CN208122037U - A kind of assembled combined wall board - Google Patents
A kind of assembled combined wall board Download PDFInfo
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- CN208122037U CN208122037U CN201820248934.0U CN201820248934U CN208122037U CN 208122037 U CN208122037 U CN 208122037U CN 201820248934 U CN201820248934 U CN 201820248934U CN 208122037 U CN208122037 U CN 208122037U
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Abstract
The utility model provides a kind of assembled combined wall board.A kind of assembled combined wall board, including the first decoration protective layer, enhancement layer, the second decoration protective layer, vacuum heat-insulating plate layer and the structure sheaf being successively bonded;The first decoration protective layer and the second decoration protective layer are screed, and the enhancement layer is high strength fibre grid cloth or steel fabric sheet, and the structure sheaf is reinforced concrete floor.The utility model decorates protective layer, enhancement layer, the second decoration protective layer, vacuum heat-insulating plate layer and structure sheaf this five-layer structure for first and is connected by connector; five layer materials are maximized favourable factors and minimized unfavourable ones each other, achieve the effect that the feature integrations one such as frivolous, high heat preservation, fire prevention, high-intensitive and high thermal technology's property.The wallboard of the utility model is more convenient for transporting and be installed, and the utilization rate of construction area is improved, and solves the problems, such as that existing wallboard cannot cannot be integrated by fire prevention, heat preservation, frivolous and load-bearing.
Description
Technical field
The utility model relates to building materials technology fields, more particularly, to a kind of assembled combined wall board.
Background technique
Currently, architectural energy consumption is arranged side by side with industrial consumption energy, traffic energy consumption, become AND ENERGY RESOURCES CONSUMPTION IN CHINA three " are consumed energy big greatly
The energy consumption (including construction energy consumption, life energy consumption, heating air conditioning etc.) at family ", building accounts for about the 30% of whole society's total energy consumption, wherein most
Important is heating and air-conditioning, account for 20%.Therefore, building wall Construction technology of outer thermal insulation just comes into being, however in recent years due to
Wall thermal insulation material poor flame retardant properties and the fire incident that causes is continuous, cause heavy losses to the lives and properties of the country and people,
So select it is a kind of be not only able to satisfy power conservation requirement, but also can fire-retardant wall thermal insulation material be just particularly important.
Prefabricated assembled concrete structure is the main body knot being assembled by concrete component by reliable connection type
Structure, including assemble concrete structure, assembled monolithic concrete structure entirely etc., all or part of structural elements is pre- in factory
System, in-site installation, as a kind of structure type for meeting industrialized production, have speed of application is fast, labor intensity is low,
The advantages such as noise pollution and the few and easy to control the quality system of wet construction.The popularization of prefabricated assembled concrete structure will largely drop
The energy consumption that low architectural process generates, and the processing of the insulation of building enclosure has great meaning to the reduction of constructing operation energy consumption.
" sandwich " heat-insulating integral wallboard can be largely used in assembly concrete building progradation." sandwich " sandwich type wall panel by
Internal lobe wallboard, insulation board and leaf wallboard composition.Inside, by the insulating layer of energy conservation standard design respective thickness between wallboard, and lead to
It crosses dedicated connector and is connected to interior, leaf wall.
