CN113356440A

CN113356440A - Aluminum alloy furred ceiling mounting structure

Info

Publication number: CN113356440A
Application number: CN202110481598.0A
Authority: CN
Inventors: 彭志迪; 林永标; 林先锐; 彭学; 彭永富
Original assignee: Shenzhen Zhongjia Jiake Co ltd
Current assignee: Shenzhen Zhongjia Jiake Co ltd
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2021-09-07
Anticipated expiration: 2041-04-30
Also published as: CN113356440B

Abstract

The utility model relates to an aluminum alloy furred ceiling mounting structure belongs to interior decoration's technical field, and it includes ceiling, fossil fragments and two lifting ropes, the one end and the indoor roof of lifting rope are connected, the ceiling rotates with fossil fragments through overlapping the mechanism and is connected, fossil fragments are provided with the adjustment subassembly that is used for adjusting ceiling and fossil fragments inclination, the both sides of fossil fragments are connected with two lifting ropes respectively, the lifting rope is provided with the lift subassembly of regulation length. This application utilizes lifting rope and indoor roof to be connected when installing the ceiling with fossil fragments, and fossil fragments rotate with the ceiling through overlapping commentaries on classics mechanism to be connected, can adjust the inclination of ceiling and fossil fragments according to actual conditions, utilizes the adjustment subassembly to adjust appointed inclination with the ceiling afterwards, satisfies the installation demand, adjusts the length of two lifting ropes through elevating module simultaneously, makes the length of two lifting ropes differ to can adjust the inclination of ceiling.

Description

Aluminum alloy furred ceiling mounting structure

Technical Field

The application relates to the field of interior decoration, in particular to an aluminum alloy ceiling mounting structure.

Background

The suspended ceiling is a decoration of the living environment of a house, is one of important parts in interior decoration, and can beautify the interior environment and create a colorful interior space artistic image by properly decorating the top surface of a room. The aluminum alloy material has excellent corrosion resistance, can resist various oil smoke, humid environment, ultraviolet resistance, environmental protection, easy cleaning, high hardness and other advantages, is not easy to age and sink, and is a suspended ceiling material suitable for office buildings, markets, gas stations, subway stations, kitchens and the like.

Related art, like chinese utility model patent application publication No. CN208965856U discloses a plug-in type aluminum alloy ceiling structure, including ceiling structure and ceiling structure, ceiling structural installation is structural at the ceiling, is provided with the ceiling slot in the ceiling structure, and the ceiling structure includes first ceiling keel and second ceiling keel, and the top of second ceiling keel is installed and is changeed the plug-in components, and in the commentaries on classics plug-in components of first ceiling keel grafting on second ceiling keel, the both ends of second ceiling keel are pegged graft in the inside of hanging the plug-in components, and the top fixed mounting who hangs the plug-in components has fossil fragments hanger. According to the plug-in type aluminum alloy ceiling structure, plug-in type installation of the ceiling keel and a ceiling is realized through the hanging plug-in pieces and the rotating plug-in pieces which are arranged on the first ceiling keel and the second ceiling keel, the structural strength of installation of the ceiling keel is effectively improved, the hanging plug-in pieces and the rotating plug-in pieces on the keels are prevented from moving by the limiting grooves on the ceiling keel, and the stability is good; the mounting relaxation degree of the suspended ceiling structure is increased, and the practicability is stronger.

To the above-mentioned defects of the related art, when the ceiling structure needs to be installed in an inclined angle state, the ceiling structure is inconvenient to adjust the inclined angle of the ceiling structure in the installation process, which causes inconvenience.

Disclosure of Invention

In order to adjust the inclination of ceiling in the installation for the convenience, this application provides an aluminum alloy furred ceiling mounting structure, adopts following technical scheme:

the utility model provides an aluminum alloy furred ceiling mounting structure, includes ceiling, fossil fragments and two lifting ropes, the one end and the indoor roof of lifting rope are connected, the ceiling rotates with fossil fragments through the cover commentaries on classics mechanism to be connected, fossil fragments are provided with the adjustment subassembly that is used for adjusting ceiling and fossil fragments inclination, the both sides of fossil fragments are connected with two lifting ropes respectively, the lifting rope is provided with the lift assembly of adjusting length.

