CN105986626A - Composite thermal baffle - Google Patents
Composite thermal baffle Download PDFInfo
- Publication number
- CN105986626A CN105986626A CN201510079600.6A CN201510079600A CN105986626A CN 105986626 A CN105986626 A CN 105986626A CN 201510079600 A CN201510079600 A CN 201510079600A CN 105986626 A CN105986626 A CN 105986626A
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- CN
- China
- Prior art keywords
- insulation board
- thermal insulation
- connecting portion
- insulative panel
- glass fiber
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The invention provides a composite thermal baffle. The composite thermal baffle is characterized by comprising a thermal baffle body and a surface component pasted to at least one face of the thermal baffle body; and each surface component is provided with connection portions which protrude out much longer than the corresponding sides of the face, pasted to the surface component, of the thermal baffle body from the two adjacent sides.
Description
Technical field
The present invention relates to include the Combined thermal insulative panel of surface elements and thermal insulation board.
Background technology
Building industry generally uses foaming synthetic resin class, as styrenic foams, polyurethane foam,
Phenol formaldehyde foam is as heat-barrier material.
Wherein at polyurethane foam (PIR, PU), can in the forming process such as phenol formaldehyde foam (PF)
By add surface elements manufacture thermal insulation board, described surface elements can be Non-woven fabrics, stationery,
Aluminium sheet class etc..
Generally using special Witter engineering method is building external insulation, and its order is as follows, viscous by using
Thermal insulation board is bonded in building outer wall by mixture etc., and the outer surface at the thermal insulation board of described viscous note repastes
Smear binding agent viscous note glass fiber mesh, smear in the above or spray finishing material (coating
Deng).
But, when carrying out external insulation construction by described engineering method, exist owing to engineering complexity is led
Cause to take considerable time and external insulation construction work quality is all by the proficiency of constructor, weather etc.
The problem of the impact of many condition.
Therefore, in order to solve such as the problems referred to above, it is provided that a kind of Combined thermal insulative panel, as it is shown in fig. 7,
On thermal insulation board 1, binding agent viscous note glass fiber mesh 3 is smeared in advance and at it before heat insulation construction
Form screed 2 (with reference to authorizing utility model 20-0391764) above.
But, described Combined thermal insulative panel, when heat insulation construction, only just can be carried out by finishing material
The combination of other thermal insulation board that thermal insulation board is adjacent, causes the combination between thermal insulation board firm not,
And be not easy to eliminate the gap between thermal insulation board, therefore there is the shortcoming that heat-proof quality reduces.
Prior art literature
Patent documentation
Authorize utility model 20-0391764
Summary of the invention
It is an object of the invention to, in order to solve above-mentioned the problems of the prior art, it is provided that Yi Zhongfu
Close thermal insulation board, performed with making heat insulation high construction efficiency by simple method, and heat insulation by reinforcing
Combination between plate and excellent durability is provided, thus also improve heat-proof quality.
The present invention provides a kind of Combined thermal insulative panel, it is characterised in that: include thermal insulation board and paste
Surface elements at least one side of described thermal insulation board, described surface elements has from adjacent two
The corresponding sides in the face that the thermal insulation board together with being posted on is glued on individual limit than with this surface elements highlight longerly
Connecting portion.
Described surface elements is only made up of glass fiber mesh or coating member, or has covering part
Part and the form of glass fiber mesh bonding.
Described surface elements is by glass fiber mesh and is formed at the screed that this glass fibre is online
Constitute;Or it is made up of coating member and the screed that is formed on this coating member;Or with
Coating member and the form of glass fiber mesh bonding, it is online that screed is formed at described glass fibre.
Described screed is formed with the width identical with thermal insulation board;Or it is formed at and is formed as follows
Part: be formed with two avris of connecting portion, using the limit of thermal insulation board as two limits, and
It is formed without two avris of connecting portion, enters being as the criterion with the limit of thermal insulation board and described company to inner side
The part connecing size corresponding to the length in portion is formed as two limits;Or it is formed at heat insulation
Four limits of plate are as the criterion and enter the part of the size corresponding with the length of connecting portion to inner side as 4
Limit and the part that formed.
Described coating member can be stationery, Non-woven fabrics or sheet metal class.
Described surface elements is coating member and the form of glass fiber mesh bonding, and by glass fibers
Dimension net independently forms connecting portion or is together formed connecting portion by coating member and glass fiber mesh.
