CN204492071U - Architecture indoor sound-absorbing ceiling - Google Patents
Architecture indoor sound-absorbing ceiling Download PDFInfo
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- CN204492071U CN204492071U CN201520200694.3U CN201520200694U CN204492071U CN 204492071 U CN204492071 U CN 204492071U CN 201520200694 U CN201520200694 U CN 201520200694U CN 204492071 U CN204492071 U CN 204492071U
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Abstract
The utility model discloses architecture indoor sound-absorbing ceiling, comprise square intermediate structure, top fiber, lowermost fibre, described intermediate structure is sandwiched between top fiber and lowermost fibre.Described intermediate structure comprises glass layer, polymerism porous fiber layer, hole-opening foaming material layer, multiple pieces of glass fiber superposes formation glass layer mutually, two-layer polymerism porous fiber layer clamping glass fibrage, hole-opening foaming material layer clamping polymerism porous fiber layer.The structure of described top fiber and lowermost fibre is completely the same, and top fiber comprises the net structure be made into by glass fiber yarn, and described cancellated spaced surface is inlaid with fiber cashmere surface, smooth surface and fiber pelletizing.The surface sprinkling of top fiber has sprayed coating.The utility model strengthens the sound-absorbing effect of acoustic ceiling, simultaneously by the coating different from bottom on surface, does not affect overall appearance when acoustic ceiling is faded, and frame for installing is avoided being distorted the phenomenon of misalignment in addition.
Description
Technical field
The utility model relates to interior decoration field, being specifically related to is architecture indoor sound-absorbing ceiling.
Background technology
Current, noise has become a kind of main environment pollution.Because the noise pollution in building can affect for a long time the Working Life of people, suitable means are therefore adopted to carry out to interior of building environment a bit that sound-absorbing and sound insulation is processed into pay special attention to when Indoor environment is fitted up.The ceiling meeting mounting glass cotton, rock mineral wool etc. of present interior of building have the porous sound absorbing material of good sound absorption qualities, are also called Sound-proof material.After using Sound-proof material, ceiling can form the level and smooth surface of one deck, but the level and smooth surface of ceiling is very easy to sound-absorbing dust, the long easy variable color of words service time, fades, and slight distortion, misalignment can be there is between ceiling and ceiling, affect ceiling overall appearance.
Utility model content
For the problems referred to above, the purpose of this utility model is to provide architecture indoor sound-absorbing ceiling, and the acoustic ceiling sound-absorbing effect solving current indoor use is undesirable, the variable color of ceiling fugitive color, affect overall appearance, and ceiling is easily distorted, the technical problem of misalignment etc.
For solving the problems of the technologies described above, the technical solution adopted in the utility model is, architecture indoor sound-absorbing ceiling, comprises square intermediate structure, top fiber, lowermost fibre.
Described top fiber covers the upper surface of intermediate structure, and described lowermost fibre covers the soffit of intermediate structure.
Described intermediate structure comprises glass layer, polymerism porous fiber layer, hole-opening foaming material layer, multiple pieces of glass fiber superposes mutually and the cementing agent bonding passed through containing 10% ~ 15% phenolic resins forms glass layer, and glass layer to be located between two-layer polymerism porous fiber layer and by cementing agent compact siro spinning technology.Glass layer, polymerism porous fiber layer are sandwiched between two-layer hole-opening foaming material layer, wherein the upper surface of one deck hole-opening foaming material layer is the upper surface of described intermediate structure, and the soffit of side hole-opening foaming material layer is the soffit of described intermediate structure in addition.
The structure of described top fiber and lowermost fibre is completely the same.Top fiber comprises the net structure be made into by glass fiber yarn, described cancellated spaced surface is inlaid with fiber cashmere surface, smooth surface and fiber pelletizing, the height of its fiber pelletizing is greater than the thickness on fiber cashmere surface, the thickness on fiber cashmere surface is greater than the thickness of smooth surface, forms the surface of net structure different levels.Propagate the sound of coming and first contact fiber pelletizing, then contact fiber cashmere surface, finally just contact smooth surface.Fiber cashmere surface, smooth surface and the described net structure of the intensive filling of fiber pelletizing, but fiber cashmere is surperficial, leave micro-sightless pore between smooth surface and fiber pelletizing, air permeates top fiber by pore and enters intermediate structure, and disperse has the intermediate structure of air can strengthen sound-absorbing soundproof effect.