Through adopting above-mentioned technical scheme, when installing the ceiling, utilize the lifting rope to be connected with indoor roof with fossil fragments, fossil fragments rotate through set commentaries on classics mechanism and ceiling to be connected, can adjust the inclination of ceiling and fossil fragments according to actual conditions, utilize the adjustment subassembly to adjust the ceiling to appointed inclination afterwards, satisfy the installation demand, through the length of two lifting ropes of lifting unit adjustment simultaneously, make the length of two lifting ropes differ to can adjust the inclination of ceiling.

Preferably, the mechanism is changeed including fixed the rotary column that wears to locate the connecting pipe in the connecting pipe of ceiling and rotation, the one end of rotary column stretch out the connecting pipe and with fossil fragments fixed connection, the other end of rotary column passes through the centre gripping subassembly and can dismantle with fossil fragments and be connected.

Through adopting above-mentioned technical scheme, when installing fossil fragments and ceiling, insert the pillar in the connecting pipe, make fossil fragments rotate with the ceiling and be connected, utilize the centre gripping subassembly will stretch out the pillar and the fossil fragments of connecting pipe can dismantle with the fossil fragments and be connected afterwards, and the ceiling can only need change according to actual need.

Preferably, the centre gripping subassembly includes that two rotate to set up in the centre gripping piece of fossil fragments, two the centre gripping piece is located the relative both sides wall that the rotary column stretches out the connecting pipe respectively, two the centre gripping piece all is through mounting and rotary column fixed connection.

Through adopting above-mentioned technical scheme, the one end that the rotary column stretches out the connecting pipe is located between two holding pieces, and two holding pieces overturn to the relative both sides wall of rotary column, fix a position and prescribe a limit to, utilize the mounting to fix two holding pieces and rotary column each other afterwards, and the structure is firm, and it is convenient to install.

Preferably, the fixing part comprises a fixing screw rod which is slidably arranged on the rotary column and the two clamping pieces in a penetrating manner and two fixing nuts which are respectively in threaded connection with two ends of the fixing screw rod.

Through adopting above-mentioned technical scheme, behind the relative both sides wall with two holding pieces upset rotary column, utilize clamping screw to slide and wear to establish two clamping pieces and rotary column, utilize two fixation nut to lock respectively at clamping screw's both ends afterwards to make holding piece and rotary column fixed connection, the structure is firm, and it is convenient to install.

Preferably, the adjustment subassembly includes two displacement screws, the fossil fragments are located length direction both sides and are provided with the regulating block, the regulating block is worn to locate by the displacement screw thread, the one end and the ceiling of displacement screw are towards fossil fragments one side butt.

Through adopting above-mentioned technical scheme, the displacement screw rod is rotated and is made it be close to or keep away from the ceiling removal on the regulating block, sets up the interval of ceiling through adjustment both sides displacement screw rod and level to can drive the ceiling and do rotary motion around the rotary column, thereby adjust the inclination between ceiling and the fossil fragments.

Preferably, fossil fragments outside cover is equipped with the cuff of being connected with the lifting rope, the cuff passes through the retaining member and is fixed with fossil fragments, the retaining member wears to locate the locking screw of cuff and fossil fragments and the lock nut at locking screw both ends respectively including sliding.

Through adopting above-mentioned technical scheme, when lifting rope and fossil fragments fixed connection, utilize the cuff cover to establish the lateral wall at fossil fragments, utilize locking screw to slide afterwards to wear to locate cuff and fossil fragments, with two lock nut respectively at locking screw's both ends threaded connection to with cuff and fossil fragments fixed connection, lifting rope and cuff fixed connection.

