CN203654581U - Ceiling supporting structure - Google Patents

Ceiling supporting structure Download PDF

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Publication number
CN203654581U
CN203654581U CN201320861392.1U CN201320861392U CN203654581U CN 203654581 U CN203654581 U CN 203654581U CN 201320861392 U CN201320861392 U CN 201320861392U CN 203654581 U CN203654581 U CN 203654581U
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CN
China
Prior art keywords
wing
shield
keel
hole
ceiling
Prior art date
Application number
CN201320861392.1U
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Chinese (zh)
Inventor
谭泳霖
Original Assignee
广州市广京装饰材料有限公司
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Application filed by 广州市广京装饰材料有限公司 filed Critical 广州市广京装饰材料有限公司
Priority to CN201320861392.1U priority Critical patent/CN203654581U/en
Application granted granted Critical
Publication of CN203654581U publication Critical patent/CN203654581U/en

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Abstract

The utility model discloses a ceiling supporting structure, which comprises an adjusting piece, a connecting pipe, a connecting piece and a keel, wherein the adjusting piece comprises a wall fixing part, a support part and a side stop part which are connected; the adjusting piece also comprises a fine tuning screw; an accommodating hole is formed in the side stop part; screw threads for the fine tuning screw to pass are formed in the support part; after the fine tuning screw penetrates through the screw threads, the fine tuning screw is projected from the accommodating hole; the connecting pipe is limited in the accommodating hole by the side stop part; the fine tuning screw is abutted against the connecting pipe; the connecting piece comprise a connecting plate and a pair of connecting wings; the pair of side wings is extended from two relative ends of the connecting plate and is provided with free ends which are far away from the connecting plate; the free end of each connecting wing is provided with a clamping part which is projected out of the surface of the connecting wing; a through hole is formed in each connecting wing; the connecting pipe penetrates through the through holes; the keel is provided with a ceiling connecting face and a pair of side faces; the clamping parts are respectively connected with the pair of side faces in a clamping way. The ceiling supporting structure has the advantage that leveling and assembling steps are simple.

Description

Ceiling braced structures
Technical field
The utility model relates to decoration material field, particularly relates to a kind of ceiling braced structures.
Background technology
In the time of interior decoration, ceiling often can be installed.Conventionally in the time that ceiling is installed, on wall, measure good position now before this, then keel, joist supporting member and ceiling were installed on wall according to the position of previously having measured.But, because the verticality of wall is not very accurately, measure and in process, also may occur error, and keel and the joist installed due to needs are multiple, the mode of installing one by one causes the levelness of ceiling to be more difficult to adjust, installation effect is not satisfactory, adjusts trouble and need to expend a large amount of man-hours, need to be improved further.
Summary of the invention
Based on this, the utility model is to overcome the defect of prior art, and a kind of ceiling braced structures is provided, and simplifies mounting means.
Its technical scheme is as follows:
A kind of ceiling braced structures, comprise regulating part, tube connector, connector and keel, described regulating part comprises the body of wall fixed part of connection, support portion and side block portion, described regulating part also comprises fine adjustment screw, in described side block portion, offer accepting hole, described support portion offers the screw thread passing for fine adjustment screw, described fine adjustment screw is through protruding from described accepting hole after screw thread, described tube connector is spacing in accepting hole by side block portion, fine adjustment screw and described tube connector offset, connector comprises junction plate and a pair of connecting wing, described a pair of flank extends and has a free end away from junction plate from junction plate opposite end, the free end of each connecting wing has the Access Division of protruding from connecting wing surface, in each connecting wing, all offer through hole, described tube connector passes from described through hole, described keel have smallpox joint face and a pair of side, described Access Division respectively with the clamping of a pair of side.
Described body of wall fixed part is used for being fixed on body of wall, described support portion is used for supporting described tube connector, described side block portion is for fixing described tube connector, by coordinating of fine adjustment screw and screw thread, the height of tube connector is carried out to fine adjustment, avoid the small distance dislocation of being fixed on two regulating parts on relative two wall bodies to impact the levelness of tube connector, thereby regulate the levelness of tube connector.And because each flank all has Access Division and offers through hole, and connector is connected keel and tube connector by Access Division with the mode that mode and the tube connector of side clamping pass from through hole respectively, therefore tube connector and keel can complete connection by connector, therefore can pass through simply installation step mutually, realize the assembling of tube connector and keel.