Patent application CN106168058A discloses a kind of prefabricated sandwich style Sandwich insulation wallboard, which is protected by decoration
Layer, insulating layer and structure sheaf composition, connect into an entirety by shear connector;Where structure sheaf mainly undertakes wallboard, decoration
Protective layer determines that the decorative cover of wallboard, insulating layer guarantee the thermal and insulating performance of wallboard.In order to reduce the self weight of wallboard and mention
The thermal property of high wallboard uses CL25 intensity, density 1773kg/m3Reinforced Concrete Torsional pour the decoration of wallboard
Protective layer;Insulating layer uses eps foam plate, and a heat insulation body is used as in wallboard, has effectively delayed heat in wallboard
The empty slot that spacing is generally 300mm~600mm is preset in the transmitting of internal layer in plate, is inserted into for shear connector fixed;Structure sheaf uses
C30 concrete mainly undertakes the load of wallboard.Shear connector penetrates insulating layer, and both ends are embedded to decoration protective layer and structure sheaf respectively,
Being embedded in depth in decoration protective layer is 35mm, and being embedded in depth in structure sheaf is 65mm.Decorate protective layer, insulating layer and structure
Thickness degree is respectively 50mm, 50mm and 80mm.The wallboard of the patent application publication is primarily present following problems:First is that insulating layer is adopted
With eps foam plate, having to pass through modification can be only achieved B1 grades of thermal insulation materials, and can cause to environment can not for modification
Inverse murder by poisoning, and its thermal coefficient is higher (0.042W/mK);Second is that decoration protective layer is blocked up, self weight is caused to increase, and
Processing is not good at wallboard and the problems such as cracking, infiltration easily occurs.
CN105089201A discloses a kind of composite evacuated insulation shingle nail of fiber concrete, includes interior page board, page board, with
Interior page board and page board pour together, the side panel that connect interior page board with page board, and be arranged in interior page board, page board and side
The vacuum heat-insulating plate in cavity that plate surrounds.Interior page board and page board include fiber concrete slab and are located at fiber concrete slab
In one layer of horizontal wire net, be additionally provided between interior page board and page board by interior page board and page board pour together, by interior page board with
The vertical concrete rib of page board connection.Interior page board is equipped with lifting built-in fitting, and built-in fitting is located at four corners.High-intensity fiber is mixed
Page board, page board are 20-30mm thickness in solidifying soil, and vacuum heat-insulating plate 15-30mm is thick, and horizontal wire net is away from high-intensity fiber concrete
The distance of the upper bottom surface of plate be 1.0-1.5mm, the shingle nail with a thickness of 55-90mm, wallboard bending tensile strength 15-
20MPa.High-intensity fiber concrete crushing strength is not less than 70MPa, and bending tensile strength is not less than 15MPa, concrete impervious height
Less than 15mm.The wallboard of the patent application publication is primarily present following problems:Indoors under the action of the temperature difference, interior page board and page
Due to poor thermal insulation property, hot-fluid is relatively intensive, heat bridge easily occurs, during severe winter at this at the vertical concrete rib position of plate connection
Temperature is lower than dew-point temperature, and vapor can condense in surface and form moisture condensation, and infiltration is formed when serious, seriously affects building and uses the longevity
Life.
In view of this, special propose the utility model.
Utility model content
First purpose of the utility model is a kind of assembled combined wall board, the combined wall board have both it is frivolous, low it is thermally conductive,
The advantages that fire prevention, is readily transported and installs, and improves the utilization rate of construction area, solve existing wallboard cannot by fire prevention, heat preservation,
Frivolous and load-bearing cannot be integrated problem.
Second purpose of the utility model is the preparation method of above-mentioned assembled combined wall board, the preparation method process letter
It is single, it is low to technical requirements, it is easier to industrialized production.
In order to achieve the goal above, the utility model provides following technical scheme:
A kind of assembled combined wall board, including the first decoration protective layer, enhancement layer, the second decoration protection being successively bonded
Layer, vacuum heat-insulating plate layer and structure sheaf;
The first decoration protective layer and the second decoration protective layer are screed, and the enhancement layer is high strength fiber
Grid cloth or steel fabric sheet are tieed up, the structure sheaf is reinforced concrete floor.
The utility model decorates protective layer, enhancement layer, the second decoration protective layer, vacuum heat-insulating plate layer and structure sheaf for first
This five-layer structure is integrated, and five layer materials are maximized favourable factors and minimized unfavourable ones each other, reaches frivolous, high heat preservation, fire prevention, high-intensitive and high thermal technology's property
The effect of equal feature integrations one.
