CN208518243U - A kind of composite ceramic slab with indoor heat insulating effect - Google Patents
A kind of composite ceramic slab with indoor heat insulating effect Download PDFInfo
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- CN208518243U CN208518243U CN201820928308.6U CN201820928308U CN208518243U CN 208518243 U CN208518243 U CN 208518243U CN 201820928308 U CN201820928308 U CN 201820928308U CN 208518243 U CN208518243 U CN 208518243U
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- layer
- glaze paint
- square groove
- copper sheet
- shrinkage pool
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Abstract
The utility model relates to inner wall of building to fit up ceramic tile technical field, and in particular to a kind of composite ceramic slab with indoor heat insulating effect, the ceramic thermal insulation plate including square plate block structure;The upper surface of the insulation board offers the square groove of square indentations structure;Insulation board bottom surface array offers the shrinkage pool of multiple semicircular arc structures, and only the bottom opening position of the shrinkage pool is provided with cylindrical bumping post;The bottom of the square groove is provided with for reinforcing heat-insulated asbestos layer, asbestos layer top has been filled with graphene layer, the closed upper part of graphene layer is provided with copper sheet, the top surface of the copper sheet is provided with glaze paint bottom, the upper surface of glaze paint bottom is provided with color layer, and the upper surface of the color layer is provided with glaze paint surface layer;The insulation board upper surface on the color layer and square groove periphery is completely covered in the glaze paint surface layer.The utility model heat insulation effect and anti-dropout effect are preferable, have preferable practical value and promotional value.
Description
Technical field
The utility model relates to inner wall of building to fit up ceramic tile technical field, and in particular to a kind of with indoor heat insulating effect
Composite ceramic slab.
Background technique
Currently, in terms of many interior decorations, ceramic wafer is generallyd use as indoor internal wall finishing material.However, existing
Some ceramic wafers in the specific use process, usually come with some shortcomings, specifically:
Existing ceramic wafer heat insulation effect is poor, causes in cold winter, the space of architecture indoor cannot be preferable
Heat preservation, especially in northern cold winter, the heat insulation effect of wall is particularly significant;On the other hand, existing ceramic wafer is in interior wall
When paving, solid due to being pasted not strongly between paving face and cement or concrete, during causing paving, ceramic wafer is easy to fall,
Influence normal paving construction.
Therefore, based on above-mentioned, the application provides a kind of composite ceramic slab with indoor heat insulating effect, by ceramic wafer
Overall structure carry out rational modification design, so that ceramic wafer is had preferable indoor heat insulating effect, while avoiding ceramic wafer
It falls off downwards during paving, and then solves the shortcomings of the prior art and defect.
Utility model content
The purpose of this utility model be that for presently, there are the above problem, providing a kind of has indoor heat insulating effect
The composite ceramic slab of fruit carries out rational modification design by the overall structure to ceramic wafer, ceramic wafer is enable to have preferably
Indoor heat insulating effect, while ceramic wafer being avoided to fall off downwards during paving, so solve the shortcomings of the prior art and
Defect.
To achieve the goals above, the technical solution adopted in the utility model is:
A kind of composite ceramic slab with indoor heat insulating effect, the ceramic thermal insulation plate including square plate block structure;It is described
The upper surface of insulation board offers the square groove of square indentations structure;Insulation board bottom surface array offers multiple semi arches
The shrinkage pool of shape structure, only the bottom opening position of the shrinkage pool is provided with cylindrical bumping post;The bottom of the square groove is provided with
For reinforcing heat-insulated asbestos layer, asbestos layer top has been filled with graphene layer, and the closed upper part of graphene layer is provided with copper
Plate, the top surface of the copper sheet are provided with glaze paint bottom, and the upper surface of glaze paint bottom is provided with color layer, the upper table of the color layer
Face is provided with glaze paint surface layer;The insulation board upper surface on the color layer and square groove periphery is completely covered in the glaze paint surface layer;
The bottom surface of the copper sheet is provided with wave structure, and the wave structure is recessed by downwardly projecting semi arch protrusion and upwards
Semicircle arc fluting be spaced apart from each other arrangement composition.