Further, described Access Division is stepped, Access Division has the first card access surface and convergent face, described the first card access surface is protruded from the surface of connecting wing, described convergent face is received in the free end of connecting wing from the first card access surface outer end, described a pair of side forms the second card access surface away from one end infolding of smallpox joint face, and the first card access surface and the second card access surface offset.
Because described Access Division has convergent face, therefore, in the time of assembly and connection part and keel, the strength consuming can utilize convergent face to reduce assembling time, reduces labour.
Further, described a pair of connecting wing is take the wherein center line of junction plate as axial symmetry, through holes in each connecting wing etc. are large, the through hole line of centres in each connecting wing is vertical with the center line of described junction plate, described tube connector passes the through hole in described each connecting wing along the center line bearing of trend of described junction plate, described keel are along center line bearing of trend and the described connecting wing clamping of vertical described junction plate, thereby realize the tube connector after assembling, connector and keel are mutually spacing, by mutual installation step simply, realize tube connector and the orthogonal state of keel after assembling.
Further, it is stepped that described Access Division is two-stage, and every one-level step portion does not have the first card access surface and convergent face, and the first card access surface of every one-level ladder is parallel parallel with junction plate, and described convergent face is continuous level.
Further, described a pair of connecting wing is elastic wings, angle between each connecting wing and junction plate is all greater than 90 degree, described each connecting wing respectively relatively junction plate there is certain elastically deformable degree, make connector when mounted can by compress or stretching connecting wing to complete the assembling of connector and miscellaneous part.
Further, described side block portion comprises the first side shield and the second side shield, described accepting hole is opened between the first side shield and the second side shield, the first side shield is connected respectively described body of wall fixed part and support portion with the second side shield, described the first side shield and the second side shield form abutting part to described accepting hole inner bending respectively, described abutting part is vertical with described the first side shield and the second side shield, and described abutting part and tube connector connect.
The first side shield and the second side shield are limited in tube connector in accepting hole, and abutting part applies sandwiched power to tube connector, prevent its slippage.The tightening force that described the first side shield and the second side shield are applied is as component tension body of wall fixed part and support portion, avoids support portion to be out of shape because of the pressure that is subject to tube connector.
Further, described the first side shield has the first kink and the second kink, described the first kink is vertical with body of wall fixed part, described the second kink is vertical with support portion, described the second side shield has the first kink and the second kink, described the first kink is vertical with body of wall fixed part, and described the second kink is vertical with support portion.
Further, ceiling braced structures also comprises edge-trimming corner, described regulating part also comprises the leveling portion being connected with support portion, in described leveling portion, offer the leveling hole of passing for fixed screw, the fixing edge-trimming corner of fixed screw and described leveling portion, at grade, described support portion is vertical with leveling portion for described body of wall fixed part and leveling portion.
Described leveling portion is for being pressed in described edge-trimming corner on body of wall and adjusting the relative position of regulating part and edge-trimming corner.Vertical owing to conventionally body of wall being considered as, again body of wall fixed part and leveling portion at grade, support portion is vertical with leveling portion, therefore when regulating part is fixed and body of wall on time, described leveling portion is in level.
Further, described leveling hole is strip perforate, and fixed screw is fixed on edge-trimming corner any one position in the leveling hole of strip.
The leveling hole that utilizes fixed screw to pass regulating part is fixed on edge-trimming corner on body of wall.In the leveling hole of strip, select suitable position by fixed screw, edge-trimming corner is fixed on to suitable angle, thus adjustment edge-trimming corner and the afterwards levelness of the keel of assembling.
Further, described edge-trimming corner comprises vertical plate connected vertically and level board.The smallpox joint face of the level board of described edge-trimming corner and keel at grade.
Accompanying drawing explanation
Fig. 1 is the decomposed schematic diagram of the self-chambering support member ceiling structure of an embodiment.
Fig. 2 is the schematic perspective view of the connector of an embodiment.
