CN101370995B - Method for production of a wall of gypsum panels - Google Patents

Method for production of a wall of gypsum panels Download PDF

Info

Publication number
CN101370995B
CN101370995B CN2007800022511A CN200780002251A CN101370995B CN 101370995 B CN101370995 B CN 101370995B CN 2007800022511 A CN2007800022511 A CN 2007800022511A CN 200780002251 A CN200780002251 A CN 200780002251A CN 101370995 B CN101370995 B CN 101370995B
Authority
CN
China
Prior art keywords
profile strip
gypsum panel
groove
edge zone
chamfered edge
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.)
Expired - Fee Related
Application number
CN2007800022511A
Other languages
Chinese (zh)
Other versions
CN101370995A (en
Inventor
P·彭德斯
H·戈姆
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
TACHE D OR
Original Assignee
TACHE D OR
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority claimed from BE2006/0233A external-priority patent/BE1017104A3/en
Application filed by TACHE D OR filed Critical TACHE D OR
Publication of CN101370995A publication Critical patent/CN101370995A/en
Application granted granted Critical
Publication of CN101370995B publication Critical patent/CN101370995B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F19/00Other details of constructional parts for finishing work on buildings
    • E04F19/02Borders; Finishing strips, e.g. beadings; Light coves
    • E04F19/04Borders; Finishing strips, e.g. beadings; Light coves for use between floor or ceiling and wall, e.g. skirtings
    • E04F19/0436Borders; Finishing strips, e.g. beadings; Light coves for use between floor or ceiling and wall, e.g. skirtings between ceiling and wall
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F19/00Other details of constructional parts for finishing work on buildings
    • E04F19/02Borders; Finishing strips, e.g. beadings; Light coves
    • E04F19/04Borders; Finishing strips, e.g. beadings; Light coves for use between floor or ceiling and wall, e.g. skirtings
    • E04F19/0495Plinths fixed around wall openings or around corners of walls

Landscapes

  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Building Environments (AREA)
  • Panels For Use In Building Construction (AREA)

Abstract

To produce the wall (1), gypsum panels (2) are mounted adjacent to each other on a frame (4). Instead of forming a strip made of flat gypsum panels against the frame on site, use is made of two-dimensionally shaped profile strips (3) which are made of plastic foam. In contrast to conventional finishing strips, these profile strips (3) are mounted not on the gypsum panels (2) but on the frame (4), in particular with one edge adjacent to one edge of the gypsum panels. A first part (9) of the visible side of the profile strip (3) here lies in the extension of the surface formed by the gypsum panel (2) while a second part (10) of the visible side of the profile strip (3) protrudes from this surface. The profile strip (3) is chamfered at the edge adjacent to the gypsum panel (2) to form a chamfered edge zone (8).; With the profile strip in mounted state, this chamfered edge zone forms a groove (11) that is filled with caulking agent (12). The new method allows, on production of a wall with gypsum panels, the integration of a strip in the gypsum panels in a simpler and less time-consuming manner.

