CN206738834U - A kind of insulation construction - Google Patents
A kind of insulation construction Download PDFInfo
- Publication number
- CN206738834U CN206738834U CN201720555093.3U CN201720555093U CN206738834U CN 206738834 U CN206738834 U CN 206738834U CN 201720555093 U CN201720555093 U CN 201720555093U CN 206738834 U CN206738834 U CN 206738834U
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- China
- Prior art keywords
- air bag
- heat
- preservation cotton
- reflection layer
- glass fiber
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Abstract
The utility model belongs to pipeline heat-insulating technology field, discloses a kind of insulation construction, including:Air bag reflection layer, glass fiber heat-preservation cotton and high temperature resistant silicon adhesive plaster.Above-mentioned air bag reflection layer, for preventing heat loss through radiation.Above-mentioned glass fiber heat-preservation cotton is provided with two layers, and layer glass silk heat-preservation cotton is arranged at air bag reflection layer both sides, and parcel air bag reflection layer is set, for preventing heat loss through conduction.Above-mentioned high temperature resistant silicon adhesive plaster is provided with two layers, and two layers of high temperature resistant silicon adhesive plaster is respectively arranged at air bag reflection layer both sides, and parcel glass fiber heat-preservation cotton is set.Air bag reflection layer and glass fiber heat-preservation cotton is equipped with the utility model insulation construction, compared with the setting of independent heat-preservation cotton in existing process, heat loss through radiation can also be prevented while heat loss through conduction is prevented, take full advantage of nanometer air bag corrosion resistant feature in light weight simultaneously, the weight of insulation construction is alleviated, extends service life.
Description
Technical field
It the utility model is related to pipeline heat-insulating technology field, more particularly to a kind of insulation construction.
Background technology
It is more and more harsh with the standard of low-carbon environment-friendly, the target iterative method of energy-saving and emission-reduction, in industrial production and daily
Among life, use of the people to heat-insulating material is more and more extensive.
At present, in thermodynamic transport pipeline, it is widely used to strengthen efficiency of transmission heat-insulating material.Existing heat
Heat-insulating material overcoat outside hydraulic piping, material outer layer are high temperature resistant silicon adhesive plaster, and internal inserts is glass fiber heat-preservation cotton, this
Kind structure can effectively prevent the heat transfer of heat distribution pipeline from radiating, but can not prevent the heat losses because of caused by heat radiation.
Also, the setting imperfection of protective layer in conventional vacuum structure, easily cause in heat-insulation layer and intake, be ventilative, thermal insulating material can be caused
The thermal conductivity factor increase of material, causes the increase of heat distribution pipeline surface heat radiating loss and heat pipeline heat insulation layer burn into thickness to be thinned, most
Cause the heat-insulating property degradation of insulation construction eventually.
Utility model content
The purpose of this utility model is to provide a kind of insulation knot that can prevent heat loss through conduction and can from preventing heat loss through radiation
Structure.
To use following technical scheme up to this purpose, the utility model:
A kind of insulation construction, including:
Air bag reflection layer, the air bag reflection layer include two layers of high-purity aluminum foil for being provided with nano coating and are filled in two layers
Two layers of high polymer air bag being arranged side by side between high-purity aluminum foil, for preventing heat loss through radiation;
Glass fiber heat-preservation cotton, it is provided with two layers, layer glass silk heat-preservation cotton is respectively arranged at air bag reflection layer both sides, parcel
Air bag reflection layer is set, for preventing heat loss through conduction;
High temperature resistant silicon adhesive plaster, it is provided with two layers, two layers of high temperature resistant silicon adhesive plaster is respectively arranged at layer glass silk heat-preservation cotton
Outside, parcel glass fiber heat-preservation cotton are set.
Preferably, the thickness ratio of the air bag reflection layer and glass fiber heat-preservation cotton is 1/5~1/10, the high temperature resistant silicon
The thickness ratio of adhesive plaster and glass fiber heat-preservation cotton is 1/10~1/30.The setting of above-mentioned thickness proportion, it is lost in preventing radiant heat energy
While, the isolation effect to heat transfer is ensure that, while ensure that high temperature resistant silicon adhesive plaster is gentle to internal layer glass fiber heat-preservation cotton
The protecting effect in capsule reflecting layer.
Preferably, the thickness ratio of the air bag reflection layer and glass fiber heat-preservation cotton be 1/6, the high temperature resistant silicon adhesive plaster and
The thickness ratio of glass fiber heat-preservation cotton is 1/20.The specific setting of above-mentioned thickness proportion, securely and reliably, is more applicable for heat distribution pipeline
Outer layer insulation, improve heat insulation effect.
