CN101280615A - Stone panel wall construction method - Google Patents
Stone panel wall construction method Download PDFInfo
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- CN101280615A CN101280615A CNA2007101939233A CN200710193923A CN101280615A CN 101280615 A CN101280615 A CN 101280615A CN A2007101939233 A CNA2007101939233 A CN A2007101939233A CN 200710193923 A CN200710193923 A CN 200710193923A CN 101280615 A CN101280615 A CN 101280615A
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Abstract
The invention pertains to the technical field of the procession and application of the stone material, improves the prior art and especially relates to a method for constructing the stone material panel wall. The method comprises producing and processing the stone material plate and pasting the stone material plate on the wall surface and is characterized in that the production of stone material plate is to adhere a buffer plate to the back of the slim-type stone material with a thickness of 3-10mm.The method has the advantages that: I. The invention works in an environment friendly manner and is beneficial to the country and the people. II. The procession, the transportation and the adherence to the wall are easy; the recycle can be carried out, thereby reducing the waste of the stone material resource. The invention has reasonable conception, reliable method and is worth popularizing and applying.
Description
Technical field
The present invention belongs to processing of stone operation technique field, is improvements over the prior art, is specifically related to a kind of stone panel wall construction method.
Background technology
Stone material is widely used in fields such as metope, floor, furniture, yet lithotome is constantly exploited excavation through people, and its former stone quantity is rare day by day.The stone material conventional construction method is the plate that cuts into the about 20mm of thickness through processing, is transported on the job site, and is coated with full viscose in the stone material plate back side and is covered on the metope, treats that this clay sclerosis is arranged in regular turn again to paste another stone material plate.
Its weak point of the stone panel wall construction method of above-mentioned tradition is:
1. rupture preventing because of the thickness of general stone material plate must the about 20mm of tool just can have sufficient intensity, but this more thick and heavy stone material will significantly increase natural resources consumption and cost.
2. heavier stone material will increase cost of transportation.
3. do not have a buffer structure because of the stone material plate, thereby carry and still easily cause when careless stone surface that damage even the stone material situation of breaking is arranged.
4. for preventing that stone material from coming off from metope because of deadweight, generally must be establish another stone material plate after sclerosis is fixed on the metope really again and cause construct inconvenience and construction period long by the viscose of a stone material plate and metope.
5. this stone material plate is cemented wastes resource in being difficult to behind the metope pull down reclaim on metope.
For improving aforementioned circumstances, be design at present with thin stone material, for example the novel M287341 number stone material in Taiwan is to be combined with calcium silicate board or magnesia by thin plate piece stone material, novel again M260578 number is to be combined with ceramic layer by the stone material floor, novel again M250974 number is to be combined with ceramic tile by stone material, novel again M248590 number is that stone material combines with clear glass, and announcing again is for No. 503294 to engage steel or net material by stone material, and can have weight reduction, reduce rock material resource waste effect.
Yet be difficult to reclaim disappearance after the stone material plate still has the metope of being mounted on aforementioned respectively the composition, and this stone material back side is to paste the thin sour calcium plate of hard, ceramic tile, glass ... Deng material, do not have a resiliency, cause the stone surface damage because of collision during delivery.
Summary of the invention
A kind of stone panel wall construction method that the objective of the invention is to avoid above-mentioned weak point of the prior art and provide, this job practices have easy processing, easy construction, recyclable stone panel wall characteristics.
Purpose of the present invention can realize by following measure:
The present invention includes the making of stone material plate, the processing of stone material plate and stone material plate are pasted on the metope, it is characterized in that: the making of stone material plate is that the slim stone material back side and buffer plate that thickness 3-10mm is thick is bonding, this buffer plate can be XPS extrusion moulding type polystyrene foaming insulation board (polyst) or EPS expanded polystyrene (EPS), has resiliency, thermal insulation, and affixed thin type stone material and buffer plate form the stone material plate of light weight before dispatching from the factory, delivery stone material plate can repeatedly be put to the job site, and can prevent the stone material breakage by buffer plate shock-absorbing and the setting of stone material plate light weight; The processing of stone material plate can cut or not cut aforementioned stone material plate according to the stone material plate thickness of job site demand, and can only cut buffer plate when cutting, and this stone material plate can place on the platform, but give straight-line displacement contact buffer plate by conductive metal wire, this XPS or EPS buffer plate are heated and are cut rapidly, make the stone material plate thickness of demand; It is the buffer plate of stone material plate to be binded by viscose be fixed on the metope that the stone material plate is pasted on metope, in light weight because of the stone material plate, be generally 1/5 weight of traditional stone material, being easy to the stone material plate that this is lighter is affixed on the metope, and because of being difficult for oppressing the affixed stone material plate in below because of the deadweight of stone material plate, combination back metope outward appearance can have thin type stone surface texture and preferable texture, the recyclable utilization of constructing of slim stone material.