Fig. 3 is the front elevation drawing of Fig. 2.
Fig. 4 is the schematic perspective view of the tube connector of an embodiment.
Fig. 5 is the schematic perspective view of the connector of an embodiment.
Fig. 6 is the right view of Fig. 5.
Fig. 7 is the tube connector of an embodiment and the assembling drawing of connector.
Fig. 8 is the schematic diagram of the keel of an embodiment.
Fig. 9 is the schematic diagram of another angle of the keel of an embodiment.
Figure 10 is the assembling drawing of tube connector, connector and the keel of an embodiment.
Figure 11 is the part enlarged drawing of Figure 10.
Figure 12 is the sectional view of the assembling of tube connector, connector and keel.
Figure 13 is the ceiling of an embodiment and the assembling drawing of keel.
Figure 14 is the part enlarged drawing of Figure 13, and wherein magnetic patch is decomposed.
Figure 15 is the part enlarged drawing of Fig. 1.
Description of reference numerals:
10, regulating part 12, body of wall fixed part 120, body of wall fixing hole 14, side block portion 140, accepting hole 142, the first side shield 1422, 1442, the first kink 1424, 1444, the second kink 1426, abutting part 144, the second side shield 16, support portion 160, screw thread 18, leveling portion 180, leveling hole 20, tube connector 30, connector 32, junction plate 34, connecting wing 340, Access Division 3402, the first card access surface 3404, convergent face 342, inner surface, 344, external surface 36, free end 38, through hole 40, keel 42, smallpox joint face 420, magnetic patch resettlement section 44, side 440, the second card access surface 50, ceiling 52, body 54, side plate 56, interior anti-side plate 560, locating hole 58, magnetic patch 582, magnetic core 584, bail 60, edge-trimming corner 70, body of wall 80, fixed screw 90, fine adjustment screw
The specific embodiment
As shown in Figure 1, self-chambering support member ceiling structure comprises regulating part 10, tube connector 20, connector 30, keel 40, ceiling 50 and edge-trimming corner 60.Regulating part 10 is fixed on body of wall 70 by fixed screw 80, and by fixed screw 80, edge-trimming corner 60 is pressed on body of wall 70.Described tube connector 20 is set up on regulating part 10.Connector 30 is set on tube connector 20.Keel 40 are assemblied on connector 30.Ceiling 50 is fixedly connected with keel 40.
As Figure 2-3, described regulating part 10 comprises body of wall fixed part 12, side block portion 14, support portion 16 and the leveling portion 18 of connection.Understandably, body of wall fixed part 12, side block portion 14, support portion 16 and leveling portion 18 manufacture respectively the parts that then link together by the mode of mechanical force or welding, may be also to bend by integrated plate body the parts that form.Described body of wall fixed part 12 is for being fixed on body of wall 70, described support portion 16 is for supporting described tube connector 20, described side block portion 14 is for fixing described tube connector 20, and tension body of wall fixed part 12 and support portion, described leveling portion 18 is for being pressed in described edge-trimming corner 60 on body of wall 70 and adjusting the relative position of regulating part 10 and edge-trimming corner 60.Side block portion 14 comprises the first side shield 142 and the second side shield 144.Between the first side shield 142 and the second side shield 144, offer accepting hole 140.In the present embodiment, described the first side shield 142 is inverted "L" shaped, and it has orthogonal the first kink 1422 and the second kink 1424.Described the first kink 1422 is vertical with body of wall fixed part 12, and described the second kink 1424 is vertical with support portion 16.Described the first side shield 142 also comprises to described accepting hole 140 inner bendings formation abutting parts 1426.Described abutting part 1426 is vertical with described the first kink 1422 and the second kink 1424 respectively.Described the second side shield 144 and the first side shield 142 symmetries, also have the abutting part (not shown) of orthogonal the first kink 1442, the second kink 1444, inner bending.Described body of wall fixed part 12 and leveling portion 18 are at grade.Described support portion 16 is vertical with leveling portion 18.On body of wall fixed part 12, offer the body of wall fixing hole 120 passing for fixed screw 80.On support portion 16, offer the screw thread 160 passing for fine adjustment screw 90, described fine adjustment screw 90 protrudes from described accepting hole 140 through after screw thread 160.In leveling portion 18, offer the leveling hole 180 of passing for fixed screw 80.Described leveling hole 180 is strip perforate, and fixed screw 80 can be fixed any one position in the leveling hole 180 of strip.