Glass lint surface, smooth surface and the original color of fiber pelletizing are variegated, cannot find out concrete pattern.Top fiber sprays to be had with net structure in pairs than the sprayed coating of color, described sprayed coating is positioned at the surface of fiber cashmere surface, smooth surface and fiber pelletizing, be in different height from net structure, form the surface that acoustic ceiling is mottled, fade and also do not affect the appearance.
The area of described top fiber, lowermost fibre is less than intermediate structure.Described acoustic ceiling is formed stepped, and the edge of acoustic ceiling is provided with frame and it is connected with other acoustic ceilings, prevents acoustic ceiling from occurring distortion, misalignment phenomenon simultaneously.
The utility model utilizes multiple layer sound suction sound insulation materials to strengthen the sound-absorbing effect of the acoustic ceiling of indoor location, simultaneously by the coating different from bottom on surface, do not affect overall appearance when acoustic ceiling is faded, frame for installing is avoided being distorted the phenomenon of misalignment in addition.
Accompanying drawing explanation
Fig. 1 is the structural representation of architecture indoor sound-absorbing ceiling.
Fig. 2 is the part-structure cross sectional representation of architecture indoor sound-absorbing ceiling.
Fig. 3 is the top fiber structure enlarged diagram of architecture indoor sound-absorbing ceiling.
Wherein: 10, acoustic ceiling, 12, intermediate structure, 14, upper surface, 16, soffit, 18, top fiber, 20, lowermost fibre, 30, net structure, 32, fibre fluff surface, 34, smooth surface, 36, fiber pelletizing, 37, pore, 38, sprayed coating.
Detailed description of the invention
Below in conjunction with specific embodiment, do to analyze further to the utility model.
Architecture indoor sound-absorbing ceiling, comprises square intermediate structure 12, top fiber 18, lowermost fibre 20.
Consult Fig. 1, described top fiber 18 covers the upper surface 14 of intermediate structure 12, and described lowermost fibre 18 covers the soffit 16 of intermediate structure 12.
Consult Fig. 2, described intermediate structure 12 comprises glass layer, polymerism porous fiber layer, hole-opening foaming material layer, multiple pieces of glass fiber superposes mutually and the cementing agent bonding passed through containing 10% ~ 15% phenolic resins forms glass layer, and glass layer to be located between two-layer polymerism porous fiber layer and by cementing agent compact siro spinning technology.Glass layer, polymerism porous fiber layer are sandwiched between two-layer hole-opening foaming material layer, wherein one deck hole-opening foaming material layer upper surface is the upper surface 14 of described intermediate structure, and side hole-opening foaming material layer soffit is the soffit 16 of described intermediate structure in addition.
Consult Fig. 3, described top fiber 18 is completely the same with the structure of lowermost fibre 20.Top fiber 18 comprises the net structure 30 be made into by glass fiber yarn, the spaced surface of described net structure 30 is inlaid with fiber cashmere surface 32, smooth surface 34 and fiber pelletizing 36, the height of its fiber pelletizing 36 is greater than the thickness on fiber cashmere surface 32, the thickness on fiber cashmere surface 32 is greater than the thickness of smooth surface 34, forms the surface of net structure 30 different levels.Propagate the sound of coming and first contact fiber pelletizing 36, then contact fiber cashmere surface 32, finally just contact smooth surface 34.The described net structure 30 of fiber cashmere surface 32, smooth surface 34 and the intensive filling of fiber pelletizing 36, but leave micro-sightless pore 37 between fiber cashmere surface 32, smooth surface 34 and fiber pelletizing 36, consult Fig. 1, air permeates top fiber 18 by pore 37 and enters intermediate structure 12, and disperse has the intermediate structure 12 of air can strengthen sound-absorbing soundproof effect.
