CN211313065U - Heat insulation partition plate - Google Patents
Heat insulation partition plate Download PDFInfo
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- CN211313065U CN211313065U CN201921225228.5U CN201921225228U CN211313065U CN 211313065 U CN211313065 U CN 211313065U CN 201921225228 U CN201921225228 U CN 201921225228U CN 211313065 U CN211313065 U CN 211313065U
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Abstract
The utility model discloses a heat preservation baffle plate, which comprises a rock wool layer, wherein a first sound insulation layer and a second sound insulation layer are respectively glued on two surfaces of the rock wool layer, the first sound insulation layer is connected with a first reinforced glass fiber cement-based thin felt layer, and the second sound insulation layer is connected with a second reinforced glass fiber cement-based thin felt layer; and the two ends of the heat-insulating partition board are respectively provided with a female rabbet and a male rabbet. The utility model discloses as indoor heat preservation baffle replaces original brick wall, and existing syllable-dividing effect has thermal-insulated effect again, and the texture is comparatively light simultaneously, easy to assemble and transportation.
Description
Technical Field
The utility model relates to an heated board field particularly, relates to a heat preservation baffle.
Background
The heat-insulating material is generally a light, loose, porous and fibrous material. It can be divided into organic materials and inorganic materials according to its composition. The former has better heat insulation performance than the latter, but the latter has better durability than the former. The heat conductivity coefficient is a main index for measuring the performance of the heat-insulating material. The smaller the thermal conductivity, the smaller the amount of heat transferred through the material, the better the thermal insulation performance, the thermal conductivity of the material is determined by the composition, internal structure, volume weight, etc. of the material, and also the average temperature during heat transfer and the water content of the material. In general, the lighter the volume weight, the smaller the thermal conductivity
The existing heat insulation materials are mostly applied to outer walls and are less applied to inner walls. And can tear open the partition wall of building a wall in to the room during current fitment house and carry out new overall arrangement mostly, and build a wall again not only troublesome, and the wall does not have the heat preservation effect moreover, and when a room air conditioner, the heat comes in through the wall body transmission easily, and the heat preservation effect is not good, has aggravated the consumption of electric energy.
An effective solution to the problems in the related art has not been proposed yet.
SUMMERY OF THE UTILITY MODEL
To the above-mentioned technical problem among the correlation technique, the utility model provides a thermal insulation baffle can solve above-mentioned problem.
In order to achieve the technical purpose, the technical scheme of the utility model is realized as follows:
a heat-insulation clapboard comprises a rock wool layer, wherein a first sound-insulation layer and a second sound-insulation layer are respectively glued on two surfaces of the rock wool layer, the first sound-insulation layer is connected with a first reinforced glass fiber cement-based thin felt layer, and the second sound-insulation layer is connected with a second reinforced glass fiber cement-based thin felt layer; and the two ends of the heat-insulating partition board are respectively provided with a female rabbet and a male rabbet.
Furthermore, a first panel layer is connected to the first reinforced glass fiber cement-based thin felt layer, and a second panel layer is connected to the second reinforced glass fiber cement-based thin felt layer.
Further, the thickness of the first reinforced glass fiber cement-based thin felt layer and the thickness of the second reinforced glass fiber cement-based thin felt layer are both 0.5-1 mm.
Furthermore, the female tongue-and-groove and the male tongue-and-groove between the adjacent heat preservation partition plates are mutually buckled.
Further, the thickness on rock wool layer is 20 ~ 50 mm.
Further, the first panel layer and the second panel layer are both wood boards.
Further, the first panel layer and the second panel layer are both wall bricks.
Further, the first panel layer and the second panel layer are wallpaper.
Further, the first panel layer and the second panel layer are both paint layers.
Furthermore, a sealing glue is coated at the joint of the female rabbet and the male rabbet.
The utility model has the advantages that: the utility model discloses as indoor heat preservation baffle replaces original brick wall, and existing syllable-dividing effect has thermal-insulated effect again, and the texture is comparatively light simultaneously, easy to assemble and transportation.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
FIG. 1 is a schematic view of the structure of the thermal insulation partition.
In the figure: 1. the sound insulation structure comprises a rock wool layer, 2 a first sound insulation layer, 3 a second sound insulation layer, 4 a first reinforced glass fiber cement-based thin felt layer, 5 a second reinforced glass fiber cement-based thin felt layer, 6 a first panel layer, 7 a second panel layer, 8 a female tongue-and-groove and 9 a male tongue-and-groove.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.