Description

Make up the method for gypsum panel wall
Technical field
The present invention relates to make up the method for wall, wherein, gypsum panel (gypsum panel) is installed on the framework each other contiguously, to form the surface of a part that constitutes the wall viewable side.
Term in this application " wall " means perpendicular walls and horizontal ceiling.
Background technology
In the practice, the framework and by means of screw gypsum panel be installed in framework on of many interior walls (comprising ceiling) through making up wooden or laths of metal processed.Framework can be self-supporting framework or the framework that comprises the lath that is attached to existing wall.Especially be latter event for so-called suspended ceilings.
As in a lot of patents for example described in US-A-3984269, US-A-5079042 and the DE-U-1828221, gypsum panel has the chamfer zone, makes groove be formed on the bonding station between the two adjacent gypsum panels.Groove is filled caulking agent subsequently, so that between gypsum panel, realize seamless transitions.In order to prevent to form the crack as far as possible, reinforcing network is applied on the groove.
From practice and patent publication, know, improve the angle between perpendicular walls and the ceiling through ornamental strip such as US-A-3616587, US-A-5398469, US2003/00939970 and FR-B-1588075.If wall and ceiling are processed by gypsum panel, these ornamental strips therefore usually by means of such as the adhesive attachment of silicone to the gypsum panel of previous setting.Decoration also is known, comprises the light emitting source on the wall that also can be attached to previous setting, to produce indirect irradiation.
A shortcoming of this ornamental strip and decoration is, the later stage that they can only be used to make up especially finishes so that the architect does not have the further stage of influence to the further decoration of wall participating in of architect.Particularly, this ornamental strip is usually installed by interior decorator.
The further shortcoming that subsequently ornamental strip is adhered on the wall is, these ornamental strips have and the rectangular edge of wall surface, and this has hindered ornamental strip and wall surface and has formed and seamlessly transit.But the architect wants this seamless transitions, in the practice is ornamental strip is placed near the framework of wall knownly.Here at first, framework must be installed according to required profile, and moist gypsum panel spare forms and is attached on the framework.Then, gypsum plaster is coated on these parts, so that viewable side is even as far as possible.
A shortcoming of this method is that its is too complicated, and it must be undertaken and spent the plenty of time by the professional.The result also depends on the people who carries out this work, and because more complicated form possibly realize result fully uniformly hardly.Another shortcoming is that even by moist, gypsum panel also can only be bent to limited extent, makes do not make different gypsum panels get rid of acute angle under the situation near placement each other.For fear of the crack, the joint of formation must be at its outer side covers ornamental strip, and these ornamental strips must be smeared gypsum plaster.Here available ornamental strip for example is described among US2005/0028483, US2004/0093816 and the US-A-4719732.
Summary of the invention
The purpose of this invention is to provide a kind of new method, it allows when making up the gypsum panel wall, with simpler and not time-consuming mode profile strip to be integrated in the gypsum panel wall.
This purpose is to realize through the method that structure according to the present invention has the wall of viewable side, and wherein, a plurality of gypsum panels are installed on the framework each other contiguously; Surface with the part of the viewable side that form to constitute wall the method is characterized in that, in order to make up wall; Except gypsum panel; At least one profile strip of being processed by foamed plastics is used for viewable side, and with the other part of the viewable side that forms wall, and the shape of profile strip is bidimensional at least.Profile strip is installed on the framework; Make at least one at least one edge next-door neighbour's gypsum panel; Make the first of viewable side of profile strip be formed on substantially on the extension on the surface that is formed by gypsum panel, the second portion of the viewable side of profile strip is outstanding from said surface.Profile strip is cut sth. askew at the edge of next-door neighbour's gypsum panel to form in the said first of viewable side and the chamfered edge zone between the said edge; Said chamfered edge zone is positioned at said surface afterwards to form groove when said profile strip is in installment state; After said profile strip was installed, said groove was filled caulking agent.The said edge of said profile strip is the first long edge of said profile strip; Said profile strip has the second long edge; Form the first wall part through said gypsum panel; Form the second wall part through other gypsum panel, said second wall portion is divided formation to be positioned at by first wall portion and is divided other surface afterwards, the surface that forms, and said profile strip is installed on the said framework through said second long edge at least one said other gypsum panel of next-door neighbour.