For described surface elements, corresponding with the connecting portion being formed on adjacent two limit
Two limits of opposition side are formed as, the size consistent with the limit of the thermal insulation board pasted for surface elements,
Or with the length of connecting portion corresponding size less than the limit of described thermal insulation board.
According to Combined thermal insulative panel of the present invention, on thermal insulation board, viscous note includes glass fiber mesh
The state of surface elements manufactures this Combined thermal insulative panel, therefore, uses this Combined thermal insulative panel to be thermally shielded
During construction, thereon and glue note glass fibre relative to existing viscous note thermal insulation board, coating adhesive
Net and carry out the method for mortar construction thereon and compare, can simplify work progress and improve construction
Efficiency.
Additionally, be contained in glass fiber mesh (or coating member and the glass fiber mesh of surface elements
Binding) form the connecting portion prominent to the outside of thermal insulation board from two adjacent limits.Therefore,
During heat insulation construction, described connecting portion is glued and is posted on adjacent Combined thermal insulative panel, make Combined thermal insulative panel
Between form continuous marriage relation, so that heat insulation construction is the most firm.
Accompanying drawing explanation
Fig. 1 and Fig. 2 is the axonometric chart of an embodiment of the Combined thermal insulative panel representing the present invention.
Fig. 3 is the axonometric chart of an embodiment of the manufacture method of the Combined thermal insulative panel representing the present invention.
Fig. 4 to Fig. 6 is the schematic diagram of the example of the construction form of the Combined thermal insulative panel representing the present invention.
Fig. 7 is the axonometric chart of the embodiment representing existing Combined thermal insulative panel.
Fig. 8 is the schematic diagram of the construction form representing existing Combined thermal insulative panel.
Reference
10 ... thermal insulation board;20 ... glass fiber mesh;30 ... coating member;40 ... screed;50…
Connecting portion;60 ... construction surface.
Detailed description of the invention
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.The present invention is described
Before, if it is considered to the master illustrated for illustrating the present invention of relevant known function and structure
Purport there is no need or make it be omitted when obscuring.
As depicted in figs. 1 and 2, the present invention relates to a kind of Combined thermal insulative panel, it is characterised in that: bag
Include thermal insulation board 10 and viscous be posted on the surface elements 20 of at least one side of above-mentioned thermal insulation board, 20+30,
20+40, described surface elements have from two adjacent limits than with this surface elements is viscous be posted on together with
The connecting portion 50 that highlights of the corresponding sides in face of thermal insulation board longerly.
The prominent length of described connecting portion 50 is about the scope of 2cm to 30cm, but is not limited to
This, can be adjusted according to construction environment.
As shown in Fig. 1 (a), described surface elements can be only by glass fiber mesh 20 or covering part
Part 30 is constituted, or as shown in Fig. 1 (b), can be coating member 30 and glass fiber mesh
The form of 20 bondings.
Described thermal insulation board 10, glass fiber mesh 20 and coating member 30 can use the public affairs of this area
Know that technology is not particularly limited.The form of described glass fiber mesh 20 is preferably the bone of lattice type
Frame.Described coating member 30 can use stationery, Non-woven fabrics or sheet metal class etc..
When described surface elements is the form of coating member 30 and glass fiber mesh 20 bonding, described
Connecting portion 50 can individually be formed by glass fiber mesh 20, or as shown in Fig. 1 (b), can be by
Coating member 30 and the morphosis of glass fiber mesh 20 bonding.
In the surface elements of the Combined thermal insulative panel of the present invention, and it is formed on adjacent two limit
Two limits of the opposition side of connecting portion 50 correspondence, can be formed as with for surface elements paste every
The size that the face of hot plate is consistent, or be formed as prominent with connecting portion less than the face of described thermal insulation board
The size that length is corresponding, and be pasted onto on thermal insulation board.Two limits of described opposition side are formed as and supply
During the consistent size in the face of thermal insulation board that surface elements is pasted, as shown in Figure 4, during construction, other is multiple
The connecting portion closing thermal insulation board is overlapped thereon and glues note, and is being formed as less than the face of thermal insulation board and is connecting
When connecing width corresponding to the length in portion, as shown in Figure 4, there is not the overlap of connecting portion, compound
The part not gluing note surface elements of thermal insulation board, the connection of other Combined thermal insulative panel that viscous note is adjacent
The mode in portion is constructed.