As shown in Figure 4, described tube connector 20 is cylindrical shape body.Described tube connector 20 may be hollow body structure, to alleviate its weight.Described tube connector 20 may be also solid structure, to strengthen its holding capacity.
As shown in Fig. 5-6, described connector 30 comprises junction plate 32 and a pair of connecting wing 34.Described a pair of connecting wing 34 is extended and has a free end 36 away from junction plate from junction plate 32 opposite ends.Described a pair of connecting wing 34 is the axisymmetric elastic wings of center line with junction plate 32, and each connecting wing 34 respectively relative junction plate 32 has certain elastically deformable degree.Each connecting wing 34 all has inner surface 342 and the external surface 344 relative with inner surface 342.Wherein, the inner surface 342 of a pair of connecting wing 34 is adjacent.In each connecting wing 34, all offer the through hole 38 that runs through its inner surface 342 and external surface 344.The line of centres of the through hole 38 in the large and each connecting wing 34 of through hole 38 grades in each connecting wing 34 is vertical with the center line of described junction plate 32.The free end 36 of each connecting wing 34 has the Access Division 340 of protruding from the external surface 344 of connecting wing 34.In the present embodiment, the angle between each connecting wing 34 and junction plate 32 is all greater than 90 degree.Described Access Division 340 is stepped, and it has the first card access surface 3402 and convergent face 3404.Described the first card access surface 3402 is outwardly from the external surface 342 of connecting wing 34.Described convergent face 3404 is the interior receipts of free end 36 towards connecting wing 34 from the first card access surface 3402 outer ends.Preferably, described the first card access surface 3402 is parallel with junction plate 32, and described convergent face 3404 is continuous level.More preferably, it is stepped that Access Division 340 is two-stage, and every one-level step portion does not have the first card access surface 3402 and convergent face 3404.The first card access surface 3402 of described every one-level ladder is parallel.
As shown in Figure 7, the aperture of described through hole 38 is greater than or equal to the diameter of described tube connector 20.When tube connector 20 is connected with connector 30, tube connector 20 passes from the through hole 38 of connector 30.Self-chambering support member ceiling structure comprises multiple connectors 30 and many tube connectors 20.Every corresponding several connectors 30 of tube connector 20 also pass from the through hole 38 of corresponding each connector 30, are set on a tube connector 20 to realize multiple connectors 30.
As Figure 8-9, described keel 40 are strip plate body, and its horizontal section is " recessed " font substantially, and the both ends on length direction are opened wide.Keel 40 by metal etc. can and magnet between produce magnetic attraction material make.Keel 40 have smallpox joint face 42 and a pair of side 44.Described smallpox joint face 42 is for being connected with described ceiling 50.Smallpox joint face 42 has magnetic patch resettlement section 420.Described magnetic patch resettlement section 420 from smallpox joint face 42 for forming with the concave surface of ceiling 50.Extend each side 44 respectively two ends from the width of described smallpox joint face 42.Each side 44 forms the second card access surface 440 away from one end infolding of smallpox joint face 42.In the present embodiment, described a pair of side 44 is vertical with described smallpox joint face 42, and described the second card access surface 440 is vertical with a pair of side 44.On described smallpox joint face 42, there is multiple magnetic patch resettlement section 420.Preferably, on the length direction of smallpox joint face 42, there is equally distributed multiple magnetic patch resettlement section 420.More preferably, on the length direction of described smallpox joint face 42, there is the equally distributed multiple magnetic patch of two row resettlement section 420.Distance between described magnetic patch resettlement section 420 and the second card access surface 440 is slightly larger than the height (distance of the first card access surface 3402 and free end 36) of the Access Division 3400 of connector 30.
