CN109208805A - A kind of gypsum suspended ceiling module, gypsum furred ceiling and building containing it - Google Patents

Abstract

The invention discloses a kind of gypsum suspended ceiling module and contain its gypsum furred ceiling and building, including cross bar submodule (1), 7 font L-square submodules (2) and bar shaped adjustment plate submodule (3)；The dislocation lap joint side of 7 font L-square submodule (2) end is for the dislocation lap joint edge lap with adjacent cross bar submodule (1) end, it can mutually be overlapped by end dislocation lap joint side between the cross bar submodule (1), the bar shaped adjustment plate submodule (3) is used to lean on wall side dislocation lap joint edge lap with 7 font L-square submodules (2) and/or cross bar submodule (1), and a side of the bar shaped adjustment plate submodule (3) is bonded with metope；Gypsum suspended ceiling module of the invention may also include external corner submodule (4) and inner corner trim submodule (5)；Gypsum suspended ceiling module of the invention is applicable to not upright room, has the advantages that not crack, short time limit, pollution is small, facilitates carrying, is suitable for large-scale promotion application.

Description

A kind of gypsum suspended ceiling module, gypsum furred ceiling and building containing it

Technical field

The present invention relates to construction and decoration field, more particularly to a kind of gypsum suspended ceiling module, containing its gypsum furred ceiling and Building.

Background technique

Existing building furred ceiling finishing, generally uses gypsum furred ceiling mode, including following construction procedure: 1, bulk Paper-faced gyp Plate is transported to construction site；2, keel structure is set up；3, scene cuts Thistle board；4, various sizes of plasterboard docks simultaneously It is fixed on keel structure with thread tapping.5, plasterboard gap quickstick powder joint filling, then viscous bandage.6, criticize scrape, putty of polishing.7, Stenciling coating.Above-mentioned furred ceiling mode has following defects that

1, cracking is inevitable: plasterboard is directly docked with plasterboard end, and such mode is easy to appear cracking phenomena, i.e., The problem of making joint filling and bandage after docking, cracking can not be fully solved.

2, for not upright room, furred ceiling is difficult.

3, it is inconvenient to carry: since bulk plasterboard minimum dimension is 1.2*2.4m, getting on or off the bus and to pass in and out stair very inconvenient.

4, a large amount of building wastes are generated, energy consumption is high.Scene cuts remaining gypsum leftover pieces, also considers that transportation cost is former The remaining a small amount of plasterboard and putty thus abandoned, is all building waste Producing reason.

5, construction effect not can guarantee: in the gypsum ceiling construction for having yin-yang angle, whether yin-yang angle reaches horizontal, angle Whether 90 degree, fully rely on the technology and attitude of worker.

It can be seen that above-mentioned existing gypsum furred ceiling is in structure and use, it is clear that there are still there is inconvenient and defect, and urgently Wait be further improved.How to found it is a kind of new be applicable to not upright room, do not crack, short time limit, pollution are small, side Just the gypsum furred ceiling carried becomes current industry and needs improved target.

Summary of the invention

The invention solves first technical problem be to provide one kind and be applicable to not upright room, do not crack, the duration Short, pollution gypsum suspended ceiling module that is small, facilitating carrying.

In order to solve the above technical problems, the present invention adopts the following technical scheme:

A kind of gypsum suspended ceiling module, including cross bar submodule, 7 font L-square submodules and bar shaped adjustment plate submodule Block；The cross bar submodule is made of two rectangular slabs to misplace, and both ends of cross bar submodule and by wall side point It is not formed with dislocation lap joint side；The 7 font L-square submodule is made of two L-squares to misplace, and 7 font L-squares The both ends of submodule and dislocation lap joint side is respectively formed with by wall side；The dislocation of 7 font L-square submodule end is taken Edge fit is used for and 7 for the dislocation lap joint edge lap with adjacent cross bar submodule end, the bar shaped adjustment plate submodule Font L-square submodule and/or cross bar submodule lean on wall side dislocation lap joint edge lap；It can between the cross bar submodule It is mutually overlapped by end dislocation lap joint side.