As in figure 2 it is shown, described surface elements by glass fiber mesh 20 and is formed at this glass fibers
Tie up online screed 40 to constitute;Or by coating member 30 and be formed on this coating member
Screed 40 constitute;Or alternatively coating member 30 and the shape of glass fiber mesh 20 bonding
State, screed 40 is formed on described glass fiber mesh 20.
Now, described screed is formed with the width identical with thermal insulation board 10;
Or it is formed at such as lower part: be formed with two avris of connecting portion, with the limit of thermal insulation board
As two limits, and it is being formed without two avris of connecting portion, is being as the criterion inwardly with the limit of thermal insulation board
Side enters the part of the size corresponding with the length of described connecting portion as two limits;
Or enter being as the criterion with four limits of thermal insulation board to inner side as in figure 2 it is shown, be formed at and be connected
In the part that the part of the size that the length in portion is corresponding is formed as 4 limits.
When latter two situation described above forms screed 40 like that, continuous arrangement Combined thermal insulative panel
During construction, the connecting portion 50 combined with adjacent Combined thermal insulative panel, can glue to be posted on and be formed without sand
The part of pulp layer 40, therefore easy construction and being firmly combined with.
When last a kind of situation described above forms screed 40 like that, as shown in Figure 5 and Figure 6
Construction, is being formed without the part of screed 40 as shown in Figure 5, as shown in Figure 6, and will
Gap between Combined thermal insulative panel is placed in centre and carries out mortar construction, it is hereby achieved that make compound every
The more firm effect of combination between hot plate.
For the Combined thermal insulative panel of the present invention, the prominent length of described connecting portion can with from thermal insulation board
Each is identical to the length of screed 40 on four limits.
There is equal length as previously mentioned, and during the construction of continuous arrangement Combined thermal insulative panel, with adjacent
The connecting portion 50 that Combined thermal insulative panel combines, can just glue and be posted on the portion being formed without screed 40
Point, therefore easy construction and being firmly combined with.
Combined thermal insulative panel of the present invention can manufacture according to following method.Such as, pass through
Coating adhesive on the thermal insulation board blocked, by meet the size of present invention coating member and
/ or glass fiber mesh is viscous is posted on mode thereon and manufactures.Or on described glass fiber mesh
The mode also forming screed manufactures.
During additionally, form thermal insulation board by continuously extruded mode, by glass fiber mesh or covering part
The adherend of part and glass fiber mesh uses as surface elements, for a side so that it is with will shape
The corner of the thermal insulation board become is consistent, or be located at the corner than thermal insulation board enter to inner side with i.e.
By the position of size corresponding for the prominent length of the connecting portion formed, for the opposing party so that it is prominent
In the corner of the thermal insulation board that will be formed to form connecting portion, and viscous note in thermal insulation board one side or
Behind two sides, cut off with certain size, as it is shown on figure 3, in the portion being formed without connecting portion
Divide continuous for the adherend of glass fiber mesh or coating member and glass fiber mesh by binding agent
The mode pasted manufactures.
The construction method of the Combined thermal insulative panel of the present invention, use as depicted in figs. 1 and 2 compound every
Hot plate, this Combined thermal insulative panel includes thermal insulation board 10 and is pasted onto the table of at least one side of this thermal insulation board
Face component 20,20+30,20+40, described surface elements have on two adjacent limits than with its
The connecting portion 50 that the corresponding sides in the face of the thermal insulation board of viscous note highlight longerly.
The prominent length of described connecting portion 50 may be about the scope of 2cm to 30cm, but not
It is limited to this, can be adjusted according to construction environment.
As it is shown on figure 3, the present invention relates to the construction method of Combined thermal insulative panel, it is characterised in that include
Following steps: described in viscous note, Combined thermal insulative panel is in the step of construction surface 60;And by following operation
The step being repeated, i.e. gluing note in the connecting portion side of the Combined thermal insulative panel of construction surface 60
Two limits, respectively by identical Combined thermal insulative panel to make the nonoverlapping mode of connecting portion arrange and glue
It is posted on construction surface 60;In above-mentioned, adjacent Combined thermal insulative panel can glued by connecting portion 50
While being posted on construction surface, glue and be posted on adjacent Combined thermal insulative panel, or answering requirement
Conjunction thermal insulation board glues after being posted on construction surface, is glued by connecting portion uniformly and is posted on adjacent Combined thermal insulative panel
On.
