CN214497980U - Hollow glass heat-insulating energy-saving partition wall - Google Patents

Abstract

The utility model belongs to the technical field of the building materials technique and specifically relates to a cavity glass heat preservation energy-saving partition wall is related to, it includes along the keel, installs a plurality of perpendicular keels, installation on following the keel are a plurality of perpendicular keel on the perpendicular keel install along the keel and follow gypsum board on the keel and install along the keel and follow cavity glass between the keel, perpendicular keel along the length direction interval setting along the keel, along the keel perpendicular keel and still be provided with a plurality of vacuum heat insulating board between the keel of following, the vacuum heat insulating board is used for blockking the heat of external world. The application improves the problem that the heat insulation effect of the heat insulation energy-saving partition wall in the related technology is not enough.

Description

Hollow glass heat-insulating energy-saving partition wall

Technical Field

The application relates to the field of building material technology, in particular to a hollow glass heat-insulating energy-saving partition wall.

Background

The partition wall generally refers to a wall partitioning an inner space of a building. The partition walls are not load bearing and are generally required to be light, thin and have good sound insulation properties. With the progress and development of science and technology, more and more partitions have been designed and built in the direction of heat preservation and energy saving.

The existing heat-insulating and energy-saving partition wall generally comprises a plurality of keels, hollow glass arranged among the keels and gypsum boards arranged on the keels, and the heat exchange between the indoor space and the outdoor space is blocked by the heat insulation effect of the hollow glass.

With respect to the related art among the above, the inventors consider that the following drawbacks occur: by adopting the heat-preservation and energy-saving partition wall in the related technology, as only hollow glass exists, the condition of insufficient heat-insulation effect can exist in daily use, especially in summer, external heat can easily enter the room, and the indoor air conditioner is always operated at higher power consumption, thus being easy to cause waste.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the heat insulation effect of the heat-insulation energy-saving partition wall in the related art is not enough, the application provides a hollow glass heat-insulation energy-saving partition wall.

The application provides a cavity glass heat preservation energy-saving partition wall adopts following technical scheme:

the utility model provides a cavity glass heat preservation energy-saving partition wall, includes along the keel, installs along a plurality of perpendicular keels on the keel, the installation is a plurality of along top keel on the perpendicular keel install along the keel and along the gypsum board on the top keel and install along the keel and along cavity glass between the top keel, perpendicular keel along the length direction interval along the keel sets up, along the keel erect the keel and still be provided with a plurality of vacuum heat insulating board between the top keel, the vacuum heat insulating board is used for blockking the heat of external world.

Through adopting above-mentioned technical scheme, energy-conserving partition wall of heat preservation has not only adopted cavity glass, has still set up a plurality of vacuum heat insulating boards along keel, vertical keel and along having set up between the fossil fragments of top, and the vacuum heat insulating board can reduce external and indoor heat exchange effectively to make energy-conserving partition wall of heat preservation have better thermal-insulated effect. Therefore, the hollow glass heat-insulating energy-saving partition wall solves the problem of insufficient heat-insulating effect of the heat-insulating energy-saving partition wall in the related art.

Optionally, the vertical keel comprises a support piece and bending pieces arranged on two opposite sides of the support piece, and the bending pieces are in threaded connection with the ground keel and the top keel.

Through adopting above-mentioned technical scheme, when the installation is erected fossil fragments, only need through threaded connection's mode will bend the piece install along the ground fossil fragments and along the top fossil fragments on can, because threaded connection has the advantage of the dismouting of being convenient for, be convenient for follow-up maintain or change erecting fossil fragments, increase the usability of heat preservation energy-saving partition wall.

Optionally, a first retaining wall and a second retaining wall are installed on the bending piece, the first retaining wall and the second retaining wall are used for installing the vacuum heat insulation plate, and the vacuum heat insulation plate is embedded between the first retaining wall and the second retaining wall.

Through adopting above-mentioned technical scheme, when needs installation vacuum heat insulating board, only need with the gomphosis of vacuum heat insulating board between first barricade and second barricade, just can accomplish the installation of vacuum heat insulating board for the installation of vacuum heat insulating board is simple and convenient.