Preferably, the thickness of the air bag reflection layer is 3mm~10mm.The thickness of above-mentioned air bag reflection layer is set, peace
It is complete reliable, it is more applicable for the insulation of heat distribution pipeline.
Preferably, the thickness of the air bag reflection layer is 5mm.The specific setting of above-mentioned air bag reflection thickness degree, safety
It has been reliably achieved effective insulation to heat distribution pipeline.
The beneficial effects of the utility model:Air bag reflection layer is equipped with glass fiber heat-preservation cotton, and in existing process
The setting of independent heat-preservation cotton is compared, and heat loss through radiation can also be prevented while heat loss through conduction is prevented, meanwhile, take full advantage of nanometer
Air bag corrosion resistant feature in light weight, the weight of insulation construction is alleviated, extends service life, radiation protection radiating effect is more
It is good, in addition, the setting of outermost layer high temperature resistant silicon adhesive plaster, the performance of its corrosion-and high-temp-resistant, it can effectively protect the glass fiber of internal layer
Heat-preservation cotton and air bag reflecting layer, the increasing of insulation construction thermal conductivity factor caused by can effectively preventing the water inlet of glass fiber heat-preservation cotton ventilative
Greatly.
Brief description of the drawings
Fig. 1 is the schematic cross-section of the utility model insulation construction.
In figure:
1st, air bag reflection layer;2nd, glass fiber heat-preservation cotton;3rd, high temperature resistant silicon adhesive plaster.
Embodiment
Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by embodiment.
As shown in figure 1, the utility model discloses a kind of insulation construction, set for carrying out insulation to thermodynamic transport pipeline
Put.Above-mentioned insulation construction specifically includes:Air bag reflection layer 1, glass fiber heat-preservation cotton 2 and high temperature resistant silicon adhesive plaster 3.Above-mentioned air bag is anti-
Layer 1 is penetrated, for preventing heat loss through radiation.Above-mentioned glass fiber heat-preservation cotton 2 is provided with two layers, and layer glass silk heat-preservation cotton 2 is arranged at gas
The both sides of capsule reflecting layer 1, parcel air bag reflection layer 1 is set, for preventing heat loss through conduction.Above-mentioned high temperature resistant silicon adhesive plaster 3 is provided with two
Layer, two layers of high temperature resistant silicon adhesive plaster 3 are respectively arranged at the both sides of air bag reflection layer 1, and parcel glass fiber heat-preservation cotton 2 is set.
Air bag reflection layer 1 in the utility model, including two layers of high-purity aluminum foil for being provided with nano coating and it is filled in two
Two layers of high polymer air bag being arranged side by side between floor height pure aluminum foil, between two layers of high polymer air bag and high polymer air bag and rafifinal
It is bonded between paper tinsel by the glue containing nano-meter flame retardantses.Above-mentioned high polymer air bag can be polyethylene air bag or poly- third
Alkene air bag etc., will not be repeated here.In addition, nano-meter flame retardantses are additionally added in high polymer air bag, to increase air bag reflection
The fire-retardant heat insulation effect of layer.Wherein high polymer air bag is the conventional structure of this area, be will not be repeated here.In the utility model
Glass fiber heat-preservation cotton 2 and the material routinely selected that high temperature resistant silicon adhesive plaster 3 is this area, will not be repeated here.
Air bag reflection layer 1 and glass fiber heat-preservation cotton 2 are equipped with the utility model insulation construction, and in existing process
The setting of independent heat-preservation cotton is compared, and heat loss through radiation can also be prevented while heat loss through conduction is prevented, meanwhile, take full advantage of nanometer
Air bag corrosion resistant feature in light weight, alleviates the weight of insulation construction, extends service life.Compared to individual layer nanometer air bag
The setting in reflecting layer, radiation protection radiating effect is more preferable, in addition, the setting of outermost layer high temperature resistant silicon adhesive plaster 3, its corrosion-and high-temp-resistant
Performance, can effectively protect glass fiber heat-preservation cotton 2 and the air bag reflecting layer 1 of internal layer, can effectively prevent glass fiber heat-preservation cotton 2 from intaking
The increase of insulation construction thermal conductivity factor caused by ventilative.
Specifically, in the present embodiment, the thickness ratio of above-mentioned air bag reflection layer 1 and glass fiber heat-preservation cotton 2 is 1/5~1/
10, the thickness ratio of above-mentioned high temperature resistant silicon adhesive plaster 3 and glass fiber heat-preservation cotton 2 is 1/10~1/30.The setting of above-mentioned thickness proportion,
While preventing that radiant heat energy is lost in, the isolation effect to heat transfer is ensure that, while ensure that high temperature resistant silicon adhesive plaster 3 to internal layer
Glass fiber heat-preservation cotton 2 and the protecting effect in air bag reflecting layer 1.