The making of above-mentioned described stone material plate, this buffer plate back side can be XPS extrusion moulding type polystyrene foaming insulation board (polyst) or EPS expanded polystyrene (EPS) by this buffer plate, and this buffer plate tool resiliency, thermal insulation, this buffer plate back side is formed the stone material plate by viscose in conjunction with the hard fish plate again before dispatching from the factory again, and this fish plate can be plank, calcium silicate board, magnesium oxide plate ... Deng, and fish plate can protrude from the buffer plate outside.
The processing of above-mentioned described stone material plate, stone material plate thickness according to the job site demand makes aforementioned stone material plate cut or not cut, and can only cut buffer plate when cutting, and this stone material plate can place on the platform, but and conducted electricity straight-line displacement again contact buffer plate by conductive metal wire, and this XPS or EPS buffer plate can be heated and can be made buffer plate bind again by cutting part thickness rapidly, makes the stone material plate thickness of the demand of can making rapidly.
Above-mentioned described stone material plate is pasted on the metope, the fish plate of stone material plate is solid on the metope by conjugative component, in between adjacent stone material plate, plate is set again to cover conjugative component, and this plate is thin type stone material and buffer plate combination, and can paste by viscose and be fixed between adjacent stone material plate, and can cover conjugative component, make combination back outward appearance can have a globality stone surface outward appearance.
The processing of above-mentioned described stone material plate, this buffer plate is established fish plate in dispatch from the factory back or job site bonding group again, and this fish plate can be plank, calcium silicate board, magnesium oxide plate ... Deng, and the stone material plate thickness of composition demand.
Recycling after the slim stone material construction after the above-mentioned described construction is each the stone material plate seam that conductive metal wire is placed metope, again wire is conducted electricity displacement and buffer plate added thermal cutting, make the thin type stone material take off the disengaging metope rapidly, the thin type stone material contacts this conductive metal wire can be not impaired, thereby can reach the complete thin type stone material recycling of taking off rapidly.
The present invention has following advantage compared to existing technology:
The one, the present invention is the operation of environmental protection mode, benefits the nation and the people; The 2nd, easy processing, easily transportation, easily be pasted on metope, recyclable utilization reduces the rock material resource waste.Reasonable idea of the present invention, method is reliable, is worthy of popularization.
Description of drawings
Fig. 1 is the first job practices flow chart of the present invention.
Fig. 2 is the first job practices stone material plate schematic perspective view of the present invention.
Fig. 3 is that the first job practices stone material plate of the present invention is repeatedly put the loading schematic diagram.
Fig. 4 is that the first job practices buffer plate of the present invention cuts schematic diagram.
Fig. 5 is that the first job practices buffer plate of the present invention cuts schematic diagram.
Fig. 6 is that the first job practices stone material plate of the present invention is fixed in the metope schematic diagram.
Fig. 7 is that the first job practices stone material plate of the present invention takes off recovery action schematic diagram.
Fig. 8 is that the first job practices stone material plate of the present invention takes off the recovery schematic diagram.
Fig. 9 is the second job practices stone material plate schematic perspective view of the present invention.
Figure 10 is that the second job practices buffer plate of the present invention cuts schematic diagram.
Figure 11 is that the second job practices buffer plate of the present invention cuts schematic diagram.
Figure 12 is that the second job practices buffer plate of the present invention binds schematic diagram.
Figure 13 is that the second job practices stone material plate of the present invention is fixed in the metope schematic diagram.
Figure 14 is that the second job practices stone material plate of the present invention takes off the recovery schematic diagram.
Figure 15 is the 3rd a job practices stone material plate schematic diagram of the present invention.
Figure 16 is that the 3rd job practices buffer plate of the present invention cuts schematic diagram.
