CN212613150U - Building energy-saving wall - Google Patents

Abstract

The utility model provides a building energy conservation wall body, the utility model relates to an energy-conserving wall body technical field, building energy conservation wall body includes: the wallboard comprises an XPS plate, a fireproof plate and an acoustic board, wherein the fireproof plate is positioned on the outer side of the XPS plate, the acoustic board is positioned on the inner side of the XPS plate, a plurality of strip-shaped grooves which are longitudinally distributed are uniformly formed in the left side of the XPS plate, a plurality of through holes which are longitudinally distributed are uniformly formed in the inner side of the XPS plate, the through holes and the strip-shaped grooves are in one-to-one correspondence and are communicated, a drying screen plate is embedded in each through hole, an acoustic cotton sliver is embedded in each strip-shaped groove, and an inserting strip is fixed in; the beneficial effects of the utility model reside in that: can carry out drying process to moist air, prevent that the steam in the air from entering into the XPS inboard through the through-hole inside, and then can prevent that the XPS board from rotting, have good syllable-dividing effect, the XPS inboard is the fretwork state, has alleviateed the weight of XPS board to make the wallboard more light.

Description

Building energy-saving wall

Technical Field

The utility model belongs to the technical field of energy-conserving wall body technique and specifically relates to a building energy conservation wall body is related to.

Background

The wall body mainly comprises a bearing wall and a non-bearing wall, and the wall body mainly plays a role in enclosing and separating a space. The wall body of the wall bearing structure building integrates bearing and enclosure, and the function of the framework structure system building wall body is enclosure and space separation. The wall bodies are various, and comprise wall bodies made of single materials and wall bodies made of composite materials. The factors of enclosure, bearing, energy conservation, beauty and the like are comprehensively considered, and a reasonable wall scheme is designed, so that the method is an important task of building construction.

The existing building energy-saving wall body is poor in sound insulation effect, the sound volume of occasions such as a music hall, a conference hall, a drama hall and the like is high, the sound insulation effect of the wall body is poor, sound can be directly transmitted outdoors, the outdoor environment is affected, and in addition, when a room is wet, the energy-saving wall body is easily corroded, and the service life of the energy-saving wall body is shortened.

SUMMERY OF THE UTILITY MODEL

The utility model provides a building energy-saving wall body can carry out drying process to moist air, prevents that the steam in the air from passing through the through-hole and entering into the XPS inboard, and then can prevent that the XPS board from corrupting, has good syllable-dividing effect, and the XPS inboard is the fretwork state, has alleviateed the weight of XPS board to make the wallboard lighter, with the problem of proposing in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a building energy saving wall, comprising:

the wallboard, the wallboard includes XPS board, PLASTIC LAMINATED and abatvoix, the PLASTIC LAMINATED is located the XPS inboard, the abatvoix is located the XPS inboard, the XPS board left side is evenly opened has a plurality of to be the bar groove of longitudinal distribution, just the through-hole that a plurality of is longitudinal distribution is evenly opened to the XPS inboard, the through-hole communicates with each other with bar groove one-to-one, just all imbeds in the through-hole and has dry otter board, the bar inslot embedding has the sound silver of inhaling, just the XPS board top is middle to be fixed with the cutting, open the XPS board bottom has the slot, the slot is identical with the cutting shape size, just the fixed a plurality of on XPS board right side and the cutting of bar groove one-to-one.

Preferably, the drying screen plate is filled with drying particles, and the drying screen plate is in contact with the sound absorption plate.

Preferably, the four corners department of the inside and outside both sides of XPS board all opens flutedly, two of top the recess upside all extends the XPS board, two of below the recess downside all extends the XPS board, the slot is located two of below between the recess.

Preferably, the clamping strips are fixed inside the grooves, and clamping grooves are formed in the upper surfaces of the clamping strips.

Preferably, the fireproof plate and the sound-absorbing plate are close to the upper and lower four corners of one side of the XPS plate and are hinged with connecting blocks, the inner sides of the connecting blocks are welded with clamping blocks, the connecting blocks correspond to the clamping strips one to one, and the clamping blocks are clamped with the clamping grooves.

Preferably, the total length of the insert and the sound-absorbing tampon is equal to the depth of the strip-shaped groove.

Preferably, the wallboard is equipped with a plurality of pieces, a plurality of the wallboard all is about arranging, the below the cutting inserts the top on the wallboard in the slot, right-hand on the wallboard the cutting embedding bar inslot.