Owing to use preformed profile strip, needn't in the process of location gypsum panel and profile strip, carry out required shaping here.For example simply through screw, profile strip also can the identical mode of gypsum panel be installed on the framework.Therefore profile strip can be mounted with the same simple mode in location and the identical time of gypsum panel.Because profile strip is processed by foamed plastics, thereby they have light relatively weight, especially for the weight of gypsum panel, the location of profile strip also is simplified.
The seam between profile strip and the gypsum panel or the decoration of joint can and gypsum panel between the same simple mode of decoration of joint or seam carry out.Be similar to the chamfered edge zone of gypsum panel, the chamfered edge zone of profile strip also forms the groove that can fill caulking agent.Because the first of the viewable side of profile strip is positioned on the surface of next-door neighbour's gypsum panel, caulking agent can be used as coating and is applied simply, to realize the seamless transitions between gypsum panel and the profile strip.After the caulking agent sclerosis, it can be subsequently by polishing simply.Preferably, the groove between profile strip and the next-door neighbour's gypsum panel is not only formed by the chamfered edge zone of profile strip, but also is formed by the chamfered edge zone of next-door neighbour's gypsum panel, makes reinforcing network to be applied on the groove.Like this, can avoid the formation in crack.
It should be noted that although be preferred, it is not indispensable that profile strip has initially had chamfered edge zone.Also can before profile strip is installed, carry out this cutting sth. askew, for example pass through the fringe region of polishing profile strip.Usually do like this, preferably when the profile strip section of being cut into for cut end also like this, thereby cutting sth. askew on cut end is removed.
In preferred embodiment according to the inventive method; Profile strip has two cut end; Profile strip has other chamfered edge zone at each cut end place of two cut end, and at least two profile strip are installed in the cut end adjacency that makes them on the framework, makes to form other groove in abutting connection with the other chamfered edge zone of cut end; After these profile strip were installed, said other groove was filled other caulking agent.
In further preferred embodiment according to the inventive method, at least a portion of the viewable side of profile strip and preferably almost the whole viewable side of profile strip form by overburden.Overburden (15) preferably includes at least a material that is selected from the group that comprises paper, cardboard, all-glass paper, glass fiber felt (glass fleece) and fiberglass packing (glass matting); Wherein, overburden preferably includes paper, cardboard and/or all-glass paper.
Through selecting overburden, texture or the gloss difference between the surface that can prevent profile strip and the surface of gypsum panel or it is minimized is even after complete wall is painted.Also preferably, gypsum panel has by the overburden of processing with the overburden same material of profile strip.The most frequently used gypsum panel i.e. (gypsum plasterboard) plaster board has had overburden in practice.
Description of drawings
Further advantage of the present invention and characteristic will be through the inventive method the following description of some preferred embodiments show.These descriptions only are exemplary, are not limited to scope of the present invention, because this scope is confirmed by claim.The reference number that provides in below describing relates to following accompanying drawing, wherein:
Fig. 1 has shown profile strip with stereogram, and it is designed for method of the present invention;
Fig. 2 and 3 has shown respectively along the cross-sectional view of the line II-II of Fig. 1 with along the longitudinal section of the line III-III of Fig. 1;
Fig. 4 has shown the part that indicates IV among Fig. 2 with vast scale more;
Fig. 5 has shown the profile strip of demonstration among the figure formerly that realizes through the inventive method and the joint between the adjacent gypsum plaster board; And
Fig. 6 to 10 has shown with cross-sectional view the different embodiment of profile strip is installed on the framework gypsum panel according to the method for the invention.
The specific embodiment
The present invention relates to from gypsum panel 2, more specifically is the method for the structure wall 1 of gypsum plaster board and 3 beginnings of one or more profile strip.Usually, at first form the framework 4 that gypsum panel 2 and profile strip 3 can be mounted thereto.Framework 4 more specifically is to be processed by wooden or laths of metal (solid lath or profile lath) usually by lath.Framework usually is a hollow frame 4, comprises the framework of hollow profile slats.Framework can sealed open or is attached on the existing wall.After framework 4 location, gypsum panel 2 is mounted thereto with profile strip 3.This carries out through screw 5 usually.
Gypsum panel 2 by smooth, normally the plate of rectangle forms, they have chamfered edge zone 6 along their four edges.Gypsum panel 2 is installed on the framework 4 each other contiguously, with the surface of the part of the viewable side that form to constitute wall 1.Another part of the viewable side of wall 1 is formed by the viewable side of profile strip 3.These profile strip 3 are formed by foamed plastics, make that their relatively light and ratios such as gypsum decorative bar are not fragile or break.