Figure 17 is that the 3rd job practices buffer plate group of the present invention is established the fish plate schematic diagram.
The specific embodiment
With reference to accompanying drawing 1, the first job practices tool following steps of the present invention: a. stone material plate is made; B. can cut the stone material plate to suitable thickness by conductive heater on demand; C. make the stone material plate be fixed on the metope; Wherein:
With reference to accompanying drawing 2, aforementioned a. stone material plate manufacturing step is to make thin type stone material 1 that (general thickness is below the 10mm, be about 3mm, 4mm) the back side and buffer plate 2 before dispatching from the factory, bind by viscose 3, and this buffer plate 2 can be XPS extrusion moulding type polystyrene foaming insulation board (polyst) or EPS expanded polystyrene (EPS), and these buffer plate 2 tool resiliencies, thermal insulation, and affixed thin type stone material 1 and buffer plate 2 form the stone material plate 10 of light weights before dispatching from the factory.
With reference to accompanying drawing 3, the present invention makes stone material plate 10 repeatedly put, and can prevent 1 breakage of thin type stone material by buffer plate 2 shock-absorbings and the 10 light weight settings of stone material plate.
With reference to accompanying drawing 4-5, it is to make stone material plate 10 cut or not cut (must not cut) when stone material plate 10 thickness meet demand according to stone material plate 10 thickness of job site demand that the aforementioned b. of the present invention can cut stone material plate to suitable thickness step by conductive heater on demand, and can only cut buffer plate 2 when cutting, and this stone material plate 10 can place on the platform 41, but and conducted electricity straight-line displacement again contact buffer plate 2 by conductive metal wire 4, and this XPS or EPS buffer plate 2 can be heated and can be cut rapidly, makes stone material plate 10 thickness of the demand of can making rapidly.
With reference to accompanying drawing 6, it is to make the buffer plate 2 of stone material plate 10 be binded by viscose 3 be fixed on the metope that the aforementioned c. of the present invention makes stone material plate 10 be fixed in step on the metope, and in light weight because of stone material plate 10, generally can be 1/5 weight of traditional stone material, thereby can be easy to the stone material plate 10 that this is lighter and be covered on the metope, and be difficult for oppressing the affixed stone material plate 10 in below, and make combination back metope outward appearance can have thin type stone surface texture with the preferable texture of tool because of 10 deadweights of stone material plate.
With reference to accompanying drawing 7-8, the recovery method that desire of the present invention reclaims thin type stone material 1 can make conductive metal wire 4 place each stone material plate 10 seam of metope, make wire 4 conduction displacements again and buffer plate 2 is added thermal cutting, so can make thin type stone material 1 take off the disengaging metope rapidly, and because of thin type stone material 1 if this conductive metal wire 4 of contact can be not impaired, thereby can reach complete thin type stone material 1 recycling of taking off rapidly.
With reference to accompanying drawing 9, the a. stone material plate manufacturing step of the present invention's second job practices is to make thin type stone material 1 that (general thickness is below the 10mm, be about 3mm, back side 4mm) and buffer plate 2 are binded by viscose 3 before dispatching from the factory, and this buffer plate 2 can be XPS extrusion moulding type polystyrene foaming insulation board (polyst) or EPS expanded polystyrene (EPS), and this buffer plate tool resiliency, thermal insulation, again these buffer plate 2 back sides again before dispatching from the factory by viscose 3 in conjunction with hard fish plate 5, and this fish plate 5 can be plank, calcium silicate board, magnesium oxide plate ... Deng, and fish plate 5 protrudes from buffer plate 2 outsides, and forms stone material plate 11.
With reference to attached 10-12 figure, it is to make stone material plate 11 cut or not cut according to stone material plate 11 thickness of job site demand that the b. of the present invention's second job practices can cut stone material plate to suitable thickness step by conductive heater on demand, and can only cut buffer plate 2 when cutting, and this stone material plate 11 can place on the platform, but and conducted electricity straight-line displacement again contact buffer plate 2 by conductive metal wire 4, and this XPS or EPS buffer plate 2 can be heated can be by cutting part thickness rapidly, make buffer plate 2 bind again, feasible stone material plate 11 thickness that can make demand rapidly.