The utility model difference with the prior art first is that decoration protective layer in insert enhancement layer, enhancement layer has
Intensity height and frivolous characteristic, therefore the utility model is not necessarily to the thickness by increasing decoration protective layer to increase the load-bearing of wallboard
Property.In addition, enhancement layer is also effectively blocked from extraneous unexpected sharp thorn power, to avoid thorn power to the damage of vacuum heat-insulating plate
It is bad.
The utility model difference with the prior art second is that using vacuum heat-insulating plate as insulating layer, there is fire prevention, low
The advantages that thermal coefficient, nonhazardous.Specifically, vacuum heat-insulating plate is a kind of novel energy-conserving heat-insulating material, on the one hand utilizes vacuum
Adiabatic principle can effectively eliminate convection effect;On the other hand, by the optimum choice to core material, heat transfer is controlled reasonable
Level, and heat radiation can be effectively reduced.Vacuum heat-insulating plate is more managed due to combining two methods of vacuum insulation and micropore insulation
Reach heat preservation, energy-efficient insulation effect and purpose with thinking.
High strength fibre grid described in the utility model is furnished with alkali-proof glass fiber mesh, basalt fibre grid cloth etc.
Material.
Steel fabric sheet described in the utility model generally selects 0.9~1.0mm of diameter, and size of mesh opening is 10mm × 10mm's
Cold-drawn low-carbon wire mesh grid or welded mesh, to enhance the anti crack performance of wallboard.
In above-mentioned wallboard, the two sides of the vacuum heat-insulating plate layer is generally handled through boundary mortar coating in advance, so as to respectively
It is bonded with upper layer and lower layer.
The above assembled combined wall board can also improve from the following aspect.
Preferably, the vacuum heat-insulating plate layer is spliced by multiple vacuum heat-insulating plate fissure of displacement.
Fissure of displacement paving can avoid the formation of heat bridge, lead to problems such as to be easy infiltration, shorten building service life.
In addition, the insulating layer of the utility model is spliced by multiple small vacuum heat-insulating plates, it can be to avoid big vacuum
Heat-insulating shield needs to cut the problem of causing heat insulation effect to reduce.
Preferably, the fissure of displacement distance of the fissure of displacement splicing is in 150mm or more.
Sufficiently long fissure of displacement distance could effectively avoid heat bridge problem.
Preferably, in the fissure of displacement splicing width in each gap in 10mm or less.
Heat insulation effect rapid drawdown when gap is wide, therefore, it is suggested that gap width is no more than 10mm.
Preferably, connector, connector connection first decoration are equipped in the vacuum heat-insulating plate layer in gap
Protective layer, the enhancement layer, the second decoration protective layer and the structure sheaf.
Connector links together each layer of wallboard, increases the firmness of wallboard, while increasing its bearing capacity.
Preferably, the gap filling between the vacuum heat-insulating plate has polyester form item or thermal insulation mortar.
The thermal coefficient of polyester form item or thermal insulation mortar is low, and heat insulation effect is good, other heat insulation effects can also be used certainly
Better material.
Preferably, it is described first decoration protective layer and second decoration protective layer thickness be respectively 12~15mm, 8~
10mm, the enhancement layer with a thickness of 0.5~1.5mm, the vacuum heat-insulating plate layer with a thickness of 10~20mm, the structure sheaf
With a thickness of 160~220mm.
If each layer uses above-mentioned thickness in wallboard, the thermal property and load-bearing property of wallboard obtain preferable balance, i.e.,
The wallboard can be used as load bearing wall and good heat insulating ability.
Preferably, it is bonded between the second decoration protective layer and the vacuum heat-insulating plate layer by boundary mortar, it is described
It is bonded between vacuum heat-insulating plate layer and the structure sheaf by boundary mortar.