More specifically, in one embodiment, the thickness ratio of above-mentioned air bag reflection layer 1 and glass fiber heat-preservation cotton 2 is 1/
6, the thickness ratio of above-mentioned high temperature resistant silicon adhesive plaster 3 and glass fiber heat-preservation cotton 2 is 1/20.The specific setting of above-mentioned thickness proportion, safety
Reliably, the outer layer insulation of heat distribution pipeline is more applicable for, improves heat insulation effect.
Preferably, in a particular embodiment, the thickness of above-mentioned air bag reflection layer 1 is 3mm~10mm.Above-mentioned air bag reflection layer
1 thickness is set, and securely and reliably, is more applicable for the insulation of heat distribution pipeline.
It is more highly preferred to, in the present embodiment, the thickness of above-mentioned air bag reflection layer 1 is 5mm.Above-mentioned air bag reflection layer 1 is thick
The specific setting of degree, safely and reliably realizes effective insulation to heat distribution pipeline.
In the description of embodiment, the property discussed term " in the present embodiment ", " in one embodiment ", " specific reality
Apply in example " etc. description mean combine the embodiment description specific features or feature be contained at least one reality of the present utility model
Apply in example.And identical embodiment in a specific embodiment, is not necessarily referring to the schematic representation of above-mentioned term.And
And the specific features or point of description can combine in an appropriate manner in any one or more embodiments.
Obviously, above-described embodiment of the present utility model is used for the purpose of clearly illustrating the utility model example, and
It is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, in described above
On the basis of can also make other changes in different forms.There is no need and unable to give all embodiments
It is exhaustive.All made within spirit of the present utility model and principle all any modification, equivalent and improvement etc., should be included in
Within the protection domain of the utility model claims.
Claims (5)
- A kind of 1. insulation construction, it is characterised in that including:Air bag reflection layer (1), the air bag reflection layer (1) include two layers of high-purity aluminum foil for being provided with nano coating and are filled in two Two layers of high polymer air bag being arranged side by side between floor height pure aluminum foil, for preventing heat loss through radiation;Glass fiber heat-preservation cotton (2), is provided with two layers, and layer glass silk heat-preservation cotton (2) is respectively arranged at air bag reflection layer (1) two Side, parcel air bag reflection layer (1) is set, for preventing heat loss through conduction;High temperature resistant silicon adhesive plaster (3), it is provided with two layers, two layers of high temperature resistant silicon adhesive plaster (3) is respectively arranged at layer glass silk heat-preservation cotton (2) outside, parcel glass fiber heat-preservation cotton (2) are set.
- 2. insulation construction according to claim 1, it is characterised in that the air bag reflection layer (1) and glass fiber heat-preservation cotton (2) thickness ratio is 1/5~1/10, and the thickness ratio of the high temperature resistant silicon adhesive plaster (3) and glass fiber heat-preservation cotton (2) is 1/10~1/ 30。
- 3. insulation construction according to claim 2, it is characterised in that the air bag reflection layer (1) and glass fiber heat-preservation cotton (2) thickness ratio is 1/6, and the thickness ratio of the high temperature resistant silicon adhesive plaster (3) and glass fiber heat-preservation cotton (2) is 1/20.
- 4. insulation construction according to claim 3, it is characterised in that the thickness of the air bag reflection layer (1) be 3mm~ 10mm。
- 5. insulation construction according to claim 4, it is characterised in that the thickness of the air bag reflection layer (1) is 5mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720555093.3U CN206738834U (en) | 2017-05-18 | 2017-05-18 | A kind of insulation construction |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720555093.3U CN206738834U (en) | 2017-05-18 | 2017-05-18 | A kind of insulation construction |
Publications (1)
Publication Number | Publication Date |
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CN206738834U true CN206738834U (en) | 2017-12-12 |
Family
ID=60566889
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720555093.3U Active CN206738834U (en) | 2017-05-18 | 2017-05-18 | A kind of insulation construction |
Country Status (1)
Country | Link |
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CN (1) | CN206738834U (en) |
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2017
- 2017-05-18 CN CN201720555093.3U patent/CN206738834U/en active Active
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CP03 | "change of name, title or address" | ||
CP03 | "change of name, title or address" |
Address after: No.1, Hualong street, Xingtai high tech Industrial Development Zone (Longyao food town), Xingtai City, Hebei Province Patentee after: Jinmailang Food Co., Ltd Address before: 055350 Dongfang Food City Industrial Park, Longyao County, Xingtai City, Hebei Province Patentee before: JINMAILANG NOODLE Co.,Ltd. |