As shown in Figure 10-12, when described tube connector 20, connector 30 and keel 40 connect, tube connector 20 passes from the through hole 38 of connector 30, the Access Division 340 of connector 30 and side 44 clampings of keel 40.Described tube connector 20, connector 30 and keel 40 form the keel support card connecting structure of self-chambering support member ceiling structure.Self-chambering support member ceiling structure comprises many keel 40.Described many tube connectors 20 are arranged in parallel, and described many keel 40 are arranged in parallel and are vertical with described many tube connectors 20.Preferably, the distance of the distance of adjacent two tube connectors 20 and adjacent two keel 40 equates.Multiple connectors 30 on every tube connector 20 are equidistantly set on tube connector 20.Every keel 40 be set in multiple connectors 30 clampings on described many tube connectors 20.For example, start first keel 40 that calculate from one end of every tube connector 20 and be set in first connector 30 clampings every tube connector 20.Because every tube connector 20 is all connected with many keel 40 by connector 30, every keel 40 are all connected with many tube connectors 20 by connector 30, therefore tube connector 20, connector 30 and the keel 40 after assembling are mutually spacing, by mutual installation step simply, realize tube connector 20 and the orthogonal state of keel 40 after assembling.When connector 30 and keel 40 connect, may be that one of them end from keel 40 length directions, the Access Division 340 of one of them connector 30 snaps in keel 40, then the connector 30 on the relevant position that is set in adjacent tube connector 20 slides or promotes, and second connector 30 snapped in keel 40.So analogize, by the method for sliding or promote, multiple connectors 30 are snapped in keel 40, realize single keel 40 being connected by multiple connectors 30 and many tube connectors 20.When connector 30 and keel 40 connect, may be also to utilize elastic deformation power that a pair of connecting wing 34 of connector 30 is out of shape to shrink to insert in keel 40, then a pair of connecting wing 34 be recovered, its Access Division 340 and keel 40 clampings.Because Access Division 340 all has convergent face 3404, in the time that connector 30 inserts keel 40, the oppressive force of utilizing convergent face 3404 to be subject to the second card access surface 440 of keel 40 is out of shape a pair of connecting wing 34, Access Division 340 snaps in after keel 40, oppressive force between convergent face 3404 and the second card access surface 440 disappears, a pair of connecting wing 34 is recovered, and the first card access surface 3402 and second card access surface 440 of keel 40 of connector 30 offsets and make connector 30 and the fixing assembling of keel 40.Therefore,, while utilizing elastic deformation power assembling connecting piece 30 with keel 40, installation step is simple and laborsaving.The height that is slightly larger than again the Access Division 340 of connector 30 due to the distance between described magnetic patch resettlement section 420 and the second card access surface 440, therefore magnetic patch resettlement section 420 does not interfere with each other mutually with Access Division 340.Have, the width of described the first card access surface 3402 equals the width of described the second card access surface 440 again, and the first card access surface 3402 can be coordinated better with the second card access surface 440.Understandably, described the second card access surface 440 may be also that one end outward of 44 forms from the side, corresponding, the Access Division 340 of connector 30 may be also to protrude from the inner surface 342 of connecting wing 34, the angle between each connecting wing and junction plate is less than 90 degree.When assembly and connection part 30 and keel 40, keel 40 are inserted in between a pair of connecting wing 34, offset and make connector 30 and the fixing assembling of keel 40 by the second card access surface 440 and the first card access surface 3402 of Access Division 340.Connector 30 and keel 40 form the keel connecting structure of self-chambering support member ceiling structure.