Preferably, the hoop is provided with the ring that supplies the lifting rope to wear to establish, lifting unit includes square and lifting screw, the square is fixed in the position that the lifting rope is located between indoor roof and the ring, the one end that indoor roof was kept away from to the lifting rope is fixed with the one end of lifting screw, the square is worn to locate by the lifting screw thread.

Through adopting above-mentioned technical scheme, the ring is passed to the one end of keeping away from indoor roof with the lifting rope, and the square is worn to locate by the lifting screw thread, through rotating lifting screw, can drive lifting screw and move on the square to make lifting screw drive the lifting rope and move on the ring, thereby adjust the length of hanging of lifting rope, hang length through adjustment both sides lifting rope differs, can adjust the inclination of ceiling in another direction, satisfy the demand.

Preferably, the opposite surfaces of the two clamping pieces are fixedly provided with arc-shaped plates, and the two arc-shaped plates are respectively matched and sleeved on the two opposite side walls of the rotary column.

Through adopting above-mentioned technical scheme, when stretching out the one end and the fossil fragments of connecting pipe with the rotary column fixed, two holding pieces are spacing at the relative both sides wall of rotary column, and two arcs cup joint respectively at the relative both sides wall of rotary column to strengthen the limiting displacement to the rotary column and improve the joint strength of grip block and rotary column, make rotary column and grip block hookup location accurate.

Preferably, the adjusting assemblies are provided with a plurality of groups, and the plurality of groups of adjusting assemblies are arranged along the length direction of the keel.

Through adopting above-mentioned technical scheme, the adjustment subassembly is provided with the multiunit, and when the displacement screw rod was used in the ceiling surface, the lifting surface area that can increase the ceiling avoided the adjustment in-process ceiling atress uneven.

Preferably, a round ball is fixedly arranged at one end, close to the ceiling, of the displacement screw rod.

By adopting the technical scheme, the ball can reduce the contact area between the displacement screw and the ceiling, can reduce the friction generated in the adjustment process, and can reduce the scratch of the end edge of the displacement screw on the surface of the ceiling.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the ceiling is installed, the keel is connected with the indoor top wall through the lifting rope, the keel is rotatably connected with the ceiling through the sleeving and rotating mechanism, the inclination angle of the ceiling and the keel can be adjusted according to actual conditions, then the ceiling is adjusted to a specified inclination angle through the adjusting assembly, the installation requirement is met, and meanwhile the lengths of the two lifting ropes are adjusted through the lifting assembly, so that the lengths of the two lifting ropes are different, and the inclination angle of the ceiling can be adjusted;

2. when the keel and the ceiling are installed, the rotating column is inserted into the connecting pipe to enable the keel and the ceiling to be connected in a rotating mode, then the rotating column extending out of the connecting pipe is detachably connected with the keel through the clamping piece, the displacement screw rods on two sides can be rotated to adjust the distance between the displacement screw rods on two sides and the horizontally arranged ceiling, so that the ceiling can be driven to rotate around the rotating column, and the inclination angle between the ceiling and the keel is adjusted;

3. the ring is passed to the one end of keeping away from indoor roof with the lifting rope, and the square is worn to locate by the lifting screw thread, through rotating lifting screw, can drive lifting screw displacement on the square to make lifting screw drive the lifting rope displacement on the ring, thereby adjust the length of hanging of lifting rope, hang length through adjustment both sides lifting rope differs, can adjust the inclination of ceiling in another direction, satisfy the demand.

Drawings

Fig. 1 is an overall structural schematic view of an aluminum alloy ceiling mounting structure in an embodiment of the present application;

FIG. 2 is a partially enlarged schematic view of portion A of FIG. 1;

fig. 3 is a schematic sectional view of an aluminum alloy ceiling mounting structure according to an embodiment of the present application.