With reference to accompanying drawing 13, the c. of the present invention's second job practices makes stone material plate 11 be fixed in that step is to make the fish plate 5 of stone material plate 11 be solid on the metope by conjugative component 6 on the metope, in 11 of adjacent stone material plates plate 7 is set again, and this plate 7 is thin type stone material and buffer plate combination, and can paste by viscose 3 and be fixed in 11 of adjacent stone material plates, and can cover conjugative component 6, make combination back outward appearance can have a globality stone surface outward appearance.
With reference to accompanying drawing 14, the recovery method that the present invention's second job practices desire reclaims the thin type stone material is identical with aforementioned first method, can make conductive metal wire 4 place each stone material plate 11 seam of metope, make wire 4 conduction displacements again and buffer plate 2 is added thermal cutting, so can make thin type stone material 1 complete taking off break away from the metope recycling rapidly.
With reference to accompanying drawing 15, the stone material plate manufacturing step of the present invention's the 3rd job practices is identically with aforementioned first method to make thin type stone material 1 that (general thickness is below the 10mm, be about 3mm, 4mm) the back side and buffer plate 2 before dispatching from the factory, bind by viscose 3, and this buffer plate 2 can be XPS extrusion moulding type polystyrene foaming insulation board (polyst) or EPS expanded polystyrene (EPS), and these buffer plate 2 tool resiliencies, thermal insulation, and affixed thin type stone material 1 and buffer plate 2 form the stone material plate 12 of light weights before dispatching from the factory.
With reference to accompanying drawing 16, the present invention's the 3rd job practices can cut the stone material plate to suitable thickness by conductive heater on demand, and to establish the fish plate step in the buffer plate group be to make stone material plate 12 cut or not cut according to the stone material plate thickness of job site demand, and can only cut buffer plate 2 when cutting, and this stone material plate can place on the platform 41, but and conducted electricity straight-line displacement again contact buffer plate 2 by conductive metal wire 4, and this XPS or EPS buffer plate 2 can be heated and can be cut rapidly; And for example with reference to shown in accompanying drawing 17 figure, this buffer plate 2 is established fish plate 5 in dispatch from the factory back or job site bonding group again, and this fish plate 5 can be plank, calcium silicate board, magnesium oxide plate ... Deng, and stone material plate 13 thickness of composition demand.
Certainly, the above is the utility model instantiation only, is not to limit the utility model practical range.So all equivalences of doing according to the described structure of the utility model claim, feature and principle change or modify, and all should be included in the present patent application claim.
Claims (6)
1, a kind of stone panel wall construction method, comprise the making of stone material plate, the processing of stone material plate and stone material plate are pasted on the metope, it is characterized in that: the making of stone material plate is that the slim stone material back side and buffer plate that thickness 3-10mm is thick is bonding, this buffer plate can be XPS extrusion moulding type polystyrene foaming insulation board (polyst) or EPS expanded polystyrene (EPS), has resiliency, thermal insulation, and affixed thin type stone material and buffer plate form the stone material plate of light weight before dispatching from the factory, delivery stone material plate can repeatedly be put to the job site, and can prevent the stone material breakage by buffer plate shock-absorbing and the setting of stone material plate light weight; The processing of stone material plate can cut or not cut aforementioned stone material plate according to the stone material plate thickness of job site demand, and can only cut buffer plate when cutting, and this stone material plate can place on the platform, but give straight-line displacement contact buffer plate by conductive metal wire, this XPS or EPS buffer plate are heated and are cut rapidly, make the stone material plate thickness of demand; It is the buffer plate of stone material plate to be binded by viscose be fixed on the metope that the stone material plate is pasted on metope, in light weight because of the stone material plate, be generally 1/5 weight of traditional stone material, being easy to the stone material plate that this is lighter is affixed on the metope, and because of being difficult for oppressing the affixed stone material plate in below because of the deadweight of stone material plate, combination back metope outward appearance can have thin type stone surface texture and preferable texture, the recyclable utilization of constructing of slim stone material.
2, a kind of stone panel wall construction method according to claim 1, it is characterized in that: the making of described stone material plate, this buffer plate back side can be XPS extrusion moulding type polystyrene foaming insulation board (polyst) or EPS expanded polystyrene (EPS) by this buffer plate, and this buffer plate tool resiliency, thermal insulation, this buffer plate back side is formed the stone material plate by viscose in conjunction with the hard fish plate again before dispatching from the factory again, and this fish plate can be plank, calcium silicate board, magnesium oxide plate ... Deng, and fish plate can protrude from the buffer plate outside.
