CN205606090U - Heat energy equipment is with rock wool compound incubation pipe - Google Patents
Heat energy equipment is with rock wool compound incubation pipe Download PDFInfo
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- CN205606090U CN205606090U CN201620386774.7U CN201620386774U CN205606090U CN 205606090 U CN205606090 U CN 205606090U CN 201620386774 U CN201620386774 U CN 201620386774U CN 205606090 U CN205606090 U CN 205606090U
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- rock wool
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- intervalve
- insulating pipe
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Abstract
The utility model discloses a heat energy equipment is with rock wool compound incubation pipe, this compound incubation pipe is sandwich sandwich, it is by interior, the cockscomb structure was personally submitted to the outward appearance rock wool heat -insulation layer intervalve and subsides are covered in the rock wool heat -insulation layer intervalve, surface first, two thermal radiation prevention material layers are constituteed, it is wherein first, two thermal radiation prevention material layers are bondd on the rock wool heat -insulation layer intervalve by the tie coat that the fire -resistant cement admixtures of high temperature resistance thick liquid adopted compound technology preparation to form, the wholeness of goods has been improved, and this compound incubation pipe can obviously reduce the radiant heat loss, has simultaneously that the quality is light, coefficient of heat conductivity is little, the high temperature resistance advantage, is applicable to the heat preservation of industry heat energy tubular equipment.
Description
Technical field
This utility model relates to a kind of heat insulation material product, particularly relates to a kind of heat energy and sets
Standby rock wool composite thermal-insulating pipe.
Background technology
Along with the economic sustained and rapid development of China, urbanization constantly adds with process of industrialization
Hurry up, the problem of energy crisis is day by day serious, and heat preservation energy-saving is in industrial and agricultural production and civilian
Meaning in terms of life also day is aobvious prominent.For reducing thermal hardware and pipe in commercial production
Road distributes or absorbs heat to surrounding, and energy-saving heat preserving engineering has become production and built
Indispensable link during if;It is becoming tight in our times energy day, market warp
In the case of Ji running, dog-eat-dog, research thermal hardware heat preservation technology has necessarily
Realistic meaning.Thermal hardware such as Industrial Stoves, external surface area is big, and temperature is high, its
Heat dissipation capacity is big, accounts for the 20%-50% of kiln overall heat consumption so that furnace heat efficiency is low,
Energy consumption is high.Thermal hardware will account for whole conduction of heat energy in hot stage, heat radiation heat transfer
More than the 60% of amount, manages to improve the thermal radiation resistant performance of thermal hardware insulation material
It is to reduce its high temperature integrated heat transfer coefficient, the important means of raising thermal and insulating performance.
Traditional thermal hardware insulation material is generally the light inorganic quality guarantee that heat conductivity is little
Adiabator, but it does not have high temperature thermal radiation resistant function, and radiation heat loss is high, protects
Temp effect is poor.High temperature thermal radiation resistant material can effectively reduce the heat radiation of thermal hardware
Loss, improves the thermal hardware thermal efficiency, has popularizing application prospect widely.
Utility model content
In order to overcome above-mentioned the deficiencies in the prior art, this utility model provides
A kind of thermal hardware rock wool composite thermal-insulating pipe, this insulating tube can significantly reduce radiant heat
Loss, has light weight, heat conductivity advantage little, resistant to elevated temperatures simultaneously, it is adaptable to
The insulation of industrial heat energy tubular equipment.
This utility model be the technical scheme is that to solve its technical problem
A kind of thermal hardware rock wool composite thermal-insulating pipe, in the middle of rock wool heat-preservation layer
Pipe, the inside and outside tube wall equal indentation structure of this rock wool heat-preservation layer intervalve;Described
The first thermal radiation resistant material layer it is covered with on the inner tubal wall of rock wool heat-preservation layer intervalve, and
It is covered with the second thermal radiation resistant material on the outer tube wall of described rock wool heat-preservation layer intervalve
Layer, this first and second thermal radiation resistant material layer is each formed with and rock wool heat-preservation layer intervalve
The zigzag lines that matches of laciniation;Described first thermal radiation resistant material layer
And between the inner tubal wall of rock wool heat-preservation layer intervalve, described second thermal radiation resistant material layer
And it is equipped with tack coat between the outer tube wall of rock wool heat-preservation layer intervalve.
Its further technical scheme is:
Described thermal hardware is 300~1200mm with the pipe range of rock wool composite thermal-insulating pipe.