As shown in fig. 1, according to the embodiment of the present invention, a thermal insulation partition board includes a rock wool layer 1, a first sound insulation layer 2 and a second sound insulation layer 3 are respectively glued on two sides of the rock wool layer 1, the first sound insulation layer 2 is connected to a first reinforced glass fiber cement-based thin felt layer 4, and the second sound insulation layer 3 is connected to a second reinforced glass fiber cement-based thin felt layer 5; and the two ends of the heat-insulating partition board are respectively provided with a female rabbet 8 and a male rabbet 9. The rock wool layer 1 has good heat preservation effect, light weight and low price, is a suitable heat preservation material, the first reinforced glass fiber cement-based thin felt layer 4 and the second reinforced glass fiber cement-based thin felt layer 5 replace the original cement surface, and the subsequent processes of wall decoration can be performed on the reinforced glass fiber cement-based thin felt layer 4 and the second reinforced glass fiber cement-based thin felt layer 5. First puigging 2 and second puigging 3 mainly play syllable-dividing effect, and 1 texture on the rock wool layer between two-layer puigging gives sound insulation is comparatively soft, also does not benefit to the propagation of sound wave vibrations.
Further, a first panel layer 6 is connected to the first reinforced glass fiber cement-based thin felt layer 4, and a second panel layer 7 is connected to the second reinforced glass fiber cement-based thin felt layer 5. First panel layer 6 and second panel layer 7 can play pleasing to the eye effect such as waterproof as decorative layer or functional layer to follow-up manual processing is not only wasted time and energy, pollutes indoor environment again.
Further, the thickness of the first reinforced glass fiber cement-based mat layer 4 and the thickness of the second reinforced glass fiber cement-based mat layer 5 are both 0.5-1 mm. The first reinforced glass fiber cement-based thin felt layer 4 and the second reinforced glass fiber cement-based thin felt layer 5 have good bonding performance when the thickness is thick, and meanwhile, the thicker the thickness of the reinforced glass fiber cement-based thin felt layer 3 is, the higher the production difficulty is, and the thickness is a compromise between the bonding performance and the production difficulty.
Furthermore, the female rabbet 8 and the male rabbet 9 between the adjacent heat-insulating partition plates are buckled with each other. The female rabbet 8 and the male rabbet 9 facilitate splicing of the heat-insulation partition plates, improve the sealing performance of the heat-insulation partition plates, and leave a space room for expansion with heat and contraction with cold between two adjacent heat-insulation partition plates.
Further, the thickness of rock wool layer 1 is 20 ~ 50 mm. The thickness of rock wool chooses for use this thickness can guarantee good thermal-insulated effect, and the product of this specification is many on the market, and easy purchase, thicker rock wool heat preservation effect promotes not obvious moreover.
Further, the first panel layer 6 and the second panel layer 7 are both wood boards. The wood board has excellent appearance and touch feeling as an inner wall, and can adjust the humidity in the air.
Further, the first panel layer 6 and the second panel layer 7 are both wall bricks. The wall brick has the advantages of low price, good moisture resistance, various types, larger selection margin and more fastening bonding with the reinforced glass fiber cement-based thin felt layer.
Further, the first panel layer 6 and the second panel layer 7 are wallpaper. The wallpaper is directly pasted on the first reinforced glass fiber cement-based thin felt layer 4 and the second reinforced glass fiber cement-based thin felt layer 5, the process is convenient and simple, the weight is light, and the wallpaper can be replaced at any time.
Further, the first panel layer 6 and the second panel layer 7 are both paint layers. The paint layer is simple to spray, can be prepared into different colors, is not easy to fall off, and has good stability.
Furthermore, a sealant is coated at the joint of the female rabbet 8 and the male rabbet 9. The sealant can effectively seal the gap at the joint of the female rabbet 8 and the male rabbet 9, ensure that sound cannot be transmitted through the gap, and play a role in heat insulation and sound insulation.
For the convenience of understanding the above technical solutions of the present invention, the above technical solutions of the present invention are explained in detail through specific use modes below.
