CN211313861U - Heat-insulating and sound-insulating glass door and window structure - Google Patents

Heat-insulating and sound-insulating glass door and window structure Download PDF

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Publication number
CN211313861U
CN211313861U CN201922105578.4U CN201922105578U CN211313861U CN 211313861 U CN211313861 U CN 211313861U CN 201922105578 U CN201922105578 U CN 201922105578U CN 211313861 U CN211313861 U CN 211313861U
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China
Prior art keywords
outer frame
frame
heat
heat insulation
adhesive tape
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CN201922105578.4U
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陈国卡
陈勇
包毅
陈健
王润
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Shenzhen Xinshan Curtain Wall Technology Consultation Co Ltd
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Shenzhen Xinshan Curtain Wall Technology Consultation Co Ltd
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Abstract

The utility model relates to a glass door and window technical field, concretely relates to glass door and window structure of heat preservation and sound insulation. The method comprises the following steps: the door and window comprises a first hollow glass, a second hollow glass, a first outer frame, a second outer frame, a third outer frame and a fourth outer frame, wherein a first single-layer adhesive tape is arranged at the contact position of the first outer frame and the third outer frame, a second single-layer adhesive tape is arranged at the contact position of the second outer frame and the fourth outer frame, the first hollow glass and the second hollow glass are always positioned on an opening and closing shaft surface, the first hollow glass and the second hollow glass move towards the direction away from each other respectively when the door and the window are opened, a multi-cavity colloid is arranged on the second heat insulation rubber frame, and a plurality of cavities with different sizes are arranged in the multi-cavity colloid. The utility model discloses an adopt multicavity colloid and first thermal-insulated gluey frame overlap joint to play thermal-insulated and sound-proof effect, through separating the multicavity colloid for the cavity of a plurality of variation in size, can effectively reduce the convection current of air and the propagation of sound, increase the intensity of adhesive tape.