It illustrates herein: ceramic thermal insulation plate used herein, specific mass fraction component are as follows: 9 parts of feldspar, firefly
It 11 parts of stone, 10 parts of silicon carbide, 13 parts of glycerine glycerinate, 7 parts of silicone acrylic emulsion, 3 parts of fire retardant, 15 parts of jade powder, covers de-
8 parts of stone, modified 6 parts of clay, 14 parts of ceramic fibre, 8 parts of boron nitride, 9 parts of bauxite clay, 10 parts of medical stone, Zircon corundum ceramics ball
11 parts, 8 parts of perlite, 12 parts of reclaimed rubber, 21 parts of ceramic powder, 5 parts of foaming agent, 3 parts of illite, 8 parts of wood fibre, 6 parts of borax,
5 parts of stabilizer.The ceramic thermal insulation plate is sintered by the raw material of said components to be prepared.In addition, the ceramics of the application are protected
Warm plate can also be substituted using prior art heat preservation panel products.
On the one hand the application passes through the structure setting of ceramic thermal insulation plate, asbestos layer is set to rectangular trench bottom, is conducive to auxiliary
Help the heat insulation and preservation effect of insulation board;It is by the way that copper sheet and graphene layer, the effect played are arranged inside square groove: when
User opens air-conditioning heating or indoors when daytime, indoor air temperature was higher, indoor heat can be transferred to glaze paint surface layer, color
Color layer and glaze paint bottom carry out absorption storage finally by copper sheet and graphene layer, and heat is in copper sheet and graphene
After carrying out absorption storage, since copper sheet and graphene layer are respectively positioned on inside insulation board, its heat is caused to be not easy to be transferred to
Preferable heat preservation heat accumulation effect is played in outside.And at this point, if encounter room temperature it is lower when, due to glaze paint surface layer and color
Layer, the heat insulating effect of glaze paint bottom are relatively low compared to for insulation board, and heat can be by copper sheet by glaze paint surface layer
Heating and thermal insulation is carried out, the heat of glaze paint surface layer is transferred to interior further through air, achievees the effect that indoor heat insulating.Copper sheet
Bottom surface is bonded installation form with graphene layer upper surface, conducive to the heat transmission between copper sheet and graphene layer, increases heat transfer
Area.
On the other hand, the technical solution of the application can be convenient user by shrinkage pool structure and the structure setting of bumping post
When installing ceramic wafer paving indoors, ceramic wafer bottom surface on metope, in paving ceramic wafer, is applied as the paving of paving face
The bottom surface of insulation board is affixed to the concrete or cement of inner wall surface by worker person, under the effect of the pressure, the concrete of metope
Or cement is squeezed into shrinkage pool, and bumping post is coated and fills shrinkage pool;In this way, it is bonding with metope to reinforce paving face
Firmness the phenomenon that so as to effectively ceramic wafer be avoided to slide, plays preferable anti-dropout effect.
Therefore, the technical solution of the application not only has preferable heat insulation effect and preferable anti-dropout effect, but also
It is also equipped with preferable practical value and promotional value.
Preferably, the insulation board with a thickness of 15mm-18mm, the square groove top opening side length that is opened up inside insulation board
It is 3mm-4mm smaller than the side length of insulation board upper surface.
Preferably, the bottom wall thickness of the square groove is 6mm, and the shrinkage pool depth of rectangular trench bottom is 4mm, and the shrinkage pool is wide
Degree is 10mm-15mm, and the diameter of the bumping post is 2mm-3mm, and the length of shrinkage pool is 15mm-20mm, and the bumping post is arranged recessed
The center of hole bottom opening, and the length direction of bumping post is identical as the length direction of shrinkage pool, bumping post both ends respectively with shrinkage pool
Both ends be fixedly connected.
Preferably, the asbestos layer with a thickness of 1.5mm-2mm, the fixed bottom for being pasted onto the square groove of asbestos layer.
Preferably, the upper surface of the graphene layer is provided with the fluctuating wave to match with the wave structure of copper sheet bottom surface
Line is installed between the graphene layer and asbestos layer for fixed bonding.
Preferably, it is fixed bonding between the copper sheet and graphene layer, is solid between copper sheet upper surface and glaze paint bottom
Fixed bonding.
Preferably, it is structure as a whole between the glaze paint surface layer, color layer and glaze paint bottom, and the asbestos layer, stone
Black alkene layer, copper sheet, glaze paint bottom, color layer are respectively positioned on inside the square groove, and the glaze paint surface layer is located at the square groove
Outside, and the upper surface of color layer is coplanar with the upper surface of insulation board, forms integral planar structure;The glaze paint surface layer will be described
Square groove carries out closing cladding.