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

according to the building energy-saving wall, the XPS plate has low water absorption, low thermal conductivity, high pressure resistance and ageing resistance, so that the wallboard has good waterproof, pressure-resistant, ageing-resistant and heat-insulating effects;

the sound-absorbing plate is porous, when air in a room is humid, the humid air can penetrate through the holes in the sound-absorbing plate to enter the through holes, and the drying particles are filled in the drying screen plates in the through holes, so that the humid air can be dried, water vapor in the air is prevented from entering the XPS plate through the through holes, the XPS plate can be prevented from being corroded, and the service life of the XPS plate can be prolonged;

the noise absorbed by the sound-absorbing plate can penetrate through the through holes to enter the strip-shaped grooves and then be absorbed by the sound-absorbing cotton strips, so that the noise-absorbing effect is achieved, and the sound-insulating effect of the wallboard is further enhanced;

the bar-shaped grooves are arranged for placing sound-absorbing cotton slivers; secondly, the strip-shaped groove is matched with the inserting block for use, so that two adjacent wallboards are spliced together conveniently; and thirdly, the XPS board is hollow inside, so that the weight of the XPS board is reduced, the wallboard is lighter, and meanwhile, the wallboard is more energy-saving.

Drawings

Fig. 1 is a schematic view of the left side cross-sectional structure of the wall panel of the present invention;

fig. 2 is a schematic view of the cross-sectional structure of the inside of the XPS board of the present invention;

fig. 3 is a schematic diagram of the local structure of the XPS board a of the present invention.

The labels in the figure are: 1-wallboard; 2-XPS plates; 3-fireproof plate; 4-acoustic panel; 5-a strip-shaped groove; 6-sound absorbing cotton sliver; 7-a through hole; 8-drying the screen plate; 9-cutting; 10-slot; 11-a groove; 12-a card strip; 13-a card slot; 14-connecting blocks; 15-a fixture block; 16-insert block.

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.

As shown in fig. 1 to 3, a building energy saving wall includes:

wallboard 1, wallboard 1 includes XPS board 2, PLASTIC LAMINATED 3 and abatvoix 4, PLASTIC LAMINATED 3 is located the XPS board 2 outside, abatvoix 4 is located the XPS board 2 inboard, the even strip groove 5 that has a plurality of to be longitudinal distribution of opening in XPS board 2 left side, just the even through-hole 7 that has a plurality of to be longitudinal distribution of opening in XPS board 2 inboard, through-hole 7 and strip groove 5 one-to-one communicate with each other, just all imbed dry otter board 8 in the through-hole 7, the embedding has the sound of inhaling cotton sliver 6 in strip groove 5, and be fixed with cutting 9 in the middle of XPS board 2 top, open XPS board 2 bottom has slot 10, slot 10 is identical with cutting 9 shape size, just the fixed cutting 16 of a plurality of and strip groove 5 one-to-one in XPS board 2 right side;

the drying screen plate 8 is filled with drying particles, and the drying screen plate 8 is in contact with the sound absorption plate 4;

grooves 11 are formed in four corners of the inner side and the outer side of the XPS board 2, the upper sides of the two upper grooves 11 extend out of the XPS board 2, the lower sides of the two lower grooves 11 extend out of the XPS board 2, and the slot 10 is located between the two lower grooves 11;

clamping strips 12 are fixed inside the grooves 11, and clamping grooves 13 are formed in the upper surfaces of the clamping strips 12;

the fireproof plate 3 and the sound absorption plate 4 are hinged with connecting blocks 14 at the upper and lower four corners of one side close to the XPS plate 2, clamping blocks 15 are welded on the inner sides of the connecting blocks 14, the connecting blocks 14 correspond to the clamping strips 12 one by one, and the clamping blocks 15 are clamped with the clamping grooves 13;

the total length of the insert 16 and the sound-absorbing cotton strip 6 is equal to the depth of the strip-shaped groove 5;

the wallboard 1 is provided with a plurality of blocks, the plurality of blocks of the wallboard 1 are all arranged up and down, left and right, the inserting strip 9 on the wallboard 1 at the lower part is inserted into the inserting groove 10 on the wallboard 1 at the upper part, and the inserting block 16 on the wallboard 1 at the right part is embedded into the strip-shaped groove 5;

specifically, when a user needs to splice a plurality of wallboards 1 together, the insertion block 16 on the first wallboard 1 is inserted into the strip-shaped groove 5 of the second wallboard 1, so that the two wallboards 1 are arranged and fixed in a left-right mode, then the third wallboard 1 is taken up, and the insertion strip 9 on the third wallboard is embedded into the insertion groove 10 on the first wallboard 1 from the side surface, so that the first wallboard 1 and the third wallboard 1 are arranged and fixed in an upper-lower mode, and the wallboards 1 can be spliced together according to the method, so that the operation is simple, and the splicing is convenient for the user;

