to the bottom of the notch 522;

a fourth extending edge 523 extending to a side away from the outer swing door leaf frame body 521 is arranged on one side of the outer swing door leaf frame body 521 away from the false mullion 2 or the door frame 1; a second mounting groove 524 is formed in one end of the fourth extending side 523 away from the outer rotating door leaf frame body 521;

a first glass 70 is disposed between the first connecting plate 60 and the fourth extending side 523.

In this embodiment, the first glass 70 is bonded using a silicone structural sealant; the first connecting plate 60 and the fourth elongated edge 523 are bonded with the first glass 70 through the first mounting groove 61 and the second mounting groove 524 under the action of a silicone structural sealant; the first glass 70 is a glass with a double-layer hollow structure, and heat insulation sealant is arranged around the hollow glass.

In this embodiment, the left rotating door 5 or the right rotating door 6 is composed of an inner rotating door frame 51 and an outer rotating door frame 52, and the inner rotating door frame 51 and the outer rotating door frame 52 are connected by a bridge-cut-off heat-insulation connecting structure, so that the left rotating door 5 or the right rotating door 6 has good heat-insulation performance; meanwhile, a third groove 514 for clamping the third heat insulation piece 9 and a limiting rib 513 tightly matched with the second heat insulation piece 8 are arranged on the main body of the inner rotating door leaf frame 51, and a notch 522 closely fitted with the first heat insulator 7 is provided on the main body of the outer rotating door frame 52, so that the left rotating door leaf 5 or the right rotating door leaf 6 is provided with a structure which is respectively connected and matched with the first heat insulation piece 7, the second heat insulation piece 8 and the third heat insulation piece 9, when the left rotating door leaf 5 or the right rotating door leaf 6 is closed, the joint of the left rotating door leaf 5 or the right rotating door leaf 6 and the door frame 1 and the false middle stile 2 forms a three-layer heat insulation layer from front to back, thereby greatly improving the heat insulation and sealing performance of the joint of the left rotating door leaf 5 or the right rotating door leaf 6 and the door frame 1 and the false middle stile 2, thereby effectively reducing the heat exchange between the inside and the outside of the chamber, greatly improving the heat insulation effect and achieving the purpose of energy conservation.

Further, as shown in fig. 2, 3 and 7, the window mullion 3 includes an inner window middle mullion 31 and an outer window middle mullion 32; two or more heat insulation bridge-cut-off penetrating strips 10 are arranged between the inner window middle tappet 31 and the outer window middle tappet 32; a fourth strip penetrating clamping groove 310 is formed in one side, close to the heat insulation bridge cut-off strip 10, of each of the inner window middle tappet 31 and the outer window middle tappet 32; the heat insulation bridge cut-off strip 10 is respectively clamped with the inner window middle tappet 31 and the outer window middle tappet 32 through a fourth strip passing clamping groove 310;

the inner window middle tappet 31 comprises an inner window middle tappet body 311 and a third flange 312 arranged on the same side of the right revolving door leaf 6 or the left revolving door leaf 5; when the right rotary door leaf 6 or the left rotary door leaf 5 is closed, the third heat insulation part 9 is tightly attached to the third flange 312;

the outer window middle tappet 32 comprises an outer window middle tappet body 321, a fifth elongated edge 322 extending upwards along the outer window middle tappet body 321, and a sixth elongated edge 323 extending downwards along the outer window middle tappet body 321; a third mounting groove 324 is formed in one end, away from the outer window middle tappet body 321, of the fifth prolonging edge 322, and a fourth groove 325 is formed in one end, away from the outer window middle tappet body 321, of the sixth prolonging edge 323; the first heat insulation member 7 is disposed on the fourth groove 325;

third clamping grooves 31a are formed in the inner window mullion frame body 311 and one side, close to the right rotating door leaf 6 or the left rotating door leaf 5, of the outer window mullion frame body 321; the second heat insulation member 8 is clamped with the inner window mullion body 311 and the outer window mullion body 321 through two third clamping grooves 31 a.

In this embodiment, the window mullion 3 is composed of an inner window middle tappet 31 and an outer window middle tappet 32, and the inner window middle tappet 31 and the outer window middle tappet 32 are connected by a bridge-cut-off heat-insulation connecting structure, so that the window mullion 3 has good heat-insulation performance; meanwhile, a third flange 312 attached to the third heat insulation piece 9 is arranged on the inner window middle tappet body 311, a fourth groove 325 for installing the first heat insulator 7 is provided on the outer window middle tappet body 321, and a third clamping groove 31a for clamping the second heat insulation piece 8 is arranged on the inner window middle tappet body 311 and the outer window middle tappet body 321, so that the window mullion 3 has a structure respectively connected and matched with the first heat insulation piece 7, the second heat insulation piece 8 and the third heat insulation piece 9, when the right rotary door leaf 6 or the left rotary door leaf 5 is closed, three layers of heat insulation layers from front to back are formed at the joint of the window mullion 3 and the right rotary door leaf 6 or the left rotary door leaf 5, so that the heat insulation and sealing performance of the joint of the window mullion 3 and the right rotary door leaf 6 or the left rotary door leaf 5 is greatly improved, thereby effectively reducing the heat exchange between the inside and the outside of the chamber, greatly improving the heat insulation effect and achieving the purpose of energy conservation.