The described thermal hardware cross section semicircular in shape structure of rock wool composite thermal-insulating pipe.
The described thermal hardware rock wool heat-preservation layer intervalve of rock wool composite thermal-insulating pipe
Bore is 100~1000mm.
The described thermal hardware rock wool heat-preservation layer intervalve of rock wool composite thermal-insulating pipe
Pipe thickness is 20~120mm.
Described thermal hardware first and second thermal radiation resistant material of rock wool composite thermal-insulating pipe
The thickness of layer is 0.05~0.2mm.
Described first and second thermal radiation resistant material layer is aluminium foil.
The described thermal hardware thickness of the tack coat of rock wool composite thermal-insulating pipe is
0.1~0.3mm.
The tooth width of described laciniation is 3~8mm, and described zigzag knot
The serration depth of structure is 3~5mm.
Advantageous Effects of the present utility model is: this thermal hardware is protected with rock wool is compound
Wen Guanwei sandwich structure, it is by the rock wool heat-preservation of inner and outer surfaces indentation
Layer intervalve is prevented be covered in rock wool heat-preservation layer intervalve inner and outer surfaces first and second
Thermal-radiating material layer forms, and wherein first and second thermal radiation resistant material layer is by resistant to elevated temperatures
The tack coat that refractory cement slip uses combination process preparation to be formed is bonded in rock wool and protects
On temperature layer intervalve, improve the globality of goods;And this composite thermal-insulating pipe can be bright
Aobvious reduce radiation heat loss, there is light weight, heat conductivity little, resistant to elevated temperatures simultaneously
Advantage, it is adaptable to the insulation of industrial heat energy tubular equipment.
Accompanying drawing explanation
Fig. 1 is thermal hardware described in the utility model rock wool complex heat-preservation tubular construction
Schematic diagram;
Fig. 2 is that thermal hardware described in the utility model is cross-sectional with rock wool composite thermal-insulating pipe
Face structural representation;
Wherein:
1-rock wool heat-preservation layer intervalve;2-laciniation;
3-the first thermal radiation resistant material layer;4-the second thermal radiation resistant material layer;
5-tack coat;
L-thermal hardware rock wool composite thermal-insulating pipe pipe range;
The bore of r-rock wool heat-preservation layer intervalve;
The pipe thickness of h-rock wool heat-preservation layer intervalve;
The tooth width of w-laciniation;
The serration depth of d-laciniation.
Detailed description of the invention
Below in conjunction with specific embodiment and Fig. 1 and Fig. 2, this utility model is carried out in detail
Explanation.
Specific embodiment 1
A kind of thermal hardware rock wool composite thermal-insulating pipe, including rock wool heat-preservation layer intervalve
1, the inside and outside tube wall equal indentation structure 2 of this rock wool heat-preservation layer intervalve.Rock
It is covered with the first thermal radiation resistant material layer 3, rock on the inner tubal wall of cotton heat-insulation layer intervalve
It is covered with the second thermal radiation resistant material layer 4 on the outer tube wall of cotton heat-insulation layer intervalve, should
First and second thermal radiation resistant material layer is each formed with and the sawtooth of rock wool heat-preservation layer intervalve
The zigzag lines that shape structure matches.Described first thermal radiation resistant material layer and rock wool
Between the inner tubal wall of heat-insulation layer intervalve, described second thermal radiation resistant material layer and rock wool
Tack coat 5 it is equipped with between the outer tube wall of heat-insulation layer intervalve.Above-mentioned first and second prevents
The aluminium foil that thermal-radiating material layer selects thickness to be 0.05~0.2mm, above-mentioned tack coat selects
It is prepared from resistant to elevated temperatures refractory cement slip, and first and second thermal radiation resistant material
Layer uses above-mentioned refractory cement slip combination process to be glued respectively to rock wool heat-preservation layer
On the inside and outside wall of intervalve, the mould with laciniation is used to suppress the most again
Go out corresponding laciniation, then the composite thermal-insulating pipe of forming is put into 50~55 DEG C
Middle solidification 23~24h, forms thermal hardware rock wool composite thermal-insulating pipe.This is concrete real
The shape of cross section executing the thermal hardware rock wool composite thermal-insulating pipe that example prepares gained is
Semicircular structure, this thermal hardware pipe range l of rock wool composite thermal-insulating pipe is
300mm, the bore r of rock wool heat-preservation layer intervalve 1 are 100mm, and rock wool protects
Pipe thickness h of temperature layer intervalve 1 is 20mm, and the thickness of tack coat 5 is
0.1mm.Tooth width w of described laciniation 2 is 3mm, and zigzag
Serration depth d of structure 2 is 3mm.As depicted in figs. 1 and 2.