Description of reference numerals: 1. a ceiling; 11. a connecting pipe; 2. a keel; 21. connecting blocks; 211. turning the column; 22. a clamping piece; 221. an arc-shaped plate; 222. fixing the screw rod; 223. fixing a nut; 23. an adjusting block; 231. a displacement screw; 232. a ball; 3. a ferrule; 31. a circular ring; 32. locking the screw rod; 33. locking the nut; 4. a lifting rope; 41. a square block; 42. and lifting the screw rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses aluminum alloy furred ceiling mounting structure, refer to fig. 1, furred ceiling mounting structure is including ceiling 1, fossil fragments 2 and two lifting ropes 4, and ceiling 1 is the level setting, and fossil fragments 2 are located ceiling 1's top, and ceiling 1 rotates with fossil fragments 2 through set commentaries on classics mechanism to be connected, and two lifting ropes 4 are connected respectively in fossil fragments 2's both ends, and the one end that fossil fragments 2 were kept away from to lifting rope 4 is connected with indoor roof.

Referring to fig. 2 and 3, the rotation mechanism includes a rotation column 211 and a connection pipe 11, an outer side wall of the connection pipe 11 is fixed to a side of the ceiling 1 facing the keel 2, the rotation column 211 is fixed to a side of the keel 2 facing the ceiling 1, and the length directions of the connection pipe 11 and the rotation column 211 are parallel to the length direction of the keel 2. Connecting block 21 and fossil fragments 2 fixed connection are passed through to the one end of rotary column 211, leave the interval between rotary column 211 and the fossil fragments 2, and the connecting pipe 11 is worn to locate in the one end cooperation slip that connecting block 21 was kept away from to rotary column 211 and rotation, makes ceiling 1 accessible connecting pipe 11 carry out angle modulation around rotary column 211, and the one end that connecting block 21 was kept away from to rotary column 211 stretches out connecting pipe 11 and can dismantle fixed connection through centre gripping subassembly and fossil fragments 2.

The centre gripping subassembly includes two holding pieces 22, and the one end of two holding pieces 22 all is articulated with fossil fragments 2 towards the one side of connecting pipe 11, and two holding pieces 22 all keep away from connecting block 21 with rotary column 211 and stretch out the one end of connecting pipe 11 corresponding, and holding piece 22 is parallel with the length direction of rotary column 211 with fossil fragments 2's articulated axis, and two holding pieces 22 are located rotary column 211 respectively and stretch out the relative both sides wall of connecting pipe 11. The one side that two holding pieces 22 are in opposite directions all is fixed with arc 221, and two arc 221 cooperate respectively to cup joint in the relative both sides wall of rotary column 211, carries out prepositioning to the hookup location of holding piece 22 with rotary column 211, makes both accurate connections, improves the stability that holding piece 22 and rotary column 211 are connected simultaneously, and two holding pieces 22 can dismantle fixed connection through mounting and rotary column 211.

In this embodiment, the fixing member is provided with a fixing screw 222 and two fixing nuts 223, the fixing screw 222 is slidably inserted into the two clamping pieces 22, the two arc-shaped plates 221 and the rotating column 211, the end of the fixing screw 222 located on the opposite side of the two clamping pieces 22 is respectively in threaded connection with the two fixing nuts 223, and the fixing nuts 223 are abutted against the clamping pieces 22, so as to fix the keel 2 and the rotating column 211 to each other. The clamping pieces 22 and the connecting blocks 21 are respectively abutted against two end faces of the connecting pipe 11, so that the stability of the connection between the rotary column 211 and the connecting pipe 11 can be enhanced, and the ceiling 1 is prevented from being displaced in the length direction of the rotary column 211.

Fossil fragments 2 are provided with the adjustment subassembly of inclination between a plurality of regulation ceilings 1 and fossil fragments 2, and the adjustment subassembly includes two displacement screw rods 231, and fossil fragments 2 and the parallel relative both sides wall homogeneous body of length direction extend has regulating block 23, displacement screw rod 231 and regulating block 23 one-to-one, and regulating block 23 is worn to locate by displacement screw rod 231 screw thread, through rotating displacement screw rod 231, can adjust the position of displacement screw rod 231 on regulating block 23. The length direction of displacement screw 231 and the length direction mutually perpendicular of fossil fragments 2, displacement screw 231 is close to the one end of ceiling 1 and is connected with ceiling 1 one side towards fossil fragments 2, and the opposite movement of displacement screw 231 of fossil fragments 2 both sides can drive ceiling 1 and rotate around rotary column 211, is convenient for adjust ceiling 1 to appointed angle.