Description

Heat-insulating and sound-insulating glass door and window structure
Technical Field
The utility model relates to a glass door and window technical field, concretely relates to glass door and window structure of heat preservation and sound insulation.
Background
With the continuous progress of society and the continuous innovation of science and technology, the requirements of human life quality are continuously improved, the requirements of architectural style and architectural comfort are higher and higher, and the existing technology only adopts common adiabatic doors and windows and hollow glass to meet the heat preservation requirement.
Often near street and busy or commercial flourishing district, outdoor noise is great, and present sound insulation performance falls the effect that can not play the ideal to indoor noise reduction, causes great injury to indoor personnel's physiology and psychology to current door and window heat preservation effect is also not too good, and the northern area needs heat preservation and sound insulation function to the door and window structure, consequently needs a heat preservation and sound insulation's glass door and window structure simultaneously.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming the defects of the prior art and providing a heat-insulating and sound-insulating glass door and window structure.
The purpose of the utility model is realized through the following technical scheme:
a heat-insulating and sound-insulating glass door and window structure comprises: the first hollow glass, the second hollow glass, the first outer frame, the second outer frame, the third outer frame and the fourth outer frame are provided with a first single-layer adhesive tape at the contact position of the first outer frame and the third outer frame, a second single-layer adhesive tape at the contact position of the second outer frame and the fourth outer frame, the first outer frame and the second outer frame are fixedly arranged at two sides of the first hollow glass through sealing adhesive tapes, the third outer frame and the fourth outer frame are also fixedly arranged at two sides of the second hollow glass through the sealing adhesive tapes, the first outer frame and the second outer frame are fixedly connected through a first heat-insulating adhesive frame, the third outer frame and the fourth outer frame are fixedly connected through a second heat-insulating adhesive frame, foaming agents are filled in the first heat-insulating adhesive frame and the second heat-insulating adhesive frame, the end part of the first hollow glass is fixedly connected with the first heat-insulating adhesive frame through a first heat-insulating adhesive, and the end part of the second hollow glass is fixedly connected with the second heat-insulating adhesive frame through a second heat-, first cavity glass and second cavity glass are in all the time on the axial plane that opens and shuts, and first cavity glass and second cavity glass move towards keeping away from the other side direction respectively when door and window is opened, the thermal-insulated frame that glues of second is being close to first thermal-insulated gluey frame one side and is fixed and be equipped with the multicavity colloid, is equipped with the cavity of a plurality of variation in size in the multicavity colloid, and the cavity perpendicular to axial plane that opens and shuts in the multicavity colloid sets up side by side, and the contact surface slope in the axial plane that opens and shuts of the frame contact is glued with first thermal-.
Specifically, a first single-layer adhesive tape accommodating groove is formed in the contact position of the first outer frame and the third outer frame, the first single-layer adhesive tape is installed in the first single-layer adhesive tape accommodating groove, and the first outer frame is in contact with the third outer frame through the first single-layer adhesive tape; and a second single-layer adhesive tape accommodating groove is formed in the contact position of the fourth outer frame and the second outer frame, the second single-layer adhesive tape is installed in the second single-layer adhesive tape accommodating groove, and the fourth outer frame is in contact with the second outer frame through the second single-layer adhesive tape.
Specifically, the first heat insulation rubber frame is composed of a first heat insulation frame body and a second heat insulation frame body, the first outer frame and the second outer frame are fixedly connected through the first heat insulation frame body and the second heat insulation frame body, a first filling groove is formed between the first heat insulation frame body and the second heat insulation frame body, and foaming agents are filled in the first filling groove; the second heat insulation glue frame is composed of a third heat insulation frame body and a fourth heat insulation frame body, the third outer frame and the fourth outer frame are fixedly connected through the third heat insulation frame body and the fourth heat insulation frame body, a second filling groove is formed between the third heat insulation frame body and the fourth heat insulation frame body, and foaming agents are filled in the second filling groove.
Specifically, a plurality of heat insulation chambers are arranged inside the first heat insulation frame body, the second heat insulation frame body, the third heat insulation frame body and the fourth heat insulation frame body, and the heat insulation chambers are arranged side by side perpendicular to the opening and closing axial surface.
Specifically, the first outer frame, the second outer frame, the third outer frame and the fourth outer frame are all of a cavity structure.
Specifically, the multi-cavity colloid is arranged on the side, close to the first outer frame, of the colloid surface in an inclined mode, and the multi-cavity colloid is arranged on the side, close to the second outer frame, of the colloid surface in an inclined mode.
Compared with the prior art, the utility model following advantage and beneficial effect are included:
(1) the utility model discloses an adopt multicavity colloid and first thermal-insulated gluey frame overlap joint to play the effect thermal-insulated and sound insulation, through separating the multicavity colloid for the cavity of a plurality of variation in size, can effectively reduce the convection current of air and the propagation of sound, increase the intensity of adhesive tape, also ingenious increase the intensity of colloid, guarantee that the colloid is indeformable, make the colloid stable with the overlap joint that first thermal-insulated glued to guarantee opening of casement smoothly.
(2) The utility model discloses an adopt multicavity colloid, first thermal-insulated frame, the thermal-insulated frame of gluing of second, foamer, first cavity glass and second cavity glass to constitute an organic whole, the combined action is used for blocking the air convection and stops to the sound wave.
Drawings
Fig. 1 is a sectional view of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.