Profile strip is pre-formed and has a viewable side that shape is bidimensional at least.The viewable side that this means them is not straight at cross section, but has concrete profile.If this profile is constant (not comprising any beveled end) on the length of profile strip, the profile strip shape is a bidimensional.But less important embossment can be formed on the profile strip, thereby the profile of profile strip is not constant on the length of profile strip.Therefore the profile strip of two-dimensional shape can be processed through extrusion process.For the profile strip of 3D shape, relevant embossment must be applied on the extrude bar subsequently, and perhaps profile strip must be processed in mould.
Profile strip 3 as shown in Figure 4 is mounted to a gypsum panel 2 that makes at least one edge 7 next-door neighbour's framework 4.Statement " next-door neighbour " needn't mean the edge and the gypsum panel actual contact of profile strip.Can leave the gap, the gap can be filled caulking agent or even filling auxiliary tool subsequently.Profile strip 3 normally has the length bigger than their width longitudinally and therefore.The edge 7 that is close to gypsum panel 2 in this case is longitudinal edges of profile strip 3.
The order that profile strip and gypsum panel are installed is uncorrelated.This means that profile strip 3 can be installed on the framework 4 before or after the gypsum panel 2.But importantly, profile strip 3 is cut sth. askew to form chamfered edge zone 8 at the edge 7 of next-door neighbour's gypsum panel 2.Profile strip 3 is installed on the framework 4, makes the first 9 of viewable side of profile strip 3 in fact be arranged in the extension on surface in the place ahead of next-door neighbour's gypsum panel 2, the second portion 10 of viewable side from this surface (forward or backward) outstanding.The chamfered edge zone 8 of profile strip 3 is therefore between the first 9 of the edge 7 of profile strip 3 next-door neighbour's gypsum panels 2 and its viewable side; And after installment state is positioned at the surface that the place ahead by gypsum panel 2 forms, make to form groove 11 in the position of chamfered edge zone 6.
Gypsum panel 2 is preferably with the chamfered edge zone 8 of chamfered edge zone 6 against profile strip 3.Like this, the groove 11 of the joint location between gypsum panel 2 and profile strip 3 is not only formed by the chamfered edge zone 8 of profile strip 3, but also is formed by the chamfered edge zone 6 of gypsum panel 2.For profile strip is easy to be installed on the framework so that the first 9 of its viewable side is arranged in the extension on surface of next-door neighbour's gypsum panel; Profile strip 3 preferably has thickness D much at one with gypsum panel 2 along chamfered edge zone; D ' specifically is a standard thickness 6.5,9.5; 12.5,15 with 18mm in one.
The groove 11 that is formed by chamfered edge zone 6 and 8 is used to fill caulking agent 12.Because the first 9 of the viewable side of profile strip is arranged in the extension on surface in the place ahead of next-door neighbour's gypsum panel 2, caulking agent 12 can easily be applied in through applying, and after sclerosis polishing with the almost seamless transition of realization.The first 9 of the viewable side of profile strip preferably has the width of 2cm at least, 4cm and be 6cm ideally at least more preferably.Plaster (finishing plaster) can be used as caulking agent 12, preferably has fine grain plaster, and it can easily be polished into perfectly level and smooth.
If the chamfered edge zone 6 of gypsum panel 2 is cut off to adapt to plaster board, chamfered edge zone 6 is formed on the plaster board 2 once more, for example through the sharpened edge zone.In order to prevent crack in the groove 11 that forms by zone, two edges 6 and 8, preferably before groove 11 is by complete filling caulking agent 12, apply reinforcing network 13.In order to simplify the location of reinforcing network 13, it preferably is bonded in the groove 11.And; The chamfered edge zone 8 of profile strip 3 preferably has greater than 20mm, more preferably greater than the width B of 30mm; For example the width (this is the normal width B ' of the chamfered edge zone 6 of gypsum plaster board) of about 50mm makes that wide relatively reinforcing network 13 can be applied in the groove.Because chamfered edge zone 6 and 8 is coated with caulking agent 12, preferably a plurality of at least screws 5 of assembling are used for fixing gypsum panel 2 and profile strip 3.
Profile strip 3 as shown in Figure 1 is designed to longitudinal edge 7 next-door neighbour's gypsum panels 2.Therefore profile strip 3 has two cut end, and they are used in abutting connection with the cut end of same profile strip.Preferably carry out at the decoration of the seam between the cut end of profile strip 3 with the same way as of the decoration of the seam between profile strip 3 and the gypsum panel 2.For this reason, profile strip 3 has other chamfered edge zone 14 in two cut end, when two profile strip 3 be installed in the cut end that makes them on the framework in abutting connection with the time, other chamfered edge zone 14 forms the other groove that can fill other caulking agent.Caulking agent is usually identical with the caulking agent that is used to fill the groove 11 between profile strip 3 and the gypsum panel 2, so plaster preferably, especially has fine grain plaster.Preferably for example level and smooth after sclerosis through plaster is polished, realize almost seamless transition.
For fear of the crack, in the groove between next-door neighbour's profile strip, also apply and especially be stained with reinforcing network, groove can be filled caulking agent then.Chamfered edge zone 14 on cut end also preferably has greater than 20mm, more preferably greater than the width of 30mm, for example the about width of 50mm.