As shown in Figure 13-14, described ceiling 50 is polygonal panel body structure.In the present embodiment, ceiling 50 comprises body 52, side plate 54, interior anti-side plate 56 and magnetic patch 58.Body 52 is quadrangle plate body.The vertical bending in four limits of body 52 extend 54, four side plates 54 of four side plates wherein relative one group towards body 52 inner sides, vertical bending extends to form anti-side plate 56 in two.In the length of Length Ratio side plate 54 of anti-side plate 56 short, therefore in anti-side plate 56 and adjacent but form breach between the side plate 54 that do not join.Described breach is conducive to for the hand-held ceiling 50 of assembler, ceiling 50 be assembled.The width of interior anti-side plate 56 equals the half of the width of the smallpox joint face 42 of keel 40.The aluminum structure that in described body 52, four side plates 54 and two, anti-side plate 56 is formed in one.Magnetic patch 58 is arranged on interior anti-side plate 56.On interior anti-side plate 56, offer the locating hole corresponding with magnetic patch 58 560.Magnetic patch 58 comprises magnetic core 582 and bail 584.Thereby bail 584 is fixed on magnetic core 582 on interior anti-side plate 56 through magnetic core 582 and locating hole 560.The cross section of described magnetic core 582 is circular.Understandably, because described interior anti-side plate 56 is aluminium, between magnetic core 582 and aluminium, there is magnetic attraction.Therefore, fixing not being defined as of magnetic core 582 utilized bail 584 and the fixing structure of locating hole 560.Magnetic patch 58 is corresponding in the distribution of smallpox joint face 42 with magnetic patch resettlement section 420 in the distribution of interior anti-side plate 56, and the degree of depth of described magnetic patch resettlement section equals the height of described magnetic core, the aperture of described magnetic patch resettlement section 420 is greater than or equal to the diameter of described magnetic core 582, and the volume of magnetic patch 58 is slightly less than the volume of described magnetic patch resettlement section 420.The cross section of described magnetic core 582 is not defined as circle yet, and it may be also quadrangle, hexagon, 12 distortion or other shapes.
When ceiling 50 is connected with keel 40, the magnetic patch of ceiling 50 58 is aimed to the magnetic patch resettlement section 420 of keel 40, magnetic patch 58 draws ceiling 50 by magnetic attraction and is connected with keel 40.Because magnetic patch 58 is contained in magnetic patch resettlement section 420, therefore the link position between ceiling 50 and keel 40 is determined, has avoided the dislocation between ceiling 50 and keel 40 to join, and ceiling 50 is easily alignd with keel 40.Have again, be arranged at the inner surface that magnetic attraction that the magnetic patch 58 in magnetic patch resettlement section 420 produces acts on magnetic patch resettlement section 420, the magnetic attraction that it has comprised vertical magnetic patch 58 end face directions and side surface direction, act on keel 40 from both direction, further being connected between firm ceiling 50 and keel 40.On length direction due to the smallpox joint face 42 of keel 40, have two row magnetic patch resettlement sections 420, therefore keel 40 are connected with two row ceilings 50.Equal again the half of the width of the smallpox joint face 42 of keel 40 due to the width of interior anti-side plate 56, therefore two ceilings 50 are just stitched together, make seamless joining between ceiling 50, and the distance of adjacent two keel 40 is defined as to the width of ceiling 50.After ceiling 50 is connected with keel 40, two interior anti-side plates 56 that are distributed in relative both sides can be strengthened the tightening force of ceiling 50, thereby strengthen the planeness of body 50, make the standard of the planeness that ceiling 50 can install as many keel 40.Described keel 40 and ceiling 50 form ceiling and the keel assembly structure of self-chambering support member ceiling structure.
As shown in figure 15, in the time that self-chambering support member ceiling structure is assemblied in body of wall 70, thereby utilize fixed screw 80 through the body of wall fixing hole 120 of regulating part 10, regulating part 10 to be fixed on body of wall 70.Utilize fixed screw 80 through the leveling hole 180 of regulating part 10, edge-trimming corner 60 to be fixed on body of wall 70.In the leveling hole 180 of strip, select suitable position by fixed screw 80, edge-trimming corner 60 is fixed on to suitable height, thus adjustment edge-trimming corner 60 and the afterwards levelness of the keel 40 of assembling.Described edge-trimming corner 60 comprises vertical plate connected vertically and level board.The smallpox joint face 42 of the level board of described edge-trimming corner 60 and keel 40 at grade.Regulating part 10 and edge-trimming corner 60 are fixed on after relative two wall bodies 70, connector 30 is sheathed on tube connector 20, the two ends of tube connector 20 are set up on the support portion 16 of being fixed on the regulating part 10 on relative two wall bodies 70 again, and by the first side shield 142 and the second side shield 144, tube connector 20 are limited in accepting hole 140.Abutting part 1426 applies sandwiched power to tube connector 20, prevents its slippage.The tightening force that described the first side shield 142 and the second side shield 144 are applied is as component tension body of wall fixed part 12 and support portion 16, avoids support portion 16 to be out of shape because of the pressure that is subject to tube connector 20.Fine adjustment screw 90 passes and offsets with described tube connector 20 from the screw thread 160 of support portion 16.By coordinating of fine adjustment screw 90 and screw thread 160, the height of tube connector 20 is carried out to fine adjustment, avoid the small distance dislocation of being fixed on two regulating parts 10 on relative two wall bodies 70 to impact the levelness of tube connector 20, thereby regulate the levelness of tube connector 20.Described regulating part 10, tube connector 20, edge-trimming corner 60 and fine adjustment screw 90 form the leveling structure of self-chambering support member ceiling structure.Then method, by keel 40 and connector 30 clampings, then is fixed ceiling 50 by magnetic attraction and keel 40 as the aforementioned, completes the assembling of self-chambering support member ceiling structure.