The utility model discloses a concrete implementation process as follows: as shown in fig. 1, a glass door and window structure with heat preservation and sound insulation includes: the heat insulation structure comprises first hollow glass 1, second hollow glass 2, a first outer frame 3, a second outer frame 4, a third outer frame 5 and a fourth outer frame 6, wherein a first single-layer adhesive tape 7 is arranged at the contact part of the first outer frame 3 and the third outer frame 5, a second single-layer adhesive tape 8 is arranged at the contact part of the second outer frame 4 and the fourth outer frame 6, the first outer frame 3 and the second outer frame 4 are fixedly arranged at two sides of the first hollow glass 1 through a sealing adhesive tape 9, the third outer frame 5 and the fourth outer frame 6 are also fixedly arranged at two sides of the second hollow glass 2 through a sealing adhesive tape 9, the first outer frame 3 and the second outer frame 4 are fixedly connected through a first heat insulation adhesive frame 10, the third outer frame 5 and the fourth outer frame 6 are fixedly connected through a second heat insulation adhesive frame 11, foaming agents 12 are filled in the first heat insulation adhesive frame 10 and the second heat insulation adhesive frame 11, the end part of the first hollow glass 1 is fixedly connected with the first heat insulation adhesive frame 10 through a first insulation adhesive 13, the end part of the second hollow glass 2 is fixedly connected with the second heat insulation rubber frame 11 through a second insulation rubber body 14, the plane where the first hollow glass 1 and the second hollow glass 2 are located is defined as an opening-closing axial surface 15, the first hollow glass 1 and the second hollow glass 2 are both opened and closed along the opening-closing axial surface 15, the first hollow glass 1 and the second hollow glass 2 are always located on the opening-closing axial surface 15, the first hollow glass 1 and the second hollow glass 2 respectively move towards the direction far away from each other when the door and the window are opened, a multi-cavity rubber body 16 is fixedly arranged on one side of the second heat insulation rubber frame 11 close to the first heat insulation rubber frame 10, a plurality of cavities with different sizes are arranged in the multi-cavity rubber body 16, the cavities in the multi-cavity rubber body 16 are arranged side by side perpendicular to the opening-closing axial surface 15, the contact surface of the multi-cavity rubber body 16 and the first heat insulation rubber frame 10 is inclined to the opening-closing axial surface 15, of course, the corresponding contact surfaces of the first heat insulation rubber frame 10 The glue 16 is provided with a plurality of cavities with different sizes in the multi-cavity glue 16, the cavities in the multi-cavity glue 16 are arranged side by side perpendicular to the opening and closing axial surface 15, the contact surface of the multi-cavity glue 16 and the first heat insulation glue frame 10 is inclined to the opening and closing axial surface 15, when the first heat insulation glue frame 10 is in contact with the multi-cavity glue 16, the multi-cavity glue 16 is divided by the cavities, air convection and sound transmission can be effectively blocked, and the partition layers between the cavities can also play the role of reinforcing ribs, so that the strength of the multi-cavity glue 16 is increased, the multi-cavity glue 16 is more stable when being lapped with the first heat insulation glue frame 10, the multi-cavity glue 16 can be prevented from being deformed after being used for a long time, and the sash is ensured to be opened smoothly, the heat preservation, the heat insulation and the sound insulation effects of the glass steel door window can be further improved by arranging the first single-, the foaming agent 12 has the function of filling gaps, can be well bonded, achieves a better sealing effect for building materials, has a heat insulation effect, and has good effects of sound absorption and the like.
Specifically, a first single-layer adhesive tape 7 accommodating groove is formed in the contact position of the first outer frame 3 and the third outer frame 5, the first single-layer adhesive tape 7 is installed in the first single-layer adhesive tape 7 accommodating groove, and the first outer frame 3 is in contact with the third outer frame 5 through the first single-layer adhesive tape 7; contact department of fourth outer frame 6 and second outer frame 4 is equipped with 8 holding tanks of second individual layer adhesive tape, 8 holding tanks of second individual layer adhesive tape are installed in 8 holding tanks of second individual layer adhesive tape, and fourth outer frame 6 passes through 8 contacts of second individual layer adhesive tape and second outer frame 4.
Specifically, the first heat insulation rubber frame 10 is composed of a first heat insulation frame body and a second heat insulation frame body, the first outer frame 3 and the second outer frame 4 are fixedly connected through the first heat insulation frame body and the second heat insulation frame body, a first filling groove is formed between the first heat insulation frame body and the second heat insulation frame body, and a foaming agent 12 is filled in the first filling groove; the second glue frame that insulates against heat 11 comprises the thermal-insulated framework of third and the thermal-insulated framework of fourth, the third frame 5 with the fourth frame 6 is through the thermal-insulated framework of third and the thermal-insulated framework fixed connection of fourth, is formed with the second filling groove between the thermal-insulated framework of third and the thermal-insulated framework of fourth, and the foaming agent 12 has been filled into in the second filling groove, and the setting of first thermal-insulated framework, the thermal-insulated framework of second, the thermal-insulated framework of third and the thermal-insulated framework of fourth can effectually block air convection and sound propagation to interlayer between the cavity can also play the effect of strengthening, has strengthened the intensity of thermal-insulated framework.
Specifically, a plurality of heat insulation chambers are arranged inside the first heat insulation frame body, the second heat insulation frame body, the third heat insulation frame body and the fourth heat insulation frame body, and the plurality of heat insulation chambers are arranged side by side perpendicular to the opening and closing axial surface 15.
Specifically, the first outer frame 3, the second outer frame 4, the third outer frame 5 and the fourth outer frame 6 are both cavity structures, and the cavity structures are arranged to reduce the weight of the outer frames and have sound insulation and heat insulation effects to a certain extent.
Specifically, the multi-cavity glue body 16 is arranged with the glue surface near the first outer frame 3 inclined to the opening-closing axial surface 15, and the multi-cavity glue body 16 is arranged with the glue surface near the second outer frame 4 inclined to the opening-closing axial surface 15.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (6)