Profile strip 3 is processed by foamed plastics, especially rigid foam.Except foamed plastics, profile strip 3 can comprise multiple other material.The chamfered edge zone 8 of their next-door neighbour's gypsum panels can be for example by processing with the gypsum panel identical materials.Fastening element can be applied in the foam, especially in the chamfered edge zone 8 that profile strip 3 is fixed through screw.The volume of profile strip 3 preferably most of (surpassing 50% volume) comprises foamed plastics.In order to obtain light profile strip, foamed plastics has preferably less than 330kg/m 3, more preferably less than 270kg/m 3, most preferably less than 210kg/m 3, or even less than 180kg/m 3Averag density.The averag density of foamed plastics is usually greater than 20kg/m 3, and be preferably more than 40kg/m 3
Specially suitable foamed plastics is a polyurethane foam.Polyurethane foam means the foam with amino-formate bond.It also can have other key such as the urea key.Polyurethane foam is especially heat cured and easily obtain through in the process that adopts blowing agent to solidify, polyurethane reactive mixture being spumed.Polyurethane reactive mixture generally includes polyol and isocyanate component.Blowing agent can be a physical blowing agent, but generally includes the CBA such as water.
Even in order to obtain under low foam density, to have the profile strip of great surface quality, preferably at least a portion of the viewable side of profile strip more preferably is that almost whole viewable side is formed by coating 15.Profile strip shown in the figure not only has coating 15 in viewable side but also at dorsal part.Coating 15 is for example processed by paper, cardboard or all-glass paper, but also can for example be glass fiber felt or fiberglass packing.Coating by processing with the coating identical materials of gypsum panel, for example also is to be processed by paper, cardboard or all-glass paper preferably.Like this, after applying wall, structure between gypsum panel and profile strip or gloss difference can be minimized or even complete obiteration.
In order to make profile strip, overburden can be laid in the mould and inhale and lean against on the mold wall.Polyurethane reactive mixture is applied on the overburden then, and after this mould is closed, and reactant mixture can spume in mould.If be suitable for, polyurethane reactive mixture can be injected closed mould after mould closes.
Profile strip 3 can be used for multiple different purposes.First kind of purposes is presented among Fig. 6.In this purposes, light-emitting component 16 is installed in the space that is usually located at the profile strip back.Light-emitting component 16 is not mounted in profile strip and originally is mounted on one's body on the framework 4, specifically is mounted on the support member 17 of support portion 18 of support profiles bar 3 of framework 4.Profile strip 3 shown in Figure 6 only supports near framework 4 through the support portion 19 that (and be positioned partially at chamfered edge zone 8 after) is set along longitudinal edge 17.As stated, longitudinal edge 17 next-door neighbour's gypsum panels 2 of profile strip 3.The opposite longitudinal edge 20 of profile strip 3 is free edges of when profile strip 3 is in installment state, freely giving prominence to.Like this, between free edge 20 and framework 4, form opening, come the light of self-emission device 16 to pass through this opening, thereby form indirect illumination.
Different being embodiment illustrated in fig. 7 with embodiment illustrated in fig. 6, gypsum panel 2 not only form the first wall part that is positioned at profile strip 3 belows, are positioned at profile strip 3 tops and the second wall part on the extension of first wall part but also form.The longitudinal edge 20 of profile strip forms the enclosure space that is positioned at profile strip 3 rears now in abutting connection with the second wall part.This hollow space 21 can be used for holding pipe fitting or cable.
Embodiment illustrated in fig. 8 almost with embodiment illustrated in fig. 7 identical, except between profile strip 3 and top wall part, having seamless transitions, if transition is visible, this is very important.For this reason, profile strip 3 also has the chamfered edge zone 22 along the second long edge 20.Profile strip 3 is through gypsum panel 2 adjacency of this chamfered edge zone and top wall part.Like this, can fill caulking agent (+reinforcing network) to form second groove, 23, the second grooves with the groove 11 identical modes of profile strip 3 belows.
Fig. 9 has shown profile strip 3 has been applied to ceiling that at this, profile strip (being similar to the profile strip among Fig. 8) all has chamfered edge zone at two long edges.In the embodiment of Fig. 9, second wall part (ceiling portion in the case) has formed the surface after the surface that is positioned at first wall part.Profile strip shown in Figure 9 is particularly suitable for forming the ceiling portion of reduction.
Figure 10 has shown another purposes at last, has wherein used the profile strip that all has chamfered edge zone along two long edges.In this case, profile strip is used to form the angle between first perpendicular walls part (wall) and second horizontal wall part (ceiling).Because profile strip all has chamfered edge zone along two long edges, in this purposes, can form seamless transitions for wall gypsum panel and ceiling gypsum panel.
Can know from above description and to find out that the present invention never is limited to the embodiment that said example and accompanying drawing show.Said embodiment can for example implement with size with multi-form, and does not depart from the scope of the present invention.