Vertical owing to conventionally body of wall 70 being considered as, at grade, gripper shoe 16 is vertical with leveling board 18 for body of wall fixed head 12 and leveling board 18 again, therefore when regulating part 10 is fixed and body of wall 70 on time, described leveling board 18 is in level.In the time that tube connector 20 is arranged in gripper shoe 16, can think that tube connector 20 is in level.Understandably, in the time that body of wall 70 tilts, can carry out fine adjustment to tube connector 20 to the height of tube connector 20 by fine adjustment screw 90 and coordinating of screw thread 160, thereby tube connector 20 is adjusted to level.Angle between described gripper shoe 16 and body of wall fixed head 12, leveling board 18 also can be according to the Slope angle adjustment of body of wall 70.The first side shield 142 and the second side shield 144 are not defined as inverted "L" shaped yet; also may be the shapes such as cambered surface, inclined plane or many bending sides, as long as can carry out spacing all belonging in protection domain of the present utility model to tube connector 20 in the time that tube connector 20 is placed in gripper shoe 16.Described leveling board 18 is to arrange with the levelness of keel 40 in order to simplify adjustment edge-trimming corner 60, and therefore leveling board 18 also can omit, as long as edge-trimming corner 60 is directly installed on body of wall 70, and in installation process, carries out leveling and can realize.
Because regulating part 10, tube connector 20, connector 30, keel 40, ceiling 50 and edge-trimming corner 60 are all to assemble by modes such as fixed screw 80, sheathed, clamping and magnetic, therefore user can complete self-chambering support member ceiling structure voluntarily, has saved the expense of finishing.And every ceiling 50 independently assembles with keel 40.If when ceiling 50 is damaged, can change by partial demolition, make to change expenses convenient and that avoided large area to change.
The above embodiment has only expressed the specific embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (10)

1. a ceiling braced structures, it is characterized in that, comprise regulating part, tube connector, connector and keel, described regulating part comprises the body of wall fixed part of connection, support portion and side block portion, described regulating part also comprises fine adjustment screw, in described side block portion, offer accepting hole, described support portion offers the screw thread passing for fine adjustment screw, described fine adjustment screw is through protruding from described accepting hole after screw thread, described tube connector is spacing in accepting hole by side block portion, fine adjustment screw and described tube connector offset, connector comprises junction plate and a pair of connecting wing, described a pair of flank extends and has a free end away from junction plate from junction plate opposite end, the free end of each connecting wing has the Access Division of protruding from connecting wing surface, in each connecting wing, all offer through hole, described tube connector passes from described through hole, described keel have smallpox joint face and a pair of side, described Access Division respectively with the clamping of a pair of side.
2. ceiling braced structures as claimed in claim 1, it is characterized in that, described Access Division is stepped, Access Division has the first card access surface and convergent face, described the first card access surface is protruded from the surface of connecting wing, described convergent face is received in the free end of connecting wing from the first card access surface outer end, and described a pair of side forms the second card access surface away from one end infolding of smallpox joint face, and the first card access surface and the second card access surface offset.