1. A glass door and window structure with heat preservation and sound insulation is characterized by comprising: the first hollow glass, the second hollow glass, the first outer frame, the second outer frame, the third outer frame and the fourth outer frame are provided with a first single-layer adhesive tape at the contact position of the first outer frame and the third outer frame, a second single-layer adhesive tape at the contact position of the second outer frame and the fourth outer frame, the first outer frame and the second outer frame are fixedly arranged at two sides of the first hollow glass through sealing adhesive tapes, the third outer frame and the fourth outer frame are also fixedly arranged at two sides of the second hollow glass through the sealing adhesive tapes, the first outer frame and the second outer frame are fixedly connected through a first heat-insulating adhesive frame, the third outer frame and the fourth outer frame are fixedly connected through a second heat-insulating adhesive frame, foaming agents are filled in the first heat-insulating adhesive frame and the second heat-insulating adhesive frame, the end part of the first hollow glass is fixedly connected with the first heat-insulating adhesive frame through a first heat-insulating adhesive, and the end part of the second hollow glass is fixedly connected with the second heat-insulating adhesive frame through a second heat-, first cavity glass and second cavity glass are in all the time on the axial plane that opens and shuts, and first cavity glass and second cavity glass move towards keeping away from the other side direction respectively when door and window is opened, the thermal-insulated frame that glues of second is being close to first thermal-insulated gluey frame one side and is fixed and be equipped with the multicavity colloid, is equipped with the cavity of a plurality of variation in size in the multicavity colloid, and the cavity perpendicular to axial plane that opens and shuts in the multicavity colloid sets up side by side, and the contact surface slope in the axial plane that opens and shuts of the frame contact is glued with first thermal-.
2. The structure of claim 1, wherein a first single-layer adhesive tape accommodating groove is formed at a contact position of the first outer frame and the third outer frame, the first single-layer adhesive tape is installed in the first single-layer adhesive tape accommodating groove, and the first outer frame is in contact with the third outer frame through the first single-layer adhesive tape; and a second single-layer adhesive tape accommodating groove is formed in the contact position of the fourth outer frame and the second outer frame, the second single-layer adhesive tape is installed in the second single-layer adhesive tape accommodating groove, and the fourth outer frame is in contact with the second outer frame through the second single-layer adhesive tape.
3. The structure of claim 1, wherein the first thermal insulation frame is composed of a first thermal insulation frame and a second thermal insulation frame, the first outer frame and the second outer frame are fixedly connected through the first thermal insulation frame and the second thermal insulation frame, a first filling groove is formed between the first thermal insulation frame and the second thermal insulation frame, and a foaming agent is filled in the first filling groove; the second heat insulation glue frame is composed of a third heat insulation frame body and a fourth heat insulation frame body, the third outer frame and the fourth outer frame are fixedly connected through the third heat insulation frame body and the fourth heat insulation frame body, a second filling groove is formed between the third heat insulation frame body and the fourth heat insulation frame body, and foaming agents are filled in the second filling groove.
4. The structure of claim 3, wherein the first heat insulation frame, the second heat insulation frame, the third heat insulation frame and the fourth heat insulation frame have a plurality of heat insulation chambers therein, and the plurality of heat insulation chambers are arranged side by side perpendicular to the opening and closing axial plane.
5. A heat insulating and sound insulating glass door and window structure as claimed in claim 1, wherein said first outer frame, said second outer frame, said third outer frame and said fourth outer frame are all hollow structures.
6. A heat insulating and sound insulating glass door and window structure as claimed in claim 1, wherein the plural cavity molding compound is disposed with its molding surface adjacent to the first frame inclined to the opening/closing axis surface, and the plural cavity molding compound is disposed with its molding surface adjacent to the second frame inclined to the opening/closing axis surface.
CN201922105578.4U 2019-11-29 2019-11-29 Heat-insulating and sound-insulating glass door and window structure Active CN211313861U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922105578.4U CN211313861U (en) 2019-11-29 2019-11-29 Heat-insulating and sound-insulating glass door and window structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922105578.4U CN211313861U (en) 2019-11-29 2019-11-29 Heat-insulating and sound-insulating glass door and window structure

Publications (1)

Publication Number Publication Date
CN211313861U true CN211313861U (en) 2020-08-21

Family

ID=72078905

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201922105578.4U Active CN211313861U (en) 2019-11-29 2019-11-29 Heat-insulating and sound-insulating glass door and window structure

Country Status (1)

Country Link
CN (1) CN211313861U (en)

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