By adopting the above-described technical solution, the beneficial effects of the utility model are:
On the one hand the application passes through the structure setting of ceramic thermal insulation plate, asbestos layer is set to rectangular trench bottom, is conducive to auxiliary
Help the heat insulation and preservation effect of insulation board;It is by the way that copper sheet and graphene layer, the effect played are arranged inside square groove: when
User opens air-conditioning heating or indoors when daytime, indoor air temperature was higher, indoor heat can be transferred to glaze paint surface layer, color
Color layer and glaze paint bottom carry out absorption storage finally by copper sheet and graphene layer, and heat is in copper sheet and graphene
After carrying out absorption storage, since copper sheet and graphene layer are respectively positioned on inside insulation board, its heat is caused to be not easy to be transferred to
Preferable heat preservation heat accumulation effect is played in outside.And at this point, if encounter room temperature it is lower when, due to glaze paint surface layer and color
Layer, the heat insulating effect of glaze paint bottom are relatively low compared to for insulation board, and heat can be by copper sheet by glaze paint surface layer
Heating and thermal insulation is carried out, the heat of glaze paint surface layer is transferred to interior further through air, achievees the effect that indoor heat insulating.Copper sheet
Bottom surface is bonded installation form with graphene layer upper surface, conducive to the heat transmission between copper sheet and graphene layer, increases heat transfer
Area.
On the other hand, the technical solution of the application can be convenient user by shrinkage pool structure and the structure setting of bumping post
When installing ceramic wafer paving indoors, ceramic wafer bottom surface on metope, in paving ceramic wafer, is applied as the paving of paving face
The bottom surface of insulation board is affixed to the concrete or cement of inner wall surface by worker person, under the effect of the pressure, the concrete of metope
Or cement is squeezed into shrinkage pool, and bumping post is coated and fills shrinkage pool;In this way, it is bonding with metope to reinforce paving face
Firmness the phenomenon that so as to effectively ceramic wafer be avoided to slide, plays preferable anti-dropout effect.
Therefore, the technical solution of the application not only has preferable heat insulation effect and preferable anti-dropout effect, but also
It is also equipped with preferable practical value and promotional value.
Detailed description of the invention
Fig. 1 is the cross-sectional structure schematic diagram of the utility model;
Fig. 2 is the insulation board bottom surface structure schematic diagram of the utility model;
Fig. 3 is the ceramic wafer surface structure schematic diagram of the utility model.
In figure: 1, insulation board;2, square groove;3, glaze paint surface layer;4, color layer;5, glaze paint bottom;6, copper sheet;7, graphene
Layer;8, shrinkage pool;9, bumping post;10, semi arch protrusion;11, semicircle arc fluting;12, asbestos layer.
Specific embodiment
It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer
Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched
The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments, based on the implementation in the utility model
Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to
The range of the utility model protection.
Embodiment 1, as shown in Figs. 1-3:
A kind of composite ceramic slab with indoor heat insulating effect, the ceramic thermal insulation plate 1 including square plate block structure;It is described
The upper surface of insulation board 1 offers the square groove 2 of square indentations structure;The 1 bottom surface array of insulation board offers multiple half
The shrinkage pool 8 of arc-shaped structure, only the bottom opening position of the shrinkage pool 8 is provided with cylindrical bumping post 9;The bottom of the square groove 2
Portion is provided with for reinforcing heat-insulated asbestos layer 12, and 12 top of asbestos layer has been filled with graphene layer 7, graphene layer 7 it is upper
Portion's closing is provided with copper sheet 6, and the top surface of the copper sheet 6 is provided with glaze paint bottom 5, and colored is arranged in the upper surface of glaze paint bottom 5
Layer 4, the upper surface of the color layer 4 is provided with glaze paint surface layer 3;The color layer 4 and side is completely covered in the glaze paint surface layer 3
1 upper surface of insulation board on 2 periphery of shape slot;The bottom surface of the copper sheet 6 is provided with wave structure, and the wave structure is by downward
The semi arch protrusion 10 of protrusion and the semicircle arc fluting 11 being recessed upwards are spaced apart from each other arrangement composition.