3. ceiling braced structures as claimed in claim 2, it is characterized in that, described a pair of connecting wing is take the wherein center line of junction plate as axial symmetry, through holes in each connecting wing etc. are large, the through hole line of centres in each connecting wing is vertical with the center line of described junction plate, described tube connector passes the through hole in described each connecting wing along the center line bearing of trend of described junction plate, and described keel are along center line bearing of trend and the described connecting wing clamping of vertical described junction plate.
4. the ceiling braced structures as described in claim 2 any one, it is characterized in that: it is stepped that described Access Division is two-stage, every one-level step portion does not have the first card access surface and convergent face, and the first card access surface of every one-level ladder is parallel parallel with junction plate, and described convergent face is continuous level.
5. the ceiling braced structures as described in claim 2 any one, is characterized in that: described a pair of connecting wing is elastic wings, and the angle between each connecting wing and junction plate is all greater than 90 degree.
6. the ceiling braced structures as described in claim 1-5 any one, it is characterized in that: described side block portion comprises the first side shield and the second side shield, described accepting hole is opened between the first side shield and the second side shield, the first side shield is connected respectively described body of wall fixed part and support portion with the second side shield, described the first side shield and the second side shield form abutting part to described accepting hole inner bending respectively, described abutting part is vertical with described the first side shield and the second side shield, and described abutting part and tube connector connect.
7. ceiling braced structures as claimed in claim 6, it is characterized in that: described the first side shield has the first kink and the second kink, described the first kink is vertical with body of wall fixed part, described the second kink is vertical with support portion, described the second side shield has the first kink and the second kink, described the first kink is vertical with body of wall fixed part, and described the second kink is vertical with support portion.
8. ceiling braced structures as claimed in claim 7, it is characterized in that, also comprise edge-trimming corner, described regulating part also comprises the leveling portion being connected with support portion, in described leveling portion, offer the leveling hole of passing for fixed screw, the fixing edge-trimming corner of fixed screw and described leveling portion, at grade, described support portion is vertical with leveling portion for described body of wall fixed part and leveling portion.
9. ceiling braced structures as claimed in claim 8, is characterized in that: described leveling hole is strip perforate, and fixed screw is fixed on edge-trimming corner any one position in the leveling hole of strip.
10. the ceiling braced structures as described in claim 9 any one, is characterized in that: described edge-trimming corner comprises vertical plate connected vertically and level board.The smallpox joint face of the level board of described edge-trimming corner and keel at grade.
CN201320861392.1U 2013-12-24 2013-12-24 Ceiling supporting structure CN203654581U (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104878868A (en) * 2015-05-28 2015-09-02 广州市广京装饰材料有限公司 Ceiling keel structure and mounting method
WO2016095011A1 (en) * 2014-12-15 2016-06-23 Petrovic Zeljko Ceiling hanging system for drywall or acoustic tile
CN106245839A (en) * 2016-10-08 2016-12-21 广州市广京装饰材料有限公司 Connector, mounting structure and the installation method that ceiling is installed
GB2553091A (en) * 2016-08-16 2018-02-28 Unique Construction Solutions Ltd A system for supporting a suspended ceiling below a main ceiling and a method of using said system
CN108222354A (en) * 2018-02-05 2018-06-29 张春平 Arbitrary height width furred ceiling flitch

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2016095011A1 (en) * 2014-12-15 2016-06-23 Petrovic Zeljko Ceiling hanging system for drywall or acoustic tile
CN104878868A (en) * 2015-05-28 2015-09-02 广州市广京装饰材料有限公司 Ceiling keel structure and mounting method
GB2553091A (en) * 2016-08-16 2018-02-28 Unique Construction Solutions Ltd A system for supporting a suspended ceiling below a main ceiling and a method of using said system
GB2553091B (en) * 2016-08-16 2019-02-27 Unique Construction Solutions Ltd A system for supporting a suspended ceiling below a main ceiling and a method of using said system
CN106245839A (en) * 2016-10-08 2016-12-21 广州市广京装饰材料有限公司 Connector, mounting structure and the installation method that ceiling is installed
CN108222354A (en) * 2018-02-05 2018-06-29 张春平 Arbitrary height width furred ceiling flitch

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