Described construction surface 60 can be outer heat insulation construction surface, interior heat insulation construction surface, ceiling or ground
Face.
In the construction method of described Combined thermal insulative panel, as Combined thermal insulative panel, it is possible to use such as Fig. 1
A surface elements shown in () is only made up of glass fiber mesh 20 or only by coating member 30 structure
The thermal insulation board become.
Further, it is also possible to use as shown in Fig. 1 (b) surface elements by coating member 30 and glass
The thermal insulation board of the form of fleece 20 bonding.Now, described connecting portion 50 can be individually by glass fibers
Dimension net 20 is formed, or as shown in Fig. 1 (b), can be formed as coating member 30 and glass
The form of fleece 20 bonding.As it has been described above, connecting portion 50 is by the independent shape of glass fiber mesh 20
Cheng Shi, coating member 30 can have and 10 the identical sizes of thermal insulation board pasted for coating member.
In the construction method of the Combined thermal insulative panel of the present invention, for surface elements, make and be formed at phase
Two limits of the opposition side of adjacent connecting portion 50 correspondence on two limits are formed as, with confession surface element
The size that the face of thermal insulation board that part is pasted is consistent, or be formed as less than the face of described thermal insulation board with even
Connect the size that the length in portion is corresponding, and be pasted on thermal insulation board.In above-mentioned, at two of opposition side
During while be formed as the size consistent with the face of the thermal insulation board pasted for surface elements, as shown in Figure 4,
During construction, the connecting portion of other Combined thermal insulative panel is overlapped thereon and glues note, and is formed as comparing thermal insulation board
Little corresponding with the length of the connecting portion size in face time, there is not the weight of connecting portion as shown in Figure 4
Folded, in the part not gluing note surface elements of Combined thermal insulative panel adjacent other of viscous note compound every
The mode of the connecting portion of hot plate is constructed.
During as it is shown in figure 1, described surface elements is only formed by glass fiber mesh 20, or to cover
When the form of cover 30 and glass fiber mesh 20 bonding is formed, Combined thermal insulative panel can be completed
Relative to the viscous note of construction surface (Fig. 4,60) and connecting portion 50 relative to adjacent compound every
After the stickup of hot plate, carry out mortar 40 in the above and construct.
In the construction method of the Combined thermal insulative panel of the present invention, surface elements can as in figure 2 it is shown,
It is made up of glass fiber mesh 20 and the screed 40 that is formed thereon;Or by coating member 30
And the screed 40 being formed thereon is constituted;Or can also be with coating member 30 and glass fibre
The form of net 20 bonding, screed 40 is formed on described glass fiber mesh 20.
Now, described screed is formed with the width identical with thermal insulation board 10;
Or it is formed at such as lower part: be formed with two avris of connecting portion, with the limit of thermal insulation board
As two limits, and it is being formed without two avris of connecting portion, is being as the criterion inwardly with the limit of thermal insulation board
Side enters the part of the size corresponding with the length of described connecting portion as two limits;
Or enter being as the criterion with four limits of thermal insulation board 10 to inner side as in figure 2 it is shown, be formed at
The part that the part of the size corresponding with the length of connecting portion is formed as 4 limits.
When latter two situation described above forms screed 40 like that, continuous arrangement Combined thermal insulative panel
During construction, the connecting portion 50 combined with adjacent Combined thermal insulative panel, can glue to be posted on and be formed without sand
The part of pulp layer 40, therefore easy construction and being firmly combined with.
When last a kind of situation described above forms screed 40 like that, as shown in Figure 5 and Figure 6
Construction, is being formed without the part of screed 40 as shown in Figure 5, as shown in Figure 6, and will
Interval between Combined thermal insulative panel is placed in centre and carries out mortar construction, it is hereby achieved that make compound every
The more firm effect of combination between hot plate.
When using above-mentioned surface elements, can be as it is shown in figure 5, complete Combined thermal insulative panel phase
For the viscous note of construction surface and connecting portion relative to the stickup of adjacent Combined thermal insulative panel after,
As shown in Figure 6, mortar construction is carried out in the part being formed without screed.
In the construction method of the Combined thermal insulative panel of the present invention, the construction of screed can be carried out after terminating
Finishing material construction procedure.