It illustrates herein: ceramic thermal insulation plate 1 used herein, specific mass fraction component are as follows: 9 parts of feldspar,
It 11 parts of fluorite, 10 parts of silicon carbide, 13 parts of glycerine glycerinate, 7 parts of silicone acrylic emulsion, 3 parts of fire retardant, 15 parts of jade powder, covers
De- 8 parts of stone, modified 6 parts of clay, 14 parts of ceramic fibre, 8 parts of boron nitride, 9 parts of bauxite clay, 10 parts of medical stone, Zircon corundum ceramics
11 parts of ball, 8 parts of perlite, 12 parts of reclaimed rubber, 21 parts of ceramic powder, 5 parts of foaming agent, 3 parts of illite, 8 parts of wood fibre, borax 6
Part, 5 parts of stabilizer.The ceramic thermal insulation plate 1 is sintered by the raw material of said components to be prepared.In addition, the pottery of the application
Porcelain insulation board 1 can also be substituted using 1 product of prior art insulation board.
On the one hand the application passes through the structure setting of ceramic thermal insulation plate 1, asbestos layer 12 is set to 2 bottom of square groove, benefit
In the heat insulation and preservation effect of auxiliary insulation board 1;By the way that copper sheet 6 and graphene layer 7, the effect played are arranged inside square groove 2
Fruit is: when user opens air-conditioning heating indoors or daytime, indoor air temperature was higher, indoor heat can be transferred to glaze
Face surface layer 3, color layer 4 and glaze paint bottom 5 carry out absorption storage finally by copper sheet 6 and graphene layer 7, and heat is in copper
After carrying out absorption storage in plate 6 and graphene, since copper sheet 6 and graphene layer 7 are respectively positioned on inside insulation board 1, cause
Its heat is not easy to be transferred to outside, plays preferable heat preservation heat accumulation effect.And at this point, if encounter room temperature it is lower when, by
In glaze paint surface layer 3 and color layer 4, glaze paint bottom 5 heat insulating effect compared to relatively low, heat for insulation board 1
Glaze paint surface layer 3 can be subjected to heating and thermal insulation by copper sheet 6, the heat of glaze paint surface layer 3 is transferred to interior further through air,
Achieve the effect that indoor heat insulating.6 bottom surface of copper sheet is bonded installation form with 7 upper surface of graphene layer, is conducive to copper sheet 6 and graphite
Heat transmission between alkene layer 7 increases heat transfer area.
On the other hand, the technical solution of the application can be convenient use by 8 structure of shrinkage pool and the structure setting of bumping post 9
Family by ceramic wafer paving indoors install when, ceramic wafer bottom surface as the paving of paving face on metope, in paving ceramic wafer,
The bottom surface of insulation board 1 is affixed to the concrete or cement of inner wall surface, under the effect of the pressure, the coagulation of metope by construction personnel
Soil or cement are squeezed into shrinkage pool 8, and bumping post 9 is coated and fills shrinkage pool 8;In this way, paving face and metope can be reinforced
Bonding firmness, the phenomenon that so as to effectively ceramic wafer be avoided to slide, play preferable anti-dropout effect.
Therefore, the technical solution of the application not only has preferable heat insulation effect and preferable anti-dropout effect, but also
It is also equipped with preferable practical value and promotional value.
Preferably, the insulation board 1 with a thickness of 15mm-18mm, 2 top opening of square groove that is opened up inside insulation board 1
The small 3mm-4mm of side length of 1 upper surface of side ratio insulation board.
Preferably, the bottom wall thickness of the square groove 2 is 6mm, and 8 depth of shrinkage pool of 2 bottom of square groove is 4mm, described recessed
8 width of hole is 10mm-15mm, and the diameter of the bumping post 9 is 2mm-3mm, and the length of shrinkage pool 8 is 15mm-20mm, the bumping post 9
The center of 8 bottom opening of shrinkage pool is set, and the length direction of bumping post 9 is identical as the length direction of shrinkage pool 8,9 liang of bumping post
End is fixedly connected with the both ends of shrinkage pool 8 respectively.
Preferably, the asbestos layer 12 with a thickness of 1.5mm-2mm, the fixation of asbestos layer 12 is pasted onto the square groove 2
Bottom.
Preferably, the upper surface of the graphene layer 7 is provided with the fluctuating to match with the wave structure of 6 bottom surface of copper sheet
Ripple is installed between the graphene layer 7 and asbestos layer 12 for fixed bonding.
It preferably, is fixed bonding between the copper sheet 6 and graphene layer 7, between 6 upper surface of copper sheet and glaze paint bottom 5
For fixed bonding.