As the present invention further improve, the cross bar submodule stacked by upper rectangular slab, lower rectangular slab and Oblique dislocation connection composition, the non-region that stacks are respectively formed the first dislocation lap joint of upper plate in, the second dislocation lap joint of upper plate, lower plate First dislocation lap joint is in, the second dislocation lap joint of lower plate；

The 7 font L-square submodule is stacked by upper L-square and lower L-square and the connection group that diagonally misplaces At the non-region that stacks is respectively formed upper first dislocation lap joint of L-square in, two upper the second dislocation lap joints of L-square, one A the first dislocation lap joint of lower L-square side, two lower the second dislocation lap joint of L-square sides；

Lower plate the first dislocation lap joint side is used to misplace with the upper L-square first of 7 adjacent font L-square submodules Overlap edge lap；And/or for upper plate the first dislocation lap joint edge lap with adjacent cross bar submodule；The upper plate first Dislocation lap joint side is for lower L-square the first dislocation lap joint edge lap with 7 adjacent font L-square submodules；The bar shaped Adjustment plate submodule is used for upper L-square the second dislocation lap joint side and/or cross bar submodule with 7 font L-square submodules Upper plate the second dislocation lap joint edge lap.

It further, further include external corner submodule and inner corner trim submodule；The external corner submodule is by the inside and outside external corner that misplaces Board group is at and external corner submodule is respectively formed with dislocation lap joint side along two right-angle side extending directions；The inner corner trim submodule is by mistake The inside and outside inner corner trim board group of position is at and inner corner trim submodule is respectively formed with dislocation lap joint side along two right-angle side extending directions；The sun Silver coin module is used for and inner corner trim submodule and/or cross bar submodule dislocation lap joint；The inner corner trim submodule is used for and external corner Module and/or cross bar submodule dislocation lap joint.

Further, the external corner submodule stacks dislocation connection by outer external corner plate and interior external corner plate and forms, non-to stack area Domain is respectively formed outer the first dislocation lap joint of external corner plate in, interior the first dislocation lap joint of external corner plate；The inner corner trim submodule is by vulva Gusset and interior inner corner trim plate stack connection composition, and the non-region that stacks is respectively formed two the first dislocation lap joint of vulva gusset sides.

Further, thin and thick is different in the width direction for the bar shaped adjustment plate submodule, thin by wall side, and the bar shaped tune The width of whole plate submodule is identical as by the dislocation lap joint hem width degree of wall side.

Further, each side of each submodule is that angular rim or each side are provided with lead angle.

Further, each submodule is an integral molding structure, and the length of each submodule is 0.7-1.5m, described The width on each dislocation lap joint side is 0.04-0.07m.

The invention solves second technical problem be to provide one kind and be applicable to not upright room, do not crack, the duration Short, pollution gypsum furred ceiling that is small, facilitating carrying.

In order to solve the above technical problems, the present invention adopts the following technical scheme:

A kind of gypsum furred ceiling, including above-mentioned gypsum suspended ceiling module, each submodule in the gypsum suspended ceiling module is It is multiple；The 7 font L-square submodule is located at ceiling corner to furred ceiling room, two 7 font L-square submodules it Between be provided with one or more cross bar submodules, mutual overlap joint along its length；The bar shaped adjustment plate submodule and 7 Font L-square submodule and/or cross bar submodule lean on wall side dislocation lap joint edge lap, and adjustment plate submodule position In the downside of 7 font L-square submodules and cross bar submodule；A side and metope of the bar shaped adjustment plate submodule are pasted It closes, filler material is filled at the lap gap of each submodule.

Further, including ceiling joist, it is fixed at dislocation lap joint side by self-tapping screw between each submodule In on the keel structure.

The invention solves third technical problem be to provide a kind of building with gypsum furred ceiling, make its gypsum furred ceiling With being applicable to not upright room, do not crack, short time limit, the performance small, that facilitate carrying of pollution.

In order to solve the above technical problems, the present invention adopts the following technical scheme:

A kind of building, including room, the room are provided with above-mentioned gypsum furred ceiling.

By using above-mentioned technical proposal, the present invention has at least the following advantages:

(1) modularization, fabricated gypsum suspended ceiling module, convenient in carrying are used, and is cut without scene, energy conservation, pollution It is few, meanwhile, it can shorten the construction period.