Boundary mortar has stronger cohesive force, and on the two sides of vacuum heat-insulating plate layer, spraying boundary mortar can be effectively ensured
The adhesion strength of vacuum heat-insulating plate and decoration protective layer and structure sheaf.
Preferably, the decoration protective layer is mainly made of following material:
Cement, sand, lime, gypsum and calcium powder.
Mortar used by the utility model is mainly light mortar, therefore, cement, sand, lime, gypsum and calcium can be used
These lightweight materials of powder.
Preferably, the screed further includes coloring earth, and the coloring earth is titanium dioxide, iron oxide yellow, iron oxide
It is black, iron oxide blue one or more.
The coloring earth of different colours is selected, is increased decorative.
Preferably, in the screed, cement, sand, lime, gypsum, calcium powder and coloring earth soil proportion be:
By weight, 28~40 parts of cement, 50~60 parts of sand, 5~8 parts of lime, 3~5 parts of gypsum, 8~12 parts of calcium powder,
0.2~0.5 part of coloring earth.
If not adding coloring earth, mortar formula is:By weight, 28~40 parts of cement, 50~60 parts of sand, stone
5~8 parts, 3~5 parts of gypsum, 8~12 parts of calcium powder of ash.
The decoration mortar of the formula composition has both the advantages of lightweight, decoration, high thermal property.
Preferably, for the strength grade of the reinforced concrete floor in C30 or more, density is preferably 1500~1700kg/
m3。
The armored concrete for meeting the rank has good bearing, the load for decorating protective layer can be transmitted to main body
In structure, and it is lower compared to traditional concrete density, have the advantages that lightweight.
Specifically, can be used as following formula:
Preferably, the reinforced concrete floor is mainly made of following material:By weight, 50~60 parts of cement, fine coal
Grey 3~10 parts, 10~20 parts of slag, 60~80 parts of steel slag, 50~60 parts of haydite, 0.05~0.15 part of water-retaining agent, water-reducing agent 0.1
~0.2 part, 20~25 parts of water;
Preferably, the reinforced concrete floor is mainly made of following material:By weight, 50~55 parts of cement, fine coal
Grey 5~10 parts, 10~15 parts of slag, 70~80 parts of steel slag, 50~55 parts of haydite, 0.1~0.15 part of water-retaining agent, water-reducing agent 0.1
~0.15 part, 22~25 parts of water;
Preferably, the cement is ordinary portland cement, and strength grade is mixed for one or both of 42.5 or 42.5R
It closes;
Preferably, the flyash grade is one or both of I grades or II grades mixing;
Preferably, the slag grade is one or both of S95 grades or S105 grades mixing;
Preferably, the fineness modulus of the steel slag is 3.0~3.3, and bulk density is 1020~1080kg/m3;
Preferably, the haydite is lytag, it is preferable that the partial size of the haydite is 5~15mm, and bulk density is
840~870kg/m3, cylindrical compress strength >=5.0MPa.
Preferably, the water-reducing agent is one kind of polycarboxylate water-reducer, naphthalene water reducer and melamine system water reducer.
Preferably, the water-retaining agent is hydroxypropyl methyl cellulose.
Following preparation method can be used in above-mentioned all assembled combined wall boards of the utility model:
Step A:In the mold for being coated with release agent, one layer of mortar is poured, then enhancement layer described in paving, then increased
The top of strong layer sprays another layer of mortar, forms the second decoration protective layer;
Step B:Before the mortar initial set of the second decoration protective layer, the fissure of displacement is laid with multiple vacuum insulations above
Plate is paved, blind, forms insulating layer;
Step C:The pouring reinforcement concrete above the insulating layer forms structure sheaf.
Above method first makes decoration protective layer, then again with the final paving of the sequence being layering to structure sheaf, the system
Standby process does not conflict with the link for reserving " hanging ring, built-in fitting, pipeline, electrical box and preformed hole " in wallboard, high production efficiency, and
And interference between layers is small, product qualification rate is higher, and panel structure is more stable.