Preferably, it is structure as a whole between the glaze paint surface layer 3, color layer 4 and glaze paint bottom 5, and the asbestos layer
12, graphene layer 7, copper sheet 6, glaze paint bottom 5, color layer 4 are respectively positioned on inside the square groove 2, and the glaze paint surface layer 3 is located at institute
The outside of square groove 2 is stated, and the upper surface of color layer 4 is coplanar with the upper surface of insulation board 1, forms integral planar structure;It is described
The square groove 2 is carried out closing cladding by glaze paint surface layer 3.
Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to
In this, anyone skilled in the art can readily occur in variation in the technical scope that the utility model discloses
Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be wanted with right
Subject to the protection scope asked.
Claims (7)
1. a kind of composite ceramic slab with indoor heat insulating effect, it is characterised in that: the ceramics including square plate block structure are protected
Warm plate;The upper surface of the insulation board offers the square groove of square indentations structure;Insulation board bottom surface array offers
The bottom opening position of the shrinkage pool of multiple semicircular arc structures, the shrinkage pool is provided with cylindrical bumping post;The bottom of the square groove
Portion is provided with for reinforcing heat-insulated asbestos layer, and asbestos layer top has been filled with graphene layer, the closed upper part of graphene layer
It is provided with copper sheet, the top surface of the copper sheet is provided with glaze paint bottom, and the upper surface of glaze paint bottom is provided with color layer, the color
The upper surface of layer is provided with glaze paint surface layer;The insulation board of the color layer and square groove periphery is completely covered in the glaze paint surface layer
Upper surface;The bottom surface of the copper sheet is provided with wave structure, the wave structure by downwardly projecting semi arch protrusion and
The semicircle arc fluting being recessed upwards is spaced apart from each other arrangement composition.
2. a kind of composite ceramic slab with indoor heat insulating effect as described in claim 1, it is characterised in that: the insulation board
With a thickness of 15mm-18mm, the side length of the square groove top opening side ratio insulation board upper surface opened up inside insulation board is small
3mm-4mm。
3. a kind of composite ceramic slab with indoor heat insulating effect as described in claim 1, it is characterised in that: the square groove
Bottom wall thickness be 6mm, the shrinkage pool depth of rectangular trench bottom is 4mm, and the shrinkage pool width is 10mm-15mm, the bumping post
Diameter is 2mm-3mm, and the length of shrinkage pool is 15mm-20mm, and the center of shrinkage pool bottom opening is arranged in the bumping post, and keeps off
The length direction of column and the length direction of shrinkage pool are identical, and bumping post both ends are fixedly connected with the both ends of shrinkage pool respectively.
4. a kind of composite ceramic slab with indoor heat insulating effect as described in claim 1, it is characterised in that: the asbestos layer
With a thickness of 1.5mm-2mm, the fixed bottom for being pasted onto the square groove of asbestos layer.
5. a kind of composite ceramic slab with indoor heat insulating effect as described in claim 1, it is characterised in that: the graphene
The upper surface of layer is provided with the fluctuating ripple to match with the wave structure of copper sheet bottom surface, the graphene layer and asbestos layer it
Between for fixed bonding install.
6. a kind of composite ceramic slab with indoor heat insulating effect as described in claim 1, it is characterised in that: the copper sheet with
It is fixed bonding between graphene layer, is fixed bonding between copper sheet upper surface and glaze paint bottom.
7. a kind of composite ceramic slab with indoor heat insulating effect as described in claim 1, it is characterised in that: the glaze paint face
It is structure as a whole between layer, color layer and glaze paint bottom, and the asbestos layer, graphene layer, copper sheet, glaze paint bottom, color
Layer is respectively positioned on inside the square groove, and the glaze paint surface layer is located at the outside of the square groove, and the upper surface of color layer and guarantor
The upper surface of warm plate is coplanar, forms integral planar structure;The square groove is carried out closing cladding by the glaze paint surface layer.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820928308.6U CN208518243U (en) | 2018-06-15 | 2018-06-15 | A kind of composite ceramic slab with indoor heat insulating effect |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820928308.6U CN208518243U (en) | 2018-06-15 | 2018-06-15 | A kind of composite ceramic slab with indoor heat insulating effect |
Publications (1)
Publication Number | Publication Date |
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CN208518243U true CN208518243U (en) | 2019-02-19 |
Family
ID=65325411
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820928308.6U Active CN208518243U (en) | 2018-06-15 | 2018-06-15 | A kind of composite ceramic slab with indoor heat insulating effect |
Country Status (1)
Country | Link |
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CN (1) | CN208518243U (en) |
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2018
- 2018-06-15 CN CN201820928308.6U patent/CN208518243U/en active Active
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