Described net structure 30 is grey.The color of glass lint surface 32, smooth surface 34 and fiber pelletizing 36 is variegated, cannot find out concrete pattern.Top fiber 18 sprays the sprayed coating 38 of adularescent, described sprayed coating 38 is positioned at the surface of fiber cashmere surface 32, smooth surface 34 and fiber pelletizing 36, different height is in from the net structure 30 of grey, therefore, the sprayed coating 38 of white forms color contrast with the net structure 30 of grey, acoustic ceiling 10 surface forms spot effect, fades and does not also affect the appearance.
The area of described top fiber 18, lowermost fibre 20 is less than intermediate structure 12.Described acoustic ceiling 10 is formed stepped, and the edge of acoustic ceiling 10 is provided with frame and it is connected with other acoustic ceilings 10, prevents acoustic ceiling 10 from occurring distortion, misalignment phenomenon simultaneously.
Claims (5)
1. architecture indoor sound-absorbing ceiling, is characterized in that, comprises square intermediate structure, top fiber, lowermost fibre, and described top fiber covers the upper surface of intermediate structure, and described lowermost fibre covers the soffit of intermediate structure; Described intermediate structure comprises glass layer, polymerism porous fiber layer and hole-opening foaming material layer, glass layer is located between two-layer polymerism porous fiber layer, and glass layer, polymerism porous fiber layer to be sandwiched between two-layer hole-opening foaming material layer and to fit tightly with two-layer hole-opening foaming material layer; The structure of described top fiber and lowermost fibre is completely the same, top fiber comprises the net structure be made into by glass fiber yarn, described cancellated spaced surface is inlaid with fiber cashmere surface, smooth surface and fiber pelletizing, leaves the pore infiltrating air between fiber cashmere surface, smooth surface and fiber pelletizing; Top fiber sprays to be had with net structure in pairs than the sprayed coating of color, and described sprayed coating is positioned at the surface of fiber cashmere surface, smooth surface and fiber pelletizing, is in different height from net structure, forms the surface that acoustic ceiling is mottled.
2. architecture indoor sound-absorbing ceiling according to claim 1, it is characterized in that, the height of described fiber pelletizing is greater than the thickness on fiber cashmere surface, and the thickness on fiber cashmere surface is greater than the thickness of smooth surface.
3. architecture indoor sound-absorbing ceiling according to claim 1, it is characterized in that, the area of described top fiber, lowermost fibre is less than intermediate structure, and acoustic ceiling is stepped, the edge of acoustic ceiling is provided with frame, it is connected with other acoustic ceilings.
4. architecture indoor sound-absorbing ceiling according to claim 1, is characterized in that, described glass layer is superposed mutually by multiple pieces of glass fiber and the cementing agent bonding passed through containing 10% ~ 15% phenolic resins formed.
5. architecture indoor sound-absorbing ceiling according to claim 1, is characterized in that, described glass layer to be bondd described polymerism porous fiber layer by cementing agent.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520200694.3U CN204492071U (en) | 2015-04-03 | 2015-04-03 | Architecture indoor sound-absorbing ceiling |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520200694.3U CN204492071U (en) | 2015-04-03 | 2015-04-03 | Architecture indoor sound-absorbing ceiling |
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| CN204492071U true CN204492071U (en) | 2015-07-22 |
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| CN201520200694.3U Active CN204492071U (en) | 2015-04-03 | 2015-04-03 | Architecture indoor sound-absorbing ceiling |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109678117A (en) * | 2019-01-17 | 2019-04-26 | 佛山市美客医疗科技有限公司 | A kind of mute oxygenerator |
-
2015
- 2015-04-03 CN CN201520200694.3U patent/CN204492071U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109678117A (en) * | 2019-01-17 | 2019-04-26 | 佛山市美客医疗科技有限公司 | A kind of mute oxygenerator |
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