If not considering factors above, the sequence opposite with the above method can also be used and prepare wallboard, such as first make structure
Protective layer is decorated in layer, last paving.
Connector is laid in the gap generated in the multiple vacuum heat-insulating plates of the laying;
Preferably, pre-buried hanging ring, built-in fitting, pipeline, electrical box and preformed hole between the insulating layer and the structure sheaf.
In addition, some pretreatment works can also be done before step A, such as cleaning platform, side mode is built, door and window is reserved
Hole.It is shaken when spraying mortar in spraying, to guarantee that thickness is uniform.
To be laid with vacuum heat-insulating plate before mortar initial set, then need to place 15~20min.
Anchorage length of the connector in unilateral wallboard is not preferably less than 15mm, on door-window opening periphery fixed anti-corrosion woodbox and
Vacuum heat-insulating plate carries out bridge cut-off processing;Cushion block is set, steel reinforcement cage, pre-buried hanging ring, built-in fitting, pipeline, electrical box, preformed hole are lifted
Deng.
After pouring structure layer, vibrate, catch up with light, natural curing or steam curing, polishing, smoothing, demoulding, lifting, code are also needed
Pile.
To sum up, compared with prior art, the utility model has reached following technical effect:
(1) wallboard of the utility model can integrate the characteristics such as fire prevention, heat preservation, frivolous and load-bearing, comprehensive performance more preferably,
The scope of application is wider;
(2) the utility model avoids phenomena such as traditional sandwich assembled wallboard easy to crack, infiltration, heat bridge;
(3) the preparation method process of the utility model is simple, high production efficiency.
Detailed description of the invention
It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art
Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below
In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art
Under the premise of labour, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is the structural schematic diagram of assembled combined wall board provided by the embodiment of the utility model.
Specific embodiment
The technical solution of the utility model is clearly and completely retouched below in conjunction with the drawings and specific embodiments
It states, it will be appreciated by those skilled in the art that following, the embodiments are a part of the embodiments of the present invention, without
It is whole embodiments, is merely to illustrate the utility model, and is not construed as limitation the scope of the utility model.It is practical based on this
Embodiment in novel, every other reality obtained by those of ordinary skill in the art without making creative efforts
Example is applied, is fallen within the protection scope of the utility model.The person that is not specified actual conditions in embodiment, according to normal conditions or manufacturer
It is recommended that condition carry out.Reagents or instruments used without specified manufacturer is the routine that can be obtained by commercially available purchase
Product.
Embodiment 1
Make assembled combined wall board
(1) platform is cleared up, side mode is built, reserves door-window opening, sprays release agent.
(2) even application 12mm thickness decoration mortar, paving enhancement layer;The formula of decoration mortar is:Cement 28kg, sand
55kg, lime 5kg, gypsum 5kg, calcium powder 8kg, titanium dioxide 0.2kg, enhancement layer use alkali-proof glass fiber mesh.
(3) it then sprays 10mm thickness decoration mortar (identical as the formula of second step) again on enhancement layer, decoration is protected
Sheath vibration be coated with to two sides after uniform thickness, should be placed immediately 0.5mm thickness boundary mortar vacuum heat-insulating plate (with a thickness of
15mm).Standing time should control within the scope of 15~20min, guarantee that decoration mortar is not up to pre-hardening state.
(4) when vacuum heat-insulating plate paving, the fissure of displacement is answered between plate and plate, the Local Minimum fissure of displacement is no less than 150mm, external corner
Place's vacuum heat-insulating plate answers interlaced arrangement or uses special matching board, and plate stitch is wide no more than 10mm.
(5) after placing vacuum heat-insulating plate, gap between insulation board using polyurethane foam or thermal insulation mortar filling to prevent
It is only seeped under Reinforced Concrete Torsional, and built-in connection, anchorage length of the connector in unilateral wallboard is not preferably less than 20mm,
The fixed anti-corrosion woodbox in door-window opening periphery and vacuum heat-insulating plate carry out bridge cut-off processing.