Specific embodiment 2
A kind of thermal hardware rock wool composite thermal-insulating pipe, including rock wool heat-preservation layer intervalve
1, the inside and outside tube wall equal indentation structure 2 of this rock wool heat-preservation layer intervalve.Rock
It is covered with the first thermal radiation resistant material layer 3, rock on the inner tubal wall of cotton heat-insulation layer intervalve
It is covered with the second thermal radiation resistant material layer 4 on the outer tube wall of cotton heat-insulation layer intervalve, should
First and second thermal radiation resistant material layer is each formed with and the sawtooth of rock wool heat-preservation layer intervalve
The zigzag lines that shape structure matches.Described first thermal radiation resistant material layer and rock wool
Between the inner tubal wall of heat-insulation layer intervalve, described second thermal radiation resistant material layer and rock wool
Tack coat 5 it is equipped with between the outer tube wall of heat-insulation layer intervalve.Above-mentioned first and second prevents
The aluminium foil that thermal-radiating material layer selects thickness to be 0.05~0.2mm, above-mentioned tack coat selects
It is prepared from resistant to elevated temperatures refractory cement slip, and first and second thermal radiation resistant material
Layer uses above-mentioned refractory cement slip combination process to be glued respectively to rock wool heat-preservation layer
On the inside and outside wall of intervalve, the mould with laciniation is used to suppress the most again
Go out corresponding laciniation, then the composite thermal-insulating pipe of forming is put into 50~55 DEG C
Middle solidification 23~24h, forms thermal hardware rock wool composite thermal-insulating pipe.This is concrete real
The shape of cross section executing the thermal hardware rock wool composite thermal-insulating pipe that example prepares gained is
Semicircular structure, this thermal hardware pipe range l of rock wool composite thermal-insulating pipe is
600mm, the bore r of rock wool heat-preservation layer intervalve 1 are 500mm, and rock wool protects
Pipe thickness h of temperature layer intervalve 1 is 60mm, and the thickness of tack coat 5 is
0.2mm.Tooth width w of described laciniation 2 is 5mm, and zigzag
Serration depth d of structure 2 is 4mm.As depicted in figs. 1 and 2.
Specific embodiment 3
A kind of thermal hardware rock wool composite thermal-insulating pipe, including rock wool heat-preservation layer intervalve
1, the inside and outside tube wall equal indentation structure 2 of this rock wool heat-preservation layer intervalve.Rock
It is covered with the first thermal radiation resistant material layer 3, rock on the inner tubal wall of cotton heat-insulation layer intervalve
It is covered with the second thermal radiation resistant material layer 4 on the outer tube wall of cotton heat-insulation layer intervalve, should
First and second thermal radiation resistant material layer is each formed with and the sawtooth of rock wool heat-preservation layer intervalve
The zigzag lines that shape structure matches.Described first thermal radiation resistant material layer and rock wool
Between the inner tubal wall of heat-insulation layer intervalve, described second thermal radiation resistant material layer and rock wool
Tack coat 5 it is equipped with between the outer tube wall of heat-insulation layer intervalve.Above-mentioned first and second prevents
The aluminium foil that thermal-radiating material layer selects thickness to be 0.05~0.2mm, above-mentioned tack coat selects
It is prepared from resistant to elevated temperatures refractory cement slip, and first and second thermal radiation resistant material
Layer uses above-mentioned refractory cement slip combination process to be glued respectively to rock wool heat-preservation layer
On the inside and outside wall of intervalve, the mould with laciniation is used to suppress the most again
Go out corresponding laciniation, then the composite thermal-insulating pipe of forming is put into 50~55 DEG C
Middle solidification 23~24h, forms thermal hardware rock wool composite thermal-insulating pipe.This is concrete real
The shape of cross section executing the thermal hardware rock wool composite thermal-insulating pipe that example prepares gained is
Semicircular structure, this thermal hardware pipe range l of rock wool composite thermal-insulating pipe is
1200mm, the bore r of rock wool heat-preservation layer intervalve 1 are 1000mm, rock wool
Pipe thickness h of heat-insulation layer intervalve 1 is 120mm, and the thickness of tack coat 5 is
0.3mm.Tooth width w of described laciniation 2 is 8mm, and zigzag
Serration depth d of structure 2 is 5mm.