Additionally, the construction method of the Combined thermal insulative panel of the present invention can also include, viscous note compound every
Hot plate in the step of construction surface, the coupling part filled polyurethane foam between Combined thermal insulative panel
Step.Described polyurethane foam can make the Combined thermal insulative panel adjacent with construction surface more solid
Determine, and seal the connecting portion of Combined thermal insulative panel, thus play the effect that effect of heat insulation is substantially improved.
In the construction method of the Combined thermal insulative panel of the present invention, viscous note Combined thermal insulative panel is in the step of construction surface
Suddenly binding agent can be used to glue note Combined thermal insulative panel, it is also possible to make while using binding agent to glue note
The mode constructed is carried out with workpiece.
In the construction method of the Combined thermal insulative panel of the present invention, described thermal insulation board 10, glass fiber mesh
20 and coating member 30 techniques known can be used to be not particularly limited.Described glass
The form of fleece 20 is preferably the skeleton of lattice type.Described coating member 30 can use stationery,
Non-woven fabrics or sheet metal class etc..
Combined thermal insulative panel used in the construction method of the Combined thermal insulative panel of the present invention can use this
The method manufacture that technical field is conventional.Such as, by coating adhesive on the thermal insulation board blocked,
It is posted on side thereon by viscous to the coating member and/or glass fiber mesh that meet the size of present invention
Formula manufactures.Or the mode increasing screed at described glass fibre on the net manufactures.
During additionally, form thermal insulation board by continuously extruded mode, by glass fiber mesh or covering part
The adherend of part and glass fiber mesh uses as surface elements, for a side so that it is with will shape
The corner of the thermal insulation board become is consistent, or be located at the corner than thermal insulation board enter to inner side with i.e.
By the position of size corresponding for the prominent length of the connecting portion formed, for the opposing party so that it is prominent
In the corner of the thermal insulation board that will be formed to form connecting portion, and viscous note in thermal insulation board one side or
Behind two sides, cut off with certain size, as it is shown on figure 3, in the portion being formed without connecting portion
Divide continuous for the adherend of glass fiber mesh or coating member and glass fiber mesh by binding agent
The mode pasted manufactures.
Referring to the drawings, the construction method to the Combined thermal insulative panel of the present invention is carried out the most in detail
Explanation.
Fig. 4 represent thermal insulation board 10 paste the glass fiber mesh 20 as surface elements compound every
The Construction State of hot plate (with reference to Fig. 1 (a)).That is, the Combined thermal insulative panel of the present invention is adjacent
The connecting portion (glass fiber mesh 20) formed on two limits, can glue and be posted on adjacent compound heat-insulation
On the glass fiber mesh 20 of plate.Therefore, according to the Combined thermal insulative panel of the present invention, Combined thermal insulative panel
Between combine construction continuously and can become easy.
After construction as shown in Figure 4 terminates, carry out screed construction above it, and enter thereon
Row finishing material is constructed, thus terminates heat insulation construction.
Fig. 5 represents on thermal insulation board 10 what viscous note was made up of glass fiber mesh 20 and screed 40
The Construction State of the Combined thermal insulative panel of surface elements.That is, the Combined thermal insulative panel of the present invention is adjacent
The connecting portion (glass fiber mesh 20) formed on two limits, viscous note is on adjacent Combined thermal insulative panel.
Now, combining for described connecting portion (glass fiber mesh 20) due to adjacent Combined thermal insulative panel
Part is formed without screed 40, therefore, can carry out the combination between glass fiber mesh 20.
After Fig. 6 represents that the construction shown in described Fig. 5 terminates, in the portion being formed without screed 40
Divide and increase the state forming screed 40.
After construction as shown in Figure 6 terminates, carry out finishing material construction thereon, thus terminate every
Heat construction.
Fig. 7 represents the form of existing Combined thermal insulative panel, and Fig. 8 represents compound heat-insulation as above
Form after plate construction.As shown in Figure 8, when existing Combined thermal insulative panel is constructed, compound
Between thermal insulation board based on connect combination, can only after Combined thermal insulative panel is constructed independently,
Realized by finishing material.Therefore, the combination between Combined thermal insulative panel is firm not, is difficult to reliable
, there is the shortcoming that heat-proof quality declines in ground blind.
Although disclosure sets forth described preferred embodiment and relevant content, but without departing from
In the case of inventive concept and context, it can be modified and deformation.Therefore, this is belonged to
The various amendments of bright purport and deformation are included in present claims protection domain.