(6) cushion block is set, steel reinforcement cage, pre-buried hanging ring, built-in fitting, pipeline, electrical box, preformed hole etc. are lifted.
(7) haydite concrete structure sheaf is poured, thickness is not less than 160mm (according to JGJ3-2010《Skyscraper concrete
Structure technology regulation》, the section thickness of shear wall should meet the following requirements:I and II shear wall:Do not answer small in bottom reinforcement position
In 200mm, other positions are no less than 160mm;Linear type independence shear wall bottom reinforces position and is no less than 220mm, other
Position is no less than 180mm), it vibrates, catch up with light;The formula of haydite concrete used is:50 kilograms of cement, flyash 10,000
Gram, 10 kilograms of slag, 80 kilograms of steel slag, 50 kilograms of haydite, 0.15 kilogram of water-retaining agent, 0.1 kilogram of water-reducing agent, 25 kilograms of water;Water
Mud is ordinary portland cement, and strength grade is that 42.5 flyash grades are I grades;Slag grade is S95 grades;The fineness mould of steel slag
Number is 3.0~3.3, and bulk density is 1020~1080kg/m3;Haydite is lytag, and the partial size of haydite is 5~15mm,
Bulk density is 840~870kg/m3, cylindrical compress strength >=5.0MPa;Water-retaining agent is hydroxypropyl methyl cellulose, and water-reducing agent is poly-
Carboxylic acid high efficiency water reducing agent.
(8) natural curing or steam curing, polishing, smoothing, demoulding, lifting, stacking.
The structure of the wallboard of embodiment production as shown in Figure 1, consistent with the above method, including be successively bonded first
Layer decoration protective layer 1 (being completed by second step), enhancement layer 2, the second layer decorate protective layer 3 (being completed by third step), vacuum insulation
Plate layer 4 and structure sheaf 7;Connector 6 is set in the joint filling 5 of vacuum heat-insulating plate layer.
Embodiment 2
The difference from embodiment 1 is that the formula of mortar used in decoration protective layer is different, the formula of mortar used is:
40 kilograms of cement, 50 kilograms of sand, 8 kilograms of lime, 3 kilograms of gypsum, 12 kilograms of calcium powder, 0.5 kilogram of iron oxide yellow.Its
Its step and the structure of wallboard are the same as embodiment 1.
Embodiment 3
The difference from embodiment 1 is that the formula of haydite armored concrete used in structure sheaf is different, it is:
60 kilograms of cement, 20 kilograms of slag, steel slag 60,60 kilograms of haydite, 0.05 kilogram of water-retaining agent, subtracts 3 kilograms of flyash
0.2 kilogram of aqua, 20 kilograms of water;Cement is ordinary portland cement, strength grade 42.5R;Flyash grade is II grades;Mine
Slag grade is S105 grades;The fineness modulus of steel slag is 3.0~3.3, and bulk density is 1020~1080kg/m3;Haydite is fine coal
Grey haydite, the partial size of haydite are 5~15mm, and bulk density is 840~870kg/m3, cylindrical compress strength >=5.0MPa;Water-retaining agent is
Hydroxypropyl methyl cellulose, water-reducing agent are high-efficiency water-reducing agent of poly-carboxylic acid.
Other steps and the structure of wallboard are the same as embodiment 1.
Embodiment 4
The difference from embodiment 1 is that the thickness of each layer is different, specially:
It is respectively 15mm, 10mm, vacuum heat-insulating plate layer that first layer, which decorates protective layer and the thickness of second layer decoration protective layer,
With a thickness of 20mm, structure sheaf with a thickness of 160mm.
Other steps and the structure of wallboard are the same as embodiment 1.