This thermal hardware is sandwich structure with rock wool composite thermal-insulating pipe, it by
The rock wool heat-preservation layer intervalve of inner and outer surfaces indentation and be covered in rock wool heat-preservation layer
First and second thermal radiation resistant material layer composition of intervalve inner and outer surfaces, wherein first,
Two thermal radiation resistant material layers are used combination process system by resistant to elevated temperatures refractory cement slip
The standby tack coat formed is bonded on rock wool heat-preservation layer intervalve, improves the whole of goods
Body;And this composite thermal-insulating pipe can significantly reduce radiation heat loss, there is matter simultaneously
Amount is light, heat conductivity advantage little, resistant to elevated temperatures, it is adaptable to industrial heat energy tubular equipment
Insulation.
The foregoing is only preferred embodiments of the present utility model.Should be understood that
Be, in the case of without departing from this utility model principle, also can make some improvement and
Modification, is accordingly to be regarded as protection domain of the present utility model.
Claims (9)
1. a thermal hardware rock wool composite thermal-insulating pipe, it is characterised in that: include
Rock wool heat-preservation layer intervalve (1), the inside and outside tube wall of this rock wool heat-preservation layer intervalve is equal
Indentation structure (2);It is covered with on the inner tubal wall of described rock wool heat-preservation layer intervalve
First thermal radiation resistant material layer (3), and the outer tube wall of described rock wool heat-preservation layer intervalve
On be covered with the second thermal radiation resistant material layer (4), this first and second thermal radiation resistant material
Layer is each formed with the sawtooth matched with the laciniation of rock wool heat-preservation layer intervalve
Shape lines;Described first thermal radiation resistant material layer and the inner tube of rock wool heat-preservation layer intervalve
Between wall, the outer tube of described second thermal radiation resistant material layer and rock wool heat-preservation layer intervalve
Tack coat (5) it is equipped with between wall.
Thermal hardware the most according to claim 1 rock wool composite thermal-insulating pipe,
It is characterized in that: the pipe range of described thermal hardware rock wool composite thermal-insulating pipe is
300~1200mm.
Thermal hardware the most according to claim 1 rock wool composite thermal-insulating pipe,
It is characterized in that: described thermal hardware is semicircle with the cross section of rock wool composite thermal-insulating pipe
Shape structure.
Thermal hardware the most according to claim 3 rock wool composite thermal-insulating pipe,
It is characterized in that: described thermal hardware is with in the rock wool heat-preservation layer of rock wool composite thermal-insulating pipe
Between manage (1) bore be 100~1000mm.
Thermal hardware the most according to claim 3 rock wool composite thermal-insulating pipe,
It is characterized in that: described thermal hardware is with in the rock wool heat-preservation layer of rock wool composite thermal-insulating pipe
Between manage (1) pipe thickness be 20~120mm.
Thermal hardware the most according to claim 3 rock wool composite thermal-insulating pipe,
It is characterized in that: first and second solar heat protection of described thermal hardware rock wool composite thermal-insulating pipe
The thickness of radiative material layer (3,4) is 0.05~0.2mm.
Thermal hardware the most according to claim 6 rock wool composite thermal-insulating pipe,
It is characterized in that: described first and second thermal radiation resistant material layer is aluminium foil.
Thermal hardware the most according to claim 3 rock wool composite thermal-insulating pipe,
It is characterized in that: the tack coat (5) of described thermal hardware rock wool composite thermal-insulating pipe
Thickness be 0.1~0.3mm.
Thermal hardware the most according to claim 1 rock wool composite thermal-insulating pipe,
It is characterized in that: the tooth width of described laciniation (2) is 3~8mm, and
The serration depth of described laciniation (2) is 3~5mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620386774.7U CN205606090U (en) | 2016-05-03 | 2016-05-03 | Heat energy equipment is with rock wool compound incubation pipe |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620386774.7U CN205606090U (en) | 2016-05-03 | 2016-05-03 | Heat energy equipment is with rock wool compound incubation pipe |
Publications (1)
Publication Number | Publication Date |
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CN205606090U true CN205606090U (en) | 2016-09-28 |
Family
ID=56968173
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620386774.7U Active CN205606090U (en) | 2016-05-03 | 2016-05-03 | Heat energy equipment is with rock wool compound incubation pipe |
Country Status (1)
Country | Link |
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CN (1) | CN205606090U (en) |
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2016
- 2016-05-03 CN CN201620386774.7U patent/CN205606090U/en active Active
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