(2) modularization, fabricated gypsum suspended ceiling module submodule between use dislocation lap joint connection type, will not There is cracking phenomena, while cooperating bar shaped adjustment plate submodule, is suitable for not upright room, it is applied widely；In addition, bar shaped Adjustment plate submodule and 7 font L-square submodules and cross bar submodule lean on wall side dislocation lap joint edge lap, can not only fit Not upright room is answered, 7 font L-square submodules and cross bar submodule can be also connected as one, be further strengthened The fastness of connection.

(3) modular prefabricated external corner submodule, inner corner trim submodule, when furred ceiling needs to do yin-yang angle, yin-yang angle are used Whether reach horizontal, angle whether 90 degree, without the technology and attitude of dependence worker, further shorten the duration.

(4) each side of each submodule is that angular rim or each side are provided with lead angle, facilitates taking for each submodule The filling of filler material at seam gap greatly improves working efficiency and connectivity robustness.

Detailed description of the invention

Fig. 1 is the cross bar submodule present invention looks up structural representation in the embodiment of the present invention；

Fig. 2 is 7 font L-square submodule present invention looks up structural representation in the embodiment of the present invention；

Fig. 3 is the bar shaped adjustment plate submodule present invention looks up structural representation in the embodiment of the present invention；

Fig. 4 is the furred ceiling assembling schematic diagram in the embodiment of the present invention (without bar shaped adjustment plate submodule)；

Fig. 5 is the furred ceiling assembling schematic diagram (submodule of adjustment plate containing bar shaped) in the embodiment of the present invention；

Fig. 6 is the furred ceiling diagrammatic cross-section in Fig. 5；

Fig. 7 is the partial enlarged view of Fig. 6；

Fig. 8 is the external corner submodule side structure schematic view in the embodiment of the present invention；

Fig. 9 is the external corner submodule schematic perspective view in the embodiment of the present invention；

Figure 10 is the inner corner trim submodule side structure schematic view in the embodiment of the present invention；

Figure 11 is the furred ceiling assembling schematic diagram (submodule containing inner corner trim, external corner submodule) in the embodiment of the present invention.

Specific embodiment

Gypsum furred ceiling is carried out modularization, overlap joint assembled design by the present invention.According to the design feature of Chinese Housing, combine The moulding (flat-top, drop level, light trough moulding, center moulding etc.) of gypsum furred ceiling designs gypsum furred ceiling submodule, passes through prefabrication Module is produced, the mode of construction site overlap joint assembly changes the hand-made mode in present scene.

In the present embodiment it is signified it is upper and lower be with the position definition after practical gypsum installation of ceiling, be by ceiling side it is upper, lean on Under ground side is.

Present embodiments provide a kind of gypsum suspended ceiling module, including cross bar submodule, 7 font L-square submodules and item Shape adjustment plate submodule.

As shown in Figure 1, cross bar submodule 1 is stacked by upper rectangular slab 11, lower rectangular slab 12 and oblique dislocation connects Composition, the non-region that stacks are respectively formed the first dislocation lap joint of upper plate 112, lower plate, first mistake in 111, the second dislocation lap joint of upper plate Position overlap edge 121, the second dislocation lap joint of lower plate side 122.

As shown in Fig. 2, 7 font L-square submodules 2 stacked by upper L-square 21 and lower L-square 22 and diagonally side To dislocation connection composition, the non-region that stacks is respectively formed the upper L-square in 211, two, upper the first dislocation lap joint of L-square side the Two dislocation lap joints are in 212, lower first dislocation lap joints of L-square 221, two lower the second dislocation lap joint of L-square sides 222.

Fig. 3 show the schematic diagram of bar shaped adjustment plate submodule 3, and thin and thick is not in the width direction for bar shaped adjustment plate submodule 3 Together, thin by wall side, and the width of bar shaped adjustment plate submodule 3 and cross bar submodule 1 and 7 font L-square submodules 2 lean on The dislocation lap joint side of wall side is preferably provided with of same size.