Optionally, the number of the vacuum heat insulation boards is two, and the two vacuum heat insulation boards are pressed between the first retaining wall and the second retaining wall.

Through adopting above-mentioned technical scheme, set up two piece at least vacuum insulation boards, obtain better thermal-insulated effect.

Optionally, the keel structure further comprises a cross-brace keel installed on the vertical keel.

Through adopting above-mentioned technical scheme, the stull fossil fragments can increase the structural strength of vertical keel, and vertical keel is difficult for taking place to warp under the effect of stull fossil fragments to increase the job stabilization nature of cavity glass heat preservation energy-saving partition wall.

Optionally, the stull fossil fragments have two at least, and a plurality of the stull fossil fragments along the direction of height interval of vertical keel sets up, the axis level of stull fossil fragments sets up.

Through adopting above-mentioned technical scheme, set up two piece at least stull fossil fragments, further improve the structural strength and the job stabilization nature of vertical keel.

Optionally, the vertical keel is provided with a matching hole, and the cross-brace keel is arranged on the vertical keel in a penetrating manner after the matching hole is formed.

Through adopting above-mentioned technical scheme, when the installation stull fossil fragments, only need pass the mating holes of erecting fossil fragments with the stull fossil fragments and support and press in the mating holes, the mating holes can exert a holding power to the stull fossil fragments, and reuse threaded connection fixes the stull fossil fragments on erecting fossil fragments, just can accomplish the installation of stull fossil fragments, and the simple installation of stull fossil fragments is convenient, increases the energy-conserving partition's of heat preservation simple installation nature.

Optionally, the vertical keel is in threaded connection with the edge keel, and the vertical keel is in threaded connection with the edge top keel.

Through adopting above-mentioned technical scheme, along the keel the centre keel and along the installation between the top fossil fragments is simple and convenient, in addition, because threaded connection has the advantage of the dismouting of being convenient for, it is subsequent right to be convenient for the energy-conserving partition wall that keeps warm maintains or repairs, increases the usability of the energy-conserving partition wall that keeps warm.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the heat-insulation energy-saving partition wall, the hollow glass and the vacuum heat-insulation plate are matched, and both the hollow glass and the vacuum heat-insulation plate can block external heat, so that the indoor temperature is kept stable and comfortable, the heat-insulation effect of the heat-insulation energy-saving partition wall is better than that of a scheme before improvement, and the problem that the heat-insulation effect of a heat-insulation energy-saving partition wall in the related technology is insufficient is solved;

2. all use threaded connection's mode to install along ground fossil fragments, riser between fossil fragments, along top fossil fragments and the stull fossil fragments for the simple and follow-up maintenance of installation or the repair of heat preservation energy-saving partition wall is convenient, increases heat preservation energy-saving partition wall's usability.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of an insulating and energy-saving partition wall made of hollow glass according to the present application;

FIG. 2 is a schematic diagram of an explosion structure of an embodiment of the hollow glass heat-insulating energy-saving partition wall;

fig. 3 is a side view of an embodiment of the hollow glass heat-insulating energy-saving partition wall.

Description of reference numerals: 1. along the ground keel; 2. a vertical keel; 21. a support member; 22. bending a piece; 221. a first retaining wall; 222. a second retaining wall; 223. a third retaining wall; 224. a first mounting portion; 225. a second mounting portion; 23. a mating hole; 3. along the top keel; 4. a gypsum board; 5. a vacuum insulation panel; 6. and (4) a cross-bracing keel.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a hollow glass heat-insulating energy-saving partition wall. Referring to fig. 1, the insulating and energy-saving partition wall of hollow glass comprises a plurality of vertical keels 2 installed along the ground keel 1, a top keel 3 installed along the vertical keels 2, a gypsum board 4 installed along the ground keel 1 and along the top keel 3, and hollow glass (not shown in the figure) installed along the ground keel 1 and between the top keels 3, and the specific structure and installation of the hollow glass are the prior art and are not described in detail.