Density, the compression strength, Re Gongxing used for decorating protective layer mortar in the utility model also testing example 1 and 2
The indexs such as energy, the results are shown in Table 1.
The performance of the decoration protective layer mortar of table 1
The density of haydite concrete (i.e. material used in structure sheaf) used in the utility model also testing example 1 and 3,
The indexs such as compression strength, thermal property, the results are shown in Table 2.
The performance of 2 concrete of table
The utility model is also tested for the bearing and heat insulating ability of the wallboard of embodiment 1 and 4, and the results are shown in Table 3.
The performance of 3 wallboard of table
Embodiment 1 | Embodiment 4 | |
Heat transfer coefficient (W/ (m2·K) | 0.44 | 0.38 |
Finally it should be noted that:The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it
System;Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should
Understand:It is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of
Technical characteristic is equivalently replaced;And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new
The range of each embodiment technical solution of type.
Claims (10)
1. a kind of assembled combined wall board, which is characterized in that successively include the first decoration protective layer, enhancement layer, the second decoration guarantor
Sheath, vacuum heat-insulating plate layer and structure sheaf;
The first decoration protective layer and the second decoration protective layer are screed, and the enhancement layer is high strength fibre grid cloth
Or steel fabric sheet, the structure sheaf are reinforced concrete floor.
2. assembled combined wall board according to claim 1, which is characterized in that the vacuum heat-insulating plate layer is by multiple vacuum
The heat-insulating shield fissure of displacement is spliced.
3. assembled combined wall board according to claim 2, which is characterized in that the fissure of displacement distance of the fissure of displacement splicing exists
150mm or more.
4. assembled combined wall board according to claim 2, which is characterized in that the width in each gap in the fissure of displacement splicing
Degree is in 10mm or less.
5. assembled combined wall board according to claim 2, which is characterized in that set in gap in the vacuum heat-insulating plate layer
There is connector, the first decoration protective layer, the enhancement layer, described second are decorated protective layer and the knot by the connector
Structure layer links together.
6. assembled combined wall board according to claim 2, which is characterized in that the gap between the vacuum heat-insulating plate is filled out
Filled with polyester form item or thermal insulation mortar.
7. assembled combined wall board according to claim 1, which is characterized in that the second decoration protective layer and described true
It is bonded between empty heat-insulating shield layer by boundary mortar, it is viscous by boundary mortar between the vacuum heat-insulating plate layer and the structure sheaf
Knot.
8. assembled combined wall board according to claim 1, which is characterized in that the first decoration protective layer and the second dress
The thickness of decorations protective layer is respectively 12~15mm, 8~10mm, the enhancement layer with a thickness of 0.5~1.5mm.
9. assembled combined wall board according to claim 1 or 8, which is characterized in that the vacuum heat-insulating plate layer with a thickness of
10~20mm.
10. assembled combined wall board according to claim 1 or 8, which is characterized in that the structure sheaf with a thickness of 160
~220mm.
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CN201820248934.0U CN208122037U (en) | 2018-02-11 | 2018-02-11 | A kind of assembled combined wall board |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108149818A (en) * | 2018-02-11 | 2018-06-12 | 三筑工科技有限公司 | A kind of assembled combined wall board and preparation method thereof |
CN110397234A (en) * | 2019-07-26 | 2019-11-01 | 青岛科瑞新型环保材料集团有限公司 | A kind of production method of the concrete assembled prefabricated panel of super low energy consumption and the wallboard |
-
2018
- 2018-02-11 CN CN201820248934.0U patent/CN208122037U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108149818A (en) * | 2018-02-11 | 2018-06-12 | 三筑工科技有限公司 | A kind of assembled combined wall board and preparation method thereof |
CN110397234A (en) * | 2019-07-26 | 2019-11-01 | 青岛科瑞新型环保材料集团有限公司 | A kind of production method of the concrete assembled prefabricated panel of super low energy consumption and the wallboard |
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