It as shown in figs. 4-7, is a kind of gypsum furred ceiling assemblied by above-mentioned three kinds of gypsum furred ceiling submodule, including 47 font L-square submodules 2 are located at four corners of ceiling to furred ceiling room, in two 7 font L-square submodules It is provided with multiple cross bar submodules 1 between block 2, mutually overlaps along its length；Cooperate shown in Fig. 1-3 again, specific overlap joint side Formula are as follows:

For 7 font L-square submodules 2, upper the first dislocation lap joint of L-square side 211 therein and adjacent cross bar The first dislocation lap joint of lower plate side 121 of submodule 1 overlaps；The first dislocation lap joint of lower L-square therein side 221 and another phase The first dislocation lap joint of upper plate side 111 of adjacent cross bar submodule 1 overlaps；Wherein upper the second dislocation lap joint of L-square side 212 is leaned on Wall, downward, two are gone up the second dislocation lap joint of L-square sides 212 and overlapped respectively with a bar shaped adjustment plate submodule 3.

It can also be with adjacent cross bar submodule in addition to being overlapped with 7 font L-square submodules 2 for cross bar submodule 1 Block overlap joint, specifically can will be under the first dislocation lap joint of upper plate side 111 of cross bar submodule 1 and adjacent cross bar submodule 1 The first dislocation lap joint of plate side 121 overlaps, in addition, wall is leaned on the second dislocation lap joint of upper plate side 112 of cross bar submodule 1, downward, with Bar shaped adjustment plate submodule 3 overlaps, and bar shaped adjustment plate submodule 3 is preferably sub with 7 font L-square submodules 2 and cross bar simultaneously Module 1 overlaps.

Cooperate shown in Fig. 5, bar shaped adjustment plate submodule 3 is pasted its a side and metope 100 specifically when assembly It closes, it, can be in bar shaped adjustment plate submodule 3 and 7 font L-square submodules 2, bar shaped adjustment plate submodule 3 when room is not upright Slanting gap is formed with the lap-joint of cross bar submodule 1.In gap, it is packed into filler material.Meanwhile in each submodule Filler material is filled at the lap gap of block.

Above embodiment is preferred embodiment, in fact, in order to realize modularization and overlap joint assembled design, under The mode of stating is also feasible: such as, cross bar submodule 1 is made of two rectangular slabs to misplace, and the two of cross bar submodule End and dislocation lap joint side is respectively formed with by wall side；7 font L-square submodules 2 are made of two L-squares to misplace, and 7 The both ends of font L-square submodule 2 and dislocation lap joint side is respectively formed with by wall side；7 font L-square submodule, 2 end Dislocation lap joint side for dislocation lap joint edge lap with adjacent 1 end of cross bar submodule, bar shaped adjustment plate submodule 3 is used In leaning on wall side dislocation lap joint edge lap, two cross bar submodules with 7 font L-square submodules 2 and/or cross bar submodule 1 It can mutually be overlapped by end dislocation lap joint side between block 1.As long as being able to achieve mutually overlap joint between i.e. each submodule.

When specific furred ceiling, as shown in Figure 6,7, scene sets up ceiling joist 300 between ceiling 200 and metope 100, according to The fixed each submodule of installation drawing；Keel structure is fixed on by self-tapping screw 400 at dislocation lap joint side between each submodule On；Each module seam crossing is filled and led up with quickstick powder；Stenciling coating.

For the furred ceiling using drop level design, shown in cooperation Fig. 8,9,10, the gypsum suspended ceiling module of the present embodiment is also designed Matched external corner submodule 4 and inner corner trim submodule 5；External corner submodule 4 is by the inside and outside external corner board group that misplaces at and external corner Module 4 is respectively formed with dislocation lap joint side along two right-angle side extending directions；It can misplace or not misplace along its length, the present embodiment For the design that do not misplace.Inner corner trim submodule 5 is by the inside and outside inner corner trim board group that misplaces at and inner corner trim submodule 5 is along two right-angle side extension sides To being respectively formed with dislocation lap joint side, can misplacing along its length or not misplacing, the present embodiment is the design that do not misplace.

Specifically cooperate shown in Figure 11 again, drop level design furred ceiling in, two right angle side ends of external corner submodule 5 respectively with phase Adjacent inner corner trim submodule 4 and adjacent 1 dislocation lap joint of cross bar submodule；Inner corner trim submodule 4 and adjacent external corner submodule 5 and 1 dislocation lap joint of cross bar submodule, cross bar submodule 1 are also overlapped with bar shaped adjustment plate submodule 3 by wall side.