3, a kind of stone panel wall construction method according to claim 1 and 2, it is characterized in that: the processing of described stone material plate, stone material plate thickness according to the job site demand makes aforementioned stone material plate cut or not cut, and can only cut buffer plate when cutting, and this stone material plate can place on the platform, but and conducted electricity straight-line displacement again contact buffer plate by conductive metal wire, and this XPS or EPS buffer plate can be heated can be by cutting part thickness rapidly, make buffer plate bind again, the feasible stone material plate thickness that can make demand rapidly.
4, according to claim 1 or 3 described a kind of stone panel wall construction methods, it is characterized in that: described stone material plate is pasted on the metope, the fish plate of stone material plate is solid on the metope by conjugative component, in between adjacent stone material plate, plate is set again to cover conjugative component, and this plate is thin type stone material and buffer plate combination, and can paste by viscose and be fixed between adjacent stone material plate, and can cover conjugative component, make combination back outward appearance can have a globality stone surface outward appearance.
5, a kind of stone panel wall construction method according to claim 1, it is characterized in that: the processing of described stone material plate, this buffer plate is established fish plate in dispatch from the factory back or job site bonding group again, and this fish plate can be plank, calcium silicate board, magnesium oxide plate ... Deng, and the stone material plate thickness of composition demand.
6, a kind of stone panel wall construction method according to claim 1, it is characterized in that: the recycling after the slim stone material construction after the described construction is each the stone material plate seam that conductive metal wire is placed metope, again wire is conducted electricity displacement and buffer plate added thermal cutting, make the thin type stone material take off the disengaging metope rapidly, the thin type stone material contacts this conductive metal wire can be not impaired, thereby can reach the complete thin type stone material recycling of taking off rapidly.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNA2007101939233A CN101280615A (en) | 2007-11-22 | 2007-11-22 | Stone panel wall construction method |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNA2007101939233A CN101280615A (en) | 2007-11-22 | 2007-11-22 | Stone panel wall construction method |
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| CN101280615A true CN101280615A (en) | 2008-10-08 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNA2007101939233A Pending CN101280615A (en) | 2007-11-22 | 2007-11-22 | Stone panel wall construction method |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2011127662A1 (en) * | 2010-04-16 | 2011-10-20 | Cai Jhe-An | Stone wall construction method and stone structure |
| CN103982021A (en) * | 2014-05-29 | 2014-08-13 | 中启胶建集团有限公司 | Construction method of reinforced thermal insulating decoration system |
| CN105064644A (en) * | 2015-08-10 | 2015-11-18 | 王黔丰 | Ultrathin stone polyurethane and ceramsite composite plates and machining method thereof |
| CN109763616A (en) * | 2019-03-04 | 2019-05-17 | 南安市贝斯泰石业有限公司 | A kind of compound big plate of the lithotome of impact resistance break-resistance and its manufacture craft |
| CN111719798A (en) * | 2020-06-09 | 2020-09-29 | 北京同舟嘉艺装饰工程有限责任公司 | Process method for seamless processing of curved surface stone and annular building hall |
-
2007
- 2007-11-22 CN CNA2007101939233A patent/CN101280615A/en active Pending
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2011127662A1 (en) * | 2010-04-16 | 2011-10-20 | Cai Jhe-An | Stone wall construction method and stone structure |
| CN103982021A (en) * | 2014-05-29 | 2014-08-13 | 中启胶建集团有限公司 | Construction method of reinforced thermal insulating decoration system |
| CN103982021B (en) * | 2014-05-29 | 2016-04-13 | 中启胶建集团有限公司 | A kind of ribs insulation and decoration system construction engineering method |
| CN105064644A (en) * | 2015-08-10 | 2015-11-18 | 王黔丰 | Ultrathin stone polyurethane and ceramsite composite plates and machining method thereof |
| CN109763616A (en) * | 2019-03-04 | 2019-05-17 | 南安市贝斯泰石业有限公司 | A kind of compound big plate of the lithotome of impact resistance break-resistance and its manufacture craft |
| CN111719798A (en) * | 2020-06-09 | 2020-09-29 | 北京同舟嘉艺装饰工程有限责任公司 | Process method for seamless processing of curved surface stone and annular building hall |
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Open date: 20081008 |