In the first embodiment, the heat preservation floor according to the present invention comprises a rock wool layer 1, wherein a first sound insulation layer 2 and a second sound insulation layer 3 are respectively bonded to two surfaces of the rock wool layer 1, the first sound insulation layer 2 is connected with a first reinforced glass fiber cement-based thin felt layer 4, and the second sound insulation layer 3 is connected with a second reinforced glass fiber cement-based thin felt layer 5; and the two ends of the heat-insulating partition board are respectively provided with a female rabbet 8 and a male rabbet 9. The rock wool layer 1 has good heat preservation effect, light weight and low price, is a suitable heat preservation material, the first reinforced glass fiber cement-based thin felt layer 4 and the second reinforced glass fiber cement-based thin felt layer 5 replace the original cement surface, and the subsequent processes of wall decoration can be performed on the reinforced glass fiber cement-based thin felt layer 4 and the second reinforced glass fiber cement-based thin felt layer 5. First puigging 2 and second puigging 3 mainly play syllable-dividing effect, and 1 texture on the rock wool layer between two-layer puigging gives sound insulation is comparatively soft, also does not benefit to the propagation of sound wave vibrations.
In the second embodiment, the heat preservation floor according to the present invention comprises a rock wool layer 1, wherein a first sound insulation layer 2 and a second sound insulation layer 3 are respectively bonded to two surfaces of the rock wool layer 1, the first sound insulation layer 2 is connected to a first reinforced glass fiber cement-based thin felt layer 4, and the second sound insulation layer 3 is connected to a second reinforced glass fiber cement-based thin felt layer 5; the two ends of the heat-insulating partition board are respectively provided with a female rabbet 8 and a male rabbet 9; the first reinforced glass fiber cement-based thin felt layer 4 is connected with a first panel layer 6, and the second reinforced glass fiber cement-based thin felt layer 5 is connected with a second panel layer 7. First panel layer 6 and second panel layer 7 can play pleasing to the eye effect such as waterproof as decorative layer or functional layer to follow-up manual processing is not only wasted time and energy, pollutes indoor environment again.
In the third embodiment, the heat preservation floor according to the utility model comprises a rock wool layer 1, wherein a first sound insulation layer 2 and a second sound insulation layer 3 are respectively glued on two surfaces of the rock wool layer 1, the first sound insulation layer 2 is connected with a first reinforced glass fiber cement-based thin felt layer 4, and the second sound insulation layer 3 is connected with a second reinforced glass fiber cement-based thin felt layer 5; the two ends of the heat-insulating partition board are respectively provided with a female rabbet 8 and a male rabbet 9; the first reinforced glass fiber cement-based thin felt layer 4 is connected with a first panel layer 6, and the second reinforced glass fiber cement-based thin felt layer 5 is connected with a second panel layer 7; the first panel layer 6 and the second panel layer 7 are both wood boards. The wood board has excellent appearance and touch feeling as an inner wall, and can adjust the humidity in the air.
In the fourth embodiment, the heat preservation floor according to the present invention comprises a rock wool layer 1, wherein a first sound insulation layer 2 and a second sound insulation layer 3 are respectively bonded to two surfaces of the rock wool layer 1, the first sound insulation layer 2 is connected to a first reinforced glass fiber cement-based thin felt layer 4, and the second sound insulation layer 3 is connected to a second reinforced glass fiber cement-based thin felt layer 5; the two ends of the heat-insulating partition board are respectively provided with a female rabbet 8 and a male rabbet 9; the first reinforced glass fiber cement-based thin felt layer 4 is connected with a first panel layer 6, and the second reinforced glass fiber cement-based thin felt layer 5 is connected with a second panel layer 7; the first panel layer 6 and the second panel layer 7 are both wall tiles. The wall brick has the advantages of low price, good moisture resistance, various types, larger selection margin and more fastening bonding with the reinforced glass fiber cement-based thin felt layer.
In the fifth embodiment, the heat preservation floor according to the utility model comprises a rock wool layer 1, wherein a first sound insulation layer 2 and a second sound insulation layer 3 are respectively glued on two surfaces of the rock wool layer 1, the first sound insulation layer 2 is connected with a first reinforced glass fiber cement-based thin felt layer 4, and the second sound insulation layer 3 is connected with a second reinforced glass fiber cement-based thin felt layer 5; the two ends of the heat-insulating partition board are respectively provided with a female rabbet 8 and a male rabbet 9; the first reinforced glass fiber cement-based thin felt layer 4 is connected with a first panel layer 6, and the second reinforced glass fiber cement-based thin felt layer 5 is connected with a second panel layer 7; the first and second panel layers 6, 7 are wallpaper. The wallpaper is directly pasted on the first reinforced glass fiber cement-based thin felt layer 4 and the second reinforced glass fiber cement-based thin felt layer 5, the process is convenient and simple, the weight is light, and the wallpaper can be replaced at any time.