Preferably, cooperate shown in Fig. 8,9,10, external corner submodule 4 stacks dislocation by outer external corner plate 41 and interior external corner plate 42 and connects Composition is connect, the non-region that stacks is respectively formed outer the first dislocation lap joint of external corner plate in 411, interior the first dislocation lap joint of external corner plate 421； Inner corner trim submodule 5 is stacked connection and is formed by vulva gusset 51 and interior inner corner trim plate 52, and the non-region that stacks is respectively formed two outer inner corner trims The first dislocation lap joint of plate side 511.When overlap joint, outer the first dislocation lap joint of external corner plate side 411 of external corner submodule 4 and inner corner trim submodule 5 the first dislocation lap joint of vulva gusset side 511 overlaps, interior the first dislocation lap joint of external corner plate side 421 of external corner submodule 4 with it is adjacent Cross bar submodule 1 the second dislocation lap joint of lower plate side 122 overlap, the second dislocation lap joint of upper plate side of cross bar submodule 1 112 overlap with bar shaped adjustment plate submodule 3, and bar shaped adjustment plate submodule 3 is arranged by wall.

It is that angular rim or each side are respectively provided in each side of each submodule in order to facilitate filler material is filled after overlap joint There is lead angle (not shown).

The preparation and installation process of gypsum suspended ceiling module are described in detail below:

1, singulated according to the progress of furred ceiling design drawing, the quantity of various modules is calculated, and draw installation drawing.Factory is pre- When processed, each submodule (cross bar submodule, 7 font L-square submodules, bar shaped adjustment plate submodule, inner corner trim submodule, external corner Submodule) integrated formed structure is preferably used, the length of each submodule is preferably 0.7-1.5m, further preferably 1.2m；Respectively The width on dislocation lap joint side is preferably 0.04-0.07m, further preferably 0.05m.

2, erected on site ceiling joist, according to the fixed each submodule of installation drawing；On dislocation lap joint side between each submodule Place is fixed on the keel structure by self-tapping screw；

3, each module seam crossing is filled and led up with quickstick powder.

4, stenciling coating.

In conclusion gypsum furred ceiling of the invention carries out modularization, overlap joint assembled design (stagger type connection type), respectively The reserved overlap joint mouth of submodule changes the connection type of original plasterboard docking, completely solves problem of Cracking；Setting strip simultaneously What shape adjustment plate submodule connected cross bar submodule and 7 font L-square submodules leans on wall side overlap edge, and bar shaped adjusts plank Module is bonded with metope, is suitable for the room of not upright building, can also be by 7 font L-square submodules and cross bar submodule It is connected as one, further enhances the fastness of connection；Further cooperate inner corner trim submodule, external corner submodule etc., A variety of different furred ceiling designs can be achieved, in addition, can also configure the moulding submodule of different shaping, moulding submodule as needed The long edge lap in wall side can be leaned on the non-of cross bar submodule.Gypsum suspended ceiling module of the invention is applicable to not upright room, no Cracking, short time limit, pollution is small, facilitates carrying, is suitable for large-scale promotion application.

The above described is only a preferred embodiment of the present invention, be not intended to limit the present invention in any form, this Field technical staff makes a little simple modification, equivalent variations or modification using the technology contents of the disclosure above, all falls within this hair In bright protection scope.

Claims (10)

1. a kind of gypsum suspended ceiling module, which is characterized in that including cross bar submodule (1), 7 font L-square submodules (2) and Bar shaped adjustment plate submodule (3)；

The cross bar submodule (1) is made of two rectangular slabs to misplace, and the both ends of cross bar submodule (1) and leans on Wall side is respectively formed with dislocation lap joint side；

The 7 font L-square submodule (2) is made of two L-squares to misplace, and the two of 7 font L-square submodules (2) End and dislocation lap joint side is respectively formed with by wall side；

The dislocation lap joint side of 7 font L-square submodule (2) end is used for and adjacent cross bar submodule (1) end Dislocation lap joint edge lap, the bar shaped adjustment plate submodule (3) are used for and 7 font L-square submodules (2) and/or cross bar Module (1) leans on wall side dislocation lap joint edge lap, can pass through end dislocation lap joint side phase interconnection between the cross bar submodule (1) It connects.