the XPS plate 2 has low water absorption, low thermal conductivity, high pressure resistance and ageing resistance, so that the wallboard 1 has good waterproof, pressure-resistant, ageing-resistant and heat-insulating effects, the fireproof plate 3 is positioned outside the XPS plate 2, plays a fireproof role in the XPS plate 2, enhances the fireproof performance of the wallboard 1, and the sound-absorbing plate 4 has good sound-absorbing effect, can absorb noise in a room, so that the wallboard 1 has strong sound-insulating performance;

the sound-absorbing plate 4 is porous, when air in a room is humid, humid air can penetrate through the holes in the sound-absorbing plate 4 to enter the through holes 7, and due to the fact that the drying particles are arranged in the drying screen 8 in the through holes 7, the humid air can be dried, water vapor in the air is prevented from entering the XPS plate 2 through the through holes 7, further the XPS plate 2 can be prevented from being decomposed, and the service life of the XPS plate 2 can be prolonged;

the noise absorbed by the sound-absorbing plate 4 can pass through the through hole 7 to enter the strip-shaped groove 5 and then be absorbed by the sound-absorbing cotton strip 6, so that the sound-absorbing effect is achieved, and the sound-insulating effect of the wallboard 1 is further enhanced;

the strip-shaped groove 5 is arranged for placing the sound absorption cotton sliver 6; secondly, the strip-shaped groove 5 is matched with the inserting block 16 for use, so that two adjacent wallboards 1 can be conveniently spliced together; the third for 2 inside fretwork states that are of XPS board have alleviateed 2 weight of XPS board, thereby make wallboard 1 more light, make the wallboard more energy-conserving simultaneously.

It should be understood that any modification, equivalent replacement, and improvement made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (7)

1. A building energy saving wall, characterized in that the building energy saving wall comprises:

a wall panel (1), the wall panel (1) comprising an XPS board (2), a fire protection board (3) and an acoustic panel (4), the fireproof plate (3) is positioned outside the XPS plate (2), the sound absorption plate (4) is positioned inside the XPS plate (2), the left side of the XPS plate (2) is evenly provided with a plurality of strip-shaped grooves (5) which are longitudinally distributed, and the inner side of the XPS plate (2) is evenly provided with a plurality of through holes (7) which are longitudinally distributed, the through holes (7) are in one-to-one correspondence and are communicated with the strip-shaped grooves (5), and the through holes (7) are embedded with drying screens (8), the strip-shaped grooves (5) are embedded with sound-absorbing cotton slivers (6), and the middle of the top of the XPS board (2) is fixed with an inserting strip (9), the bottom of the XPS board (2) is provided with a slot (10), the slot (10) is matched with the inserting strip (9) in shape and size, and a plurality of inserting blocks (16) which correspond to the strip-shaped grooves (5) one by one are fixed on the right side of the XPS plate (2).

2. The building energy-saving wall body as claimed in claim 1, wherein: the drying screen plate (8) is filled with drying particles, and the drying screen plate (8) is in contact with the sound absorption plate (4).

3. The building energy-saving wall body as claimed in claim 1, wherein: the four corners department of inside and outside both sides of XPS board (2) all opens flutedly (11), two of top recess (11) upside all extends XPS board (2), two of below recess (11) downside all extends XPS board (2), slot (10) are located two of below between recess (11).

4. The building energy-saving wall body as claimed in claim 3, wherein: the clamping strips (12) are fixed inside the grooves (11), and clamping grooves (13) are formed in the upper surfaces of the clamping strips (12).

5. The building energy-saving wall body as claimed in claim 4, wherein: fireproof plate (3) and abatvoix (4) are close to the upper and lower side of XPS board (2) one side and all articulate there is connecting block (14), connecting block (14) inboard all welds fixture block (15), just connecting block (14) and card strip (12) one-to-one, fixture block (15) and draw-in groove (13) joint.

6. The building energy-saving wall body as claimed in claim 1, wherein: the total length of the insert block (16) and the sound-absorbing cotton strip (6) is equal to the depth of the strip-shaped groove (5).

7. The building energy-saving wall body as claimed in claim 6, wherein: wallboard (1) is equipped with a plurality of pieces, a plurality of about wallboard (1) all is arranged, the below about the side on wallboard (1) cutting (9) insert the top on wallboard (1) in slot (10), right-hand on wallboard (1) cutting (16) imbeds in bar groove (5).

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