Embodiment six, according to the utility model discloses a heat preservation floor, including rock wool layer 1, rock wool layer 1's both sides are glued respectively and are had first puigging 2 and second puigging 3, first puigging 2 is connected with first reinforcing glass fiber cement-based mat layer 4, second puigging 3 is connected with second reinforcing glass fiber cement-based mat layer 5; the two ends of the heat-insulating partition board are respectively provided with a female rabbet 8 and a male rabbet 9; the first reinforced glass fiber cement-based thin felt layer 4 is connected with a first panel layer 6, and the second reinforced glass fiber cement-based thin felt layer 5 is connected with a second panel layer 7; the first panel layer 6 is wallpaper, and the second panel layer 7 is a wood board.
Seventh embodiment, according to the utility model discloses a heat preservation floor, including rock wool layer 1, rock wool layer 1's both sides are glued respectively and are had first puigging 2 and second puigging 3, first puigging 2 is connected with first reinforcing glass fiber cement-based mat layer 4, second puigging 3 is connected with second reinforcing glass fiber cement-based mat layer 5; the two ends of the heat-insulating partition board are respectively provided with a female rabbet 8 and a male rabbet 9; the first reinforced glass fiber cement-based thin felt layer 4 is connected with a first panel layer 6, and the second reinforced glass fiber cement-based thin felt layer 5 is connected with a second panel layer 7; the first panel layer 6 is wallpaper, and the second panel layer 7 is a wall brick.
The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. A heat-insulation clapboard comprises a rock wool layer (1), and is characterized in that a first sound-insulation layer (2) and a second sound-insulation layer (3) are respectively glued on two surfaces of the rock wool layer (1), the first sound-insulation layer (2) is connected with a first reinforced glass fiber cement-based thin felt layer (4), and the second sound-insulation layer (3) is connected with a second reinforced glass fiber cement-based thin felt layer (5); and the two ends of the heat-insulating partition board are respectively provided with a female rabbet (8) and a male rabbet (9).
2. An insulating panel as claimed in claim 1, characterised in that: the first reinforced glass fiber cement-based thin felt layer (4) is connected with a first panel layer (6), and the second reinforced glass fiber cement-based thin felt layer (5) is connected with a second panel layer (7).
3. An insulating panel as claimed in claim 1, characterised in that: the thickness of the first reinforced glass fiber cement-based thin felt layer (4) and the thickness of the second reinforced glass fiber cement-based thin felt layer (5) are both 0.5-1 mm.
4. An insulating panel as claimed in claim 1, characterised in that: the female rabbet (8) and the male rabbet (9) between the adjacent heat-preservation partition plates are buckled with each other.
5. An insulating panel as claimed in claim 1, characterised in that: the thickness of rock wool layer (1) is 20 ~ 50 mm.
6. An insulating panel as claimed in claim 2, in which: the first panel layer (6) and the second panel layer (7) are both wood boards.
7. An insulating panel as claimed in claim 2, in which: the first panel layer (6) and the second panel layer (7) are both wall bricks.
8. An insulating panel as claimed in claim 2, in which: the first panel layer (6) and the second panel layer (7) are both wallpaper.
9. An insulating panel as claimed in claim 2, in which: the first panel layer (6) and the second panel layer (7) are both paint layers.
10. An insulating panel in accordance with claim 4, wherein: and sealant is coated at the joint of the female rabbet (8) and the male rabbet (9).
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CN201921225228.5U CN211313065U (en) | 2019-07-31 | 2019-07-31 | Heat insulation partition plate |
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CN201921225228.5U CN211313065U (en) | 2019-07-31 | 2019-07-31 | Heat insulation partition plate |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110359626A (en) * | 2019-07-31 | 2019-10-22 | 湖北卓宝建筑节能科技有限公司 | A kind of thermal-insulation baffle plate |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110359626A (en) * | 2019-07-31 | 2019-10-22 | 湖北卓宝建筑节能科技有限公司 | A kind of thermal-insulation baffle plate |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right |
Denomination of utility model: Thermal insulation partition Effective date of registration: 20221206 Granted publication date: 20200821 Pledgee: Bank of China Limited Wuhan Municipal sub branch Pledgor: HUBEI JOABOA BUILDING ENERGY CONSERVATION TECHNOLOGY Co.,Ltd. Registration number: Y2022420000374 |
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PE01 | Entry into force of the registration of the contract for pledge of patent right |