Further, as shown in fig. 2, 3 and 7, a fastener slot 313 is arranged on one side of the inner window mullion body 311 away from the right rotary door leaf 6 or the left rotary door leaf 5; the fastener clamping groove 313 is provided with a clamping fastener 80; a second connecting plate 90 is arranged at the position, located at the fastener clamping groove 313, of the inner window middle tappet 31; one end of the second connecting plate 90 is connected with the inner window mullion body 311 through a fastener 80, and the other end is provided with a fourth mounting groove 91;

a second glass 100 is disposed between the second connecting plate 90 and the fifth extending edge 322.

In this embodiment, the second glass 100 is bonded using a silicone structural sealant; the second connecting plate 90 and the fifth extending edge 322 are bonded with the second glass 100 through the fourth mounting groove 91 and the third mounting groove 324 under the action of a silicone structural sealant; the second glass 100 is a glass with a double-layer hollow structure, and heat-insulating sealant is arranged around the hollow glass.

Further, as shown in fig. 1, the door frame 1, the false mullion 2, the window mullion 3 and the doorsill 4 are all extruded aluminum profiles.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the present invention.

Claims (7)

1. The utility model provides a wear thermal-insulated energy-conserving vertical hinged door of strip, includes that door frame, false mullion, window mullion, threshold and setting are in levogyration door leaf and right turn door leaf in the door frame, its characterized in that:

the left rotating door leaf rotates by taking one side of the false middle stile as a shaft; the right rotating door leaf rotates by taking one side of the door frame as a shaft;

and the front, middle and rear positions between the left rotating door leaf, the right rotating door leaf, the door frame and the false middle stile are respectively provided with a first heat insulation piece, a second heat insulation piece and a third heat insulation piece.

2. The strip-penetrating heat-insulating energy-saving side-hung door according to claim 1, wherein the door frame comprises an inner door frame and an outer door frame; two or more heat insulation bridge cut-off penetrating strips are arranged between the inner door frame and the outer door frame; one sides of the inner door frame and the outer door frame, which are close to the heat insulation bridge-cut-off strip, are provided with first strip-penetrating clamping grooves; the heat insulation bridge-cut-off penetration strip is respectively clamped with the inner door frame and the outer door frame through a first penetration strip clamping groove;

the inner door frame comprises an inner door frame body and a first flange arranged on the same side of the left rotary door leaf; when the left rotary door leaf is closed, the third heat insulation piece is tightly attached to the first flange;

the outer door frame comprises an outer door frame body and a first extension edge extending along the direction of a left-turning door leaf of the outer door frame body; one end of the first extending edge, which is close to the left rotating door leaf, is provided with a first groove; the first heat insulation piece is arranged on the first groove;

the inner door frame body and one side of the outer door frame body, which is close to the left rotating door leaf, are provided with first clamping grooves; the second heat insulation piece is connected with the inner door frame body and the outer door frame body in a clamping mode through the two first clamping grooves.

3. The strip-penetrating heat-insulating energy-saving side-hung door according to claim 1, wherein the false middle stile comprises an inner false middle stile frame and an outer false middle stile frame; two or more heat insulation bridge-cut-off penetrating strips are arranged between the inner false middle tappet frame and the outer false middle tappet frame; second penetrating bar clamping grooves are formed in one sides, close to the heat insulation bridge-cut-off penetrating bars, of the inner false middle tappet frame and the outer false middle tappet frame; the heat insulation bridge-cut-off penetration strip is clamped with the inner false middle tappet frame and the outer false middle tappet frame through a second penetration strip clamping groove respectively;

the inner false middle support frame comprises an inner false middle support frame body and a second flange arranged on the same side of the right rotary door leaf; when the right rotary door leaf is closed, the third heat insulation piece is tightly attached to the second retaining edge;

the outer false middle support frame comprises an outer false middle support frame body and a second extending edge extending along the direction that the outer false middle support frame body rotates the door leaf rightwards; a second groove is formed in one end, close to the right rotating door leaf, of the second extending edge; the first heat insulation piece is arranged on the second groove;

the inner false mullion frame body and one side of the outer false mullion frame body, which is close to the right rotary door leaf, are both provided with a second clamping groove; the second heat insulation piece is connected with the inner false middle support body and the outer false middle support body in a clamped mode through two second clamping grooves.