Referring to fig. 2, the cross-section along the floor keel 1 for supporting the mullion 2 and also along the ceiling keel 3 is generally "U" shaped and horizontally disposed along the axis of the floor keel 1. The stud 2 comprises a support element 21 and two bending elements 22 which are each fixedly arranged on both sides of the support element 21. Specifically, support piece 21 is the cuboid type roughly, the axis of support piece 21 is vertical to be set up, the length direction of support piece 21 is the same with the length direction along keel 1, the horizontal cross-section of piece 22 of bending is "U" type roughly, each support piece 21 corresponds two pieces 22 of bending, two pieces 22 of bending are located the both sides that support piece 21 length direction is relative respectively, support piece 21 can integrated into one piece with piece 22 of bending, support piece 21 also can be through welded fastening with piece 22 of bending, support piece 21 also can use threaded connection with piece 22 of bending, select according to actual conditions can.

Referring to fig. 2 and 3, the vertical keel 2 is arranged along the length direction interval along the ground keel 1, in order to make the vertical keel 2 installed along the ground keel 1, one side of the height direction of each bending piece 22 is provided with a first installation part 224, the first installation part 224 is provided with a first through hole, correspondingly, the ground keel 1 is provided with a first threaded hole, and the first through hole is internally provided with a countersunk head screw which is in threaded connection with the first threaded hole. In this embodiment, there are two first through holes, and the number of the first threaded holes is the same as that of the first through holes and corresponds to one another.

Install along top fossil fragments 3 and keep away from one side along ground fossil fragments 1 at vertical keel 2, be "U" shape along the vertical cross-section of top fossil fragments 3 roughly, for the installation along top fossil fragments 3, vertical keel 2 has second installation department 225 on keeping away from one side of first installation department 224, has seted up the second through-hole on the second installation department 225, and is corresponding, set up on along top fossil fragments 3 with second through-hole matched with second screw hole, install the countersunk screw of threaded connection on the second screw hole in the second through-hole. In this embodiment, there are two second through holes, and the number of the second threaded holes is the same as that of the second through holes and corresponds to that of the second through holes one to one.

Thus, by providing a first mounting portion 224 and a second mounting portion 225 on the mullion 2, the mullion 2 is threadably mounted along the ground keel 1 as well as along the top keel 3. Because threaded connection has the advantage of the dismouting of being convenient for, be convenient for on the one hand install the centre keel 2, on the other hand is convenient for follow-up maintenance or change centre keel 2, increases the usability of heat preservation energy-saving partition wall.

Simultaneously, in order to increase the structural strength of the mullion 2, a plurality of stull keels 6 are installed on the mullion 2, and the stull keels 6 are arranged along the height direction of the mullion 2 at intervals. Specifically, the support member 21 and the bending member 22 of the vertical keel 2 are provided with matching holes 23, the matching holes 23 are substantially H-shaped, the vertical cross section of the cross-brace keel 6 is substantially H-shaped to adapt to the matching holes 23, and the cross-brace keel 6 is installed in the matching holes 23. The axis level of stull fossil fragments 6 sets up, the both sides of stull fossil fragments 6 have the third installation department that is the cuboid type roughly, after stull fossil fragments 6 passed mating holes 23, the third installation department of stull fossil fragments 6 both sides can laminate on the inner wall of erecting fossil fragments 2, and seted up third screw hole (not shown in the figure) on the third installation department, third through-hole (not shown in the figure) has been seted up on erecting fossil fragments 2, install threaded connection in the third through-hole third screw (not shown in the figure), the type of third screw is countersunk screw. Through setting up stull fossil fragments 6 for vertical joist 2 is difficult for taking place to warp under the effect of stull fossil fragments 6, thereby increases the job stabilization nature of heat preservation energy-saving partition wall.

Vacuum insulation panels 5 are installed between the edge keel 1 and the edge ceiling keel 3, and a first retaining wall 221 and a second retaining wall 222 are fixedly installed on the bent piece 22 of the vertical keel 2 in order to install the vacuum insulation panels 5. Specifically, the first retaining wall 221 is substantially rectangular parallelepiped, the second retaining wall 222 is substantially rectangular parallelepiped, and the first retaining wall 221 and the second retaining wall 222 are respectively disposed on two sides of the vertical keel 2 in the width direction. For the convenience of distinction, a first accommodating space is formed among the first retaining wall 221, the second retaining wall 222, the cross-brace keel 6 and the edge keel 1; a second accommodating space is formed among the first retaining wall 221, the second retaining wall 222, the cross-brace keel 6 and the other cross-brace keel 6; a third receiving space is formed among the first retaining wall 221, the second retaining wall 222, the cross-brace joists 6 and the roof joists 3. The vacuum insulation panels 5 are placed in the first accommodation space, the second accommodation space, and the third accommodation space.