Claims (22)

1. a structure has the method for the wall (1) of viewable side, and wherein, a plurality of gypsum panels (2) are installed on the framework (4) each other contiguously; Surface with the part of the viewable side that form to constitute wall (1) is characterized in that at least one profile strip (3) of being processed by foamed plastics is used for viewable side; With the other part of the viewable side that forms wall (1), the shape of profile strip is bidimensional at least, and said profile strip (3) is installed on the said framework (4); Make at least one edge (7) be close at least one in the said gypsum panel (2); Make the first (9) of viewable side of said profile strip (3) be positioned at substantially on the extension on said surface, the second portion of viewable side (10) is outstanding from said surface, wherein; In said edge (7); Said profile strip (3) is cut sth. askew is positioned at said first (9) and the chamfered edge zone (8) between said edge (7) of the viewable side of said profile strip (3) with formation, in said profile strip (3) when being in installment state, said chamfered edge zone (8) is positioned at after the said surface with formation groove (11); After said profile strip (3) is installed; Said groove (11) is filled caulking agent (12), and the said edge (7) of said profile strip (3) is the first long edge of said profile strip (3), and said profile strip (3) has the second long edge (20); Form the first wall part through said gypsum panel (2); Form the second wall part through other gypsum panel (2), said second wall portion is divided formation to be positioned at by first wall portion and is divided other surface afterwards, the surface that forms, and said profile strip (3) is close at least one said other gypsum panel (2) through the said second long edge (20) and is installed on the said framework (4).
2. the method for claim 1 is characterized in that, said profile strip (3) is fixed on the said framework (4) through screw (5).
3. the method for claim 1 is characterized in that, said framework (4) is that said gypsum panel (2) and said profile strip (3) are mounted hollow frame above that.
4. the method for claim 1; It is characterized in that; Said gypsum panel (2) by said profile strip (3) adjacency has at least one chamfered edge zone (6), and when being in installment state, said chamfered edge zone (6) is close to the said chamfered edge zone (8) of said profile strip (3) in said profile strip (3); Make said groove (11) by two chamfered edge zone (6; 8) form, reinforcing network (13) is applied in the said groove (11), and after this said groove (11) is filled caulking agent (12).
5. the method for claim 1 is characterized in that, the said chamfered edge zone (8) of said profile strip (3) has the width (B) greater than 20mm.
6. the method for claim 1 is characterized in that, through said caulking agent (12), between said profile strip (3) and next-door neighbour's said gypsum panel (2), forms almost seamless transition.
7. method as claimed in claim 6 is characterized in that, said caulking agent (12) comprises plaster.
8. the method for claim 1; It is characterized in that said profile strip (3) has two cut end, is other chamfered edge zone (14) at each cut end place of said two cut end; At least two profile strip (3) are installed in the cut end adjacency that makes them on the said framework (4); Make to form other groove in abutting connection with the other chamfered edge zone (14) of cut end, after these profile strip (3) were installed, said other groove was filled other caulking agent.
9. method as claimed in claim 8 is characterized in that, reinforcing network is applied in the said other groove, and after this said other groove is filled other caulking agent.
10. method as claimed in claim 8 is characterized in that, the said other chamfered edge zone (14) of said profile strip (3) has the width greater than 20mm.
11. method as claimed in claim 8 is characterized in that, through said other caulking agent, between two profile strip (3), forms almost seamless transition.
12. method as claimed in claim 11 is characterized in that, said other caulking agent comprises plaster.
13. the method for claim 1 is characterized in that, at least a portion of the viewable side of said profile strip (3) is formed by overburden (15).
14. method as claimed in claim 13 is characterized in that, the whole viewable side of almost said profile strip (3) is formed by overburden (15).
15. method as claimed in claim 13 is characterized in that, said overburden (15) comprises at least a material that is selected from the group that comprises paper, cardboard, glass fiber felt and fiberglass packing.
16. method as claimed in claim 15 is characterized in that, said overburden (15) comprises paper and/or cardboard.
17. method as claimed in claim 13 is characterized in that, said overburden (15) comprises all-glass paper.
18. method as claimed in claim 13 is characterized in that, will be installed in gypsum panel (2) on the said framework (4) and be equipped with by the overburden of processing with said overburden (15) same material of said profile strip (3).
19. the method for claim 1; It is characterized in that; Said profile strip (3) has second chamfered edge zone (22) along the said second long edge (20), thereby when being in installment state, forms second groove (23) in the position of said second chamfered edge zone (22) in said profile strip (3); After profile strip was installed, said second groove (23) was filled caulking agent (12).
20. the method for claim 1 is characterized in that, said profile strip (3) is processed by polyurethane foam.
21. the method for claim 1 is characterized in that, the foamed plastics of processing said profile strip (3) has less than 330kg/m 3Averag density.
22. the method for claim 1 is characterized in that, said profile strip (3) has thickness (D) in the position of said first (9), and said thickness (D) is approximately equal to the thickness (D ') of gypsum panel (2).
CN2007800022511A 2006-01-12 2007-01-11 Method for production of a wall of gypsum panels Expired - Fee Related CN101370995B (en)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
BE2006/0027 2006-01-12
BE200600027 2006-01-12
BE2006/0233A BE1017104A3 (en) 2006-01-12 2006-04-20 IMPROVED FINISHING LIST.
BE2006/0233 2006-04-20
PCT/BE2007/000005 WO2007079555A1 (en) 2006-01-12 2007-01-11 Method for production of a wall of gypsum panels