Claims (7)
1. a Combined thermal insulative panel, it is characterised in that
Including thermal insulation board;And
It is pasted onto the surface elements at least one side of described thermal insulation board,
Together with described surface elements has and glues be posted on than with this surface elements from two adjacent limits
The connecting portion that the corresponding sides in the face of thermal insulation board highlight longerly.
2. Combined thermal insulative panel as claimed in claim 1, it is characterised in that
Described surface elements is only made up of glass fiber mesh or coating member, or has covering part
Part and the form of glass fiber mesh bonding.
3. Combined thermal insulative panel as claimed in claim 1, it is characterised in that
Described surface elements is by glass fiber mesh and is formed at the screed that this glass fibre is online
Constitute;Or it is made up of coating member and the screed that is formed on this coating member;Or with
Coating member and the form of glass fiber mesh bonding, it is online that screed is formed at described glass fibre.
4. Combined thermal insulative panel as claimed in claim 3, it is characterised in that
Described screed is formed with the width identical with thermal insulation board;
Or described screed is formed at the part formed as follows: be formed with the two of connecting portion
Individual avris, using the limit of thermal insulation board as two limits, and is being formed without two avris of connecting portion,
The portion of the size corresponding with the length of described connecting portion is entered to inner side by being as the criterion with the limit of thermal insulation board
It is allocated as being that two limits are formed;
Or described screed is formed at and enters being as the criterion with four limits of thermal insulation board to inner side and connect
Connect the part that the part of size corresponding to the length in portion is formed as 4 limits.
5. Combined thermal insulative panel as claimed in claim 2, it is characterised in that
Described coating member is stationery, Non-woven fabrics or sheet metal class.
6. Combined thermal insulative panel as claimed in claim 2, it is characterised in that
Described surface elements is coating member and the form of glass fiber mesh bonding, and by glass fibers
Dimension net independently forms connecting portion or is together formed connecting portion by coating member and glass fiber mesh.
7. Combined thermal insulative panel as claimed in claim 1, it is characterised in that
For described surface elements, corresponding with the connecting portion being formed on adjacent two limit
Two limits of opposition side are formed as, the size consistent with the limit of the thermal insulation board pasted for surface elements,
Or with the length of connecting portion corresponding size less than the limit of described thermal insulation board.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510079600.6A CN105986626A (en) | 2015-02-13 | 2015-02-13 | Composite thermal baffle |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510079600.6A CN105986626A (en) | 2015-02-13 | 2015-02-13 | Composite thermal baffle |
Publications (1)
Publication Number | Publication Date |
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CN105986626A true CN105986626A (en) | 2016-10-05 |
Family
ID=57042508
Family Applications (1)
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CN201510079600.6A Pending CN105986626A (en) | 2015-02-13 | 2015-02-13 | Composite thermal baffle |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH0941615A (en) * | 1995-08-02 | 1997-02-10 | Toyo Polymer Kk | Composite face member for execution of inner wall surface and execution method thereof |
JPH0952293A (en) * | 1995-08-09 | 1997-02-25 | Sekisui Seikei Kogyo Kk | Floor covering |
CN201218387Y (en) * | 2006-08-01 | 2009-04-08 | 圣戈班伊索福公司 | Fast-fixing heat insulation plate of air distribution pipe |
CN102869840A (en) * | 2010-06-17 | 2013-01-09 | 株式会社Bnp | Composite insulation panel |
CN204081108U (en) * | 2014-09-15 | 2015-01-07 | 戚富明 | Composite insulation boards |
-
2015
- 2015-02-13 CN CN201510079600.6A patent/CN105986626A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0941615A (en) * | 1995-08-02 | 1997-02-10 | Toyo Polymer Kk | Composite face member for execution of inner wall surface and execution method thereof |
JPH0952293A (en) * | 1995-08-09 | 1997-02-25 | Sekisui Seikei Kogyo Kk | Floor covering |
CN201218387Y (en) * | 2006-08-01 | 2009-04-08 | 圣戈班伊索福公司 | Fast-fixing heat insulation plate of air distribution pipe |
CN102869840A (en) * | 2010-06-17 | 2013-01-09 | 株式会社Bnp | Composite insulation panel |
CN204081108U (en) * | 2014-09-15 | 2015-01-07 | 戚富明 | Composite insulation boards |
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Application publication date: 20161005 |