4. The strip-penetrating heat-insulating energy-saving vertical hinged door according to claim 1, wherein each of the left rotating door leaf and the right rotating door leaf comprises an inner rotating door leaf frame and an outer rotating door leaf frame;

two or more heat insulation bridge-cut-off penetrating strips are arranged between the inner rotating door leaf frame and the outer rotating door leaf frame; third strip penetrating clamping grooves are formed in one sides, close to the heat insulation bridge-cut-off strip, of the inner rotating door leaf frame and one side, close to the heat insulation bridge-cut-off strip, of the outer rotating door leaf frame; the heat insulation bridge-cut-off passing strip is clamped with the inner rotating door leaf frame and the outer rotating door leaf frame through a third passing strip clamping groove respectively;

the internal rotating door leaf frame comprises an internal rotating door leaf frame body, a third extending edge and a limiting rib, wherein the third extending edge and the limiting rib are arranged on the same side of a false mullion or a door frame; the third extending edge is positioned above the limiting rib; a third groove is formed in one end, close to the false mullion or the door frame, of the third extending edge; the third heat insulation piece is arranged on the third groove;

when the left rotating door leaf or the right rotating door leaf is closed, one end, close to the inner rotating door leaf frame body, of the second heat insulation piece is tightly attached to the limiting rib;

a first connecting plate clamping groove is formed in one side, away from the false mullion or the door frame, of the inner rotating door leaf frame body; the first connecting plate clamping groove is provided with a clamped first connecting plate; the other end of the first connecting plate is provided with a first mounting groove;

the outer rotating door leaf frame comprises an outer rotating door leaf frame body and a notch arranged on the same side of the false middle stile or the door frame;

when the left rotating door leaf or the right rotating door leaf is closed, the first heat insulation piece is positioned in the notch and is tightly attached to the bottom of the notch;

one side of the outer rotating door leaf frame body, which is far away from the false mullion or the door frame, is provided with a fourth extension edge which extends towards the side far away from the outer rotating door leaf frame body; a second mounting groove is formed in one end, far away from the outer rotating door leaf frame body, of the fourth extending edge;

and a first glass is arranged between the first connecting plate and the fourth extending edge.

5. The strip-penetrating heat-insulating energy-saving side-hung door according to claim 1, wherein the window mullion comprises an inner window middle mullion frame and an outer window middle mullion frame; two or more heat insulation bridge-cut-off penetrating strips are arranged between the inner window middle tappet frame and the outer window middle tappet frame; a fourth strip penetrating clamping groove is formed in one side, close to the heat insulation bridge cut-off strip, of each of the inner window middle tappet frame and the outer window middle tappet frame; the heat insulation bridge-cut-off penetration strip is respectively clamped with the inner window middle tappet frame and the outer window middle tappet frame through a fourth penetration strip clamping groove;

the inner window mullion frame comprises an inner window middle mullion frame body and a third flange arranged on the same side of the right rotary door leaf or the left rotary door leaf; when the right rotary door leaf or the left rotary door leaf is closed, the third heat insulation piece is tightly attached to the third flange;

the outer window middle tappet frame comprises an outer window middle tappet frame body, a fifth extending edge and a sixth extending edge, wherein the fifth extending edge extends upwards along the outer window middle tappet frame body, and the sixth extending edge extends downwards along the outer window middle tappet frame body; a third mounting groove is formed in one end, away from the outer window middle tappet body, of the fifth extending edge, and a fourth groove is formed in one end, away from the outer window middle tappet body, of the sixth extending edge; the first heat insulation piece is arranged on the fourth groove;

third clamping grooves are formed in the inner window mullion frame body and one side, close to the right rotating door leaf or the left rotating door leaf, of the outer window mullion frame body; the second heat insulation piece is connected with the inner window mullion frame body and the outer window mullion frame body in a clamped mode through the two third clamping grooves.

6. The strip-penetrating heat-insulating energy-saving side hung door according to claim 5, wherein a fastener clamping groove is formed in one side, away from the right rotary door leaf or the left rotary door leaf, of the inner window mullion body; the fastener clamping groove is provided with a clamped fastener; a second connecting plate is arranged at the position, located at the fastener clamping groove, of the mullion frame of the inner window; one end of the second connecting plate is connected with the inner window mullion body through a fastener, and the other end of the second connecting plate is provided with a fourth mounting groove;

and second glass is arranged between the second connecting plate and the fifth extending edge.

7. The strip-penetrating heat-insulating energy-saving side hung door according to claim 1, wherein the door frame, the false middle stile, the window middle stile and the door sill are all extruded aluminum profiles.

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