In order to obtain a better heat insulation effect, two vacuum heat insulation plates 5 are installed in each of the first accommodating space, the second accommodating space and the third accommodating space, meanwhile, a third retaining wall 223 is fixedly arranged on the bending piece 22, and the third retaining wall 223 is used for separating the two vacuum heat insulation plates 5. By providing the third retaining wall 223, the two vacuum insulation panels 5 will be pressed between the first retaining wall 221 and the second retaining wall 222, thereby blocking the external heat.

Gypsum board 4 is the cuboid type generally, and gypsum board 4 passes through self-tapping screw's mode threaded connection along the keel 1 and along top keel 3 on, and the installation of gypsum board 4 is prior art, no longer gives unnecessary details.

The application principle of cavity glass heat preservation energy-saving partition wall of this application embodiment does: install the keel 2 on following the keel 1, install stull keel 6 on the keel 2, will follow top keel 3 again and install on the keel 2, with the first chamber that holds, the second holds the chamber and the third holds the chamber of holding of vacuum heat insulating board 5 embedding, install gypsum board 4 to following keel 1 and along top keel 3 on at last, accomplish the installation of heat preservation energy-saving partition wall.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a cavity glass heat preservation energy-saving partition wall which characterized in that: include along ground fossil fragments (1), install along a plurality of perpendicular fossil fragments (2), installation on ground fossil fragments (1) it is a plurality of to erect along top fossil fragments (3) on fossil fragments (2), install along ground fossil fragments (1) and along gypsum board (4) on top fossil fragments (3) and install along ground fossil fragments (1) and along cavity glass between top fossil fragments (3), perpendicular fossil fragments (2) along the length direction interval of following ground fossil fragments (1) sets up, along ground fossil fragments (1) perpendicular fossil fragments (2) and still be provided with a plurality of vacuum heat insulating board (5) between top fossil fragments (3), vacuum heat insulating board (5) are used for blockking external heat.

2. The insulating and energy-saving partition wall made of hollow glass as claimed in claim 1, wherein: the vertical keel (2) comprises a support piece (21) and bending pieces (22) arranged on two opposite sides of the support piece (21), and the bending pieces (22) are in threaded connection with the ground keel (1) and the top keel (3).

3. The insulating and energy-saving partition wall made of hollow glass as claimed in claim 2, wherein: install first barricade (221) and second barricade (222) on bending piece (22), first barricade (221) and second barricade (222) are used for the installation vacuum insulation board (5), vacuum insulation board (5) gomphosis is in first barricade (221) and between second barricade (222).

4. A hollow glass thermal insulation energy-saving partition wall according to claim 3, characterized in that: the vacuum heat insulation plates (5) are two, and the vacuum heat insulation plates (5) are pressed between the first retaining wall (221) and the second retaining wall (222).

5. An insulating and energy-saving partition wall made of hollow glass as claimed in any one of claims 1 to 4, wherein: the steel plate frame also comprises a cross-bracing keel (6) arranged on the vertical keel (2).

6. The insulating and energy-saving partition wall made of hollow glass as claimed in claim 5, wherein: the transverse strut keels (6) are at least two, the transverse strut keels (6) are arranged along the height direction of the vertical keels (2) at intervals, and the axial lines of the transverse strut keels (6) are horizontally arranged.

7. The insulating and energy-saving partition wall made of hollow glass as claimed in claim 6, wherein: the vertical keel (2) is provided with a matching hole (23), and the cross-brace keel (6) is arranged in the matching hole (23) in a penetrating manner and then is connected to the vertical keel (2) through threads.

8. The insulating and energy-saving partition wall made of hollow glass as claimed in claim 1, wherein: the vertical keel (2) is in threaded connection with the ground keel (1), and the vertical keel (2) is in threaded connection with the top keel (3).

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