Publications (2)

Publication Number Publication Date
CN101370995A CN101370995A (en) 2009-02-18
CN101370995B true CN101370995B (en) 2012-01-04

Family

ID=36928736

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2007800022511A Expired - Fee Related CN101370995B (en) 2006-01-12 2007-01-11 Method for production of a wall of gypsum panels

Country Status (1)

Country Link
CN (1) CN101370995B (en)

Also Published As

Publication number Publication date
CN101370995A (en) 2009-02-18

Similar Documents

Publication Publication Date Title
US6777063B2 (en) Composite backerboard for bullnose support
US6338229B1 (en) Wall strip with raised bead for plaster screeding comprising two nailing strips connected by a riser strip configuration
USRE39091E1 (en) Concrete panel construction
CZ20031694A3 (en) Board for use in interior construction and dry construction, and method for producing new walls of a room or for paneling already existing spaces
US4647000A (en) Flexible mold for forming simulated tile or brick surfaces
KR100959272B1 (en) Prefabricated composite panel for construction and method for constructing the same
US20060003144A1 (en) Modular, raised panels and methods of manufacturing the same
CN101649672A (en) Hard surface-veneer engineered surfacing tiles and methods
JP2004517234A5 (en)
CN100376755C (en) Dry hanging external and internal wall surface decoration structure of fibrous porcelain plate back lining and it's construction method
CN101370995B (en) Method for production of a wall of gypsum panels
US20100154349A1 (en) Method for Production of a Wall of Gypsum Panels
CN110714532A (en) Assembly structure and installation method of wallboard and steel beam
US20060260230A1 (en) Architectural detailing assembly method and apparatus
KR101768683B1 (en) Suspension device for exterior materials in building and construction method using that
CN1539048A (en) Drywall corner finishing device
KR101963555B1 (en) External Wall Decorative Material of Building and Manufacturing Method Thereof
JP4352051B2 (en) Architectural decorative building materials
AU750528B2 (en) Decorative coving infill and system for mounting same
KR20070014429A (en) E.p.s moldings and its forming method for finishings of archtectural structure
KR20060107480A (en) Construction method of wall
GB2240561A (en) Ornamental or decorative coving member
KR102190967B1 (en) External molding structure and manufacture method
CN211776834U (en) Be used for bathroom window board and curtain binding off node structure
JPH11181950A (en) Alc decorative panel

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20120104

Termination date: 20140111