2. gypsum suspended ceiling module according to claim 1, which is characterized in that the cross bar submodule (1) is by upper rectangular Shape plate (11), lower rectangular slab (12) stack and oblique dislocation connection composition, and the non-region that stacks is respectively formed the dislocation of upper plate first Overlap edge (111), the second dislocation lap joint of upper plate (121), the second dislocation lap joint of lower plate at (112), the first dislocation lap joint of lower plate Side (122)；

The 7 font L-square submodule (2) is stacked and diagonally wrong by upper L-square (21) and lower L-square (22) Position connection composition, the non-region that stacks are respectively formed upper the first dislocation lap joint of L-square side (211), two upper L-squares second Dislocation lap joint is at (212), lower first dislocation lap joint of L-square (221), two lower the second dislocation lap joint of L-square sides (222)；

First dislocation lap joint of lower plate side (121) is for the upper L-square first with 7 adjacent font L-square submodules (2) Dislocation lap joint side (211) overlap joint；And/or the first dislocation lap joint of upper plate side (111) for adjacent cross bar submodule is taken It connects；

First dislocation lap joint of upper plate side (111) is for the lower L-square first with 7 adjacent font L-square submodules (2) Dislocation lap joint side (221) overlap joint；

The bar shaped adjustment plate submodule (3) is for the second dislocation lap joint of upper L-square side with 7 font L-square submodules (2) (212) and/or the second dislocation lap joint of upper plate side (112) of cross bar submodule overlaps.

3. gypsum suspended ceiling module according to claim 1 or 2, which is characterized in that further include external corner submodule (4) and inner corner trim Submodule (5)；

The external corner submodule (4) is by the inside and outside external corner board group that misplaces at and external corner submodule (4) is along two right-angle side extension sides To being respectively formed with dislocation lap joint side；

The inner corner trim submodule (5) is by the inside and outside inner corner trim board group that misplaces at and inner corner trim submodule (5) is along two right-angle side extension sides To being respectively formed with dislocation lap joint side；

The external corner submodule (5) is used for and inner corner trim submodule (4) and/or cross bar submodule (1) dislocation lap joint；

The inner corner trim submodule (4) is used for and external corner submodule (5) and/or cross bar submodule (1) dislocation lap joint.

4. gypsum suspended ceiling module according to claim 3, which is characterized in that the external corner submodule (4) is by outer external corner plate (41) and interior external corner plate (42) stacks dislocation connection composition, and the non-region that stacks is respectively formed outer the first dislocation lap joint of external corner plate side (411), interior the first dislocation lap joint of external corner plate side (421)；

The inner corner trim submodule (5) stacks connection by vulva gusset (51) and interior inner corner trim plate (52) and forms, non-to stack region difference Form two the first dislocation lap joint of vulva gusset sides (511).

5. gypsum suspended ceiling module according to claim 1, which is characterized in that the bar shaped adjustment plate submodule (3) is along width It is different to spend direction thin and thick, it is thin by wall side, and the width of the bar shaped adjustment plate submodule (3) and the dislocation lap joint hem width for leaning on wall side It spends identical.

6. gypsum suspended ceiling module according to claim 1, which is characterized in that each side of each submodule is oblique The arm of angle or each side are provided with lead angle.

7. gypsum suspended ceiling module according to claim 1, which is characterized in that each submodule is integrally formed knot Structure, and the length of each submodule is 0.7-1.5m, the width on each dislocation lap joint side is 0.04-0.07m.

8. a kind of gypsum furred ceiling, which is characterized in that including the described in any item gypsum suspended ceiling modules of claim 1-7, the stone Each submodule in cream suspended ceiling module is multiple；

The 7 font L-square submodule (2) is located at the ceiling corner to furred ceiling room, in two 7 font L-square submodules (2) it is provided with one or more cross bar submodules (1) between, mutually overlaps along its length；

The bar shaped adjustment plate submodule (3) and 7 font L-square submodules (2) and/or cross bar submodule (1) lean on wall side Dislocation lap joint edge lap, and the adjustment plate submodule (3) is located at 7 font L-square submodules (2) and cross bar submodule (1) Downside；

A side of the bar shaped adjustment plate submodule (3) is bonded with metope, is filled at the lap gap of each submodule Filler material.

9. gypsum furred ceiling according to claim 8, which is characterized in that including ceiling joist, between each submodule It is fixed on the keel structure at dislocation lap joint side by self-tapping screw.

10. a kind of building, which is characterized in that including room, the room is provided with gypsum furred ceiling described in claim 8 or 9.