Specifically, a round ball 232 is fixed on one side of the displacement screw 231 close to the ceiling 1, the round ball 232 and one surface of the ceiling 1 facing the keel 2 are abutted with each other, and the round ball 232 can reduce the contact area between the displacement screw 231 and the ceiling 1, reduce the friction force, and reduce the abrasion of the end of the displacement screw 231 to the surface of the ceiling 1.

Specifically, the adjustment assembly is provided with three groups, and three groups of adjustment assembly arrange the setting along the length direction interval of fossil fragments 2, and three groups of adjusting part can make ceiling 1 even in the different positions atress, improve ceiling 1's installation stability.

Lifting rope 4 is connected through the tip lateral wall of cuff 3 with fossil fragments 2, and the lateral wall of fossil fragments 2 is located to 3 cooperation covers of cuff, and cuff 3 is fixed mutually with fossil fragments 2 through the retaining member, and the retaining member includes locking screw 32 and two lock nut 33, and locking screw 32 slides and wears to locate cuff 3 and fossil fragments 2, and locking screw 32 stretches out the both ends of cuff 3 respectively with two lock nut 33 threaded connection, lock nut 33 and the lateral wall looks butt of cuff 3 to with cuff 3 and fossil fragments 2 reciprocal anchorage.

Lifting rope 4 is provided with the lifting unit of regulation length, and lifting unit includes square 41 and lifting screw 42, and the one end of lifting rope 4 is fixed in indoor roof, and cuff 3 is fixed with ring 31 in the outer wall of ceiling 1 dorsad, and corresponding ring 31 is worn to locate by the one end that indoor roof was kept away from to lifting rope 4, and square 41 is fixed worn to locate by lifting rope 4 between indoor roof and the ring 31. One end of the lifting screw 42 is fixedly connected with one end of the lifting rope 4 far away from the indoor top wall, and one end of the lifting screw 42 far away from the lifting rope 4 is threaded to one surface far away from the keel 2 from one surface of the square 41 close to the keel 2.

The lifting screw rod 42 can be driven to move on the square block 41 close to or far away from the keel 2 by rotating the lifting screw rod 42, the lifting screw rod 42 can pull the lifting rope 4, so that the distance between one corresponding side of the ceiling 1 and the indoor top wall is adjusted, the distance between the two sides of the ceiling 1 and the indoor top wall is changed, the inclination angle of the ceiling 1 can be adjusted in the other direction, and the installation efficiency of the ceiling 1 is improved.

The implementation principle of the aluminum alloy ceiling mounting structure provided by the embodiment of the application is as follows: when the ceiling 1 is installed, the ferrule 3 is fixed to the keel 2 by the lock nut 33, and the lifting rope 4 is fixed to the keel 2. The one end of keeping away from connecting block 21 with the rotary column 211 on fossil fragments 2 penetrates inside connecting pipe 11, makes ceiling 1 and fossil fragments 2 rotate and is connected, and two centre gripping pieces 22 centre gripping are in the relative both sides wall of rotary column 211 who stretches out connecting pipe 11, carry out prepositioning. And then, fixing one end of the rotating column 211, which is far away from the connecting block 21, with the keel 2 by using a fixing screw 222 and a fixing nut 223, so as to complete the connection between the ceiling 1 and the keel 2.

When the inclination angle between the ceiling 1 and the keel 2 needs to be adjusted, the displacement screws 231 on the two sides of the keel 2 are rotated, so that the spherical ball 232 pushes the ceiling 1 to rotate around the rotating column 211, and the angle between the ceiling 1 and the keel 2 can be adjusted by changing the positions of the displacement screws 231 on the two sides of the keel 2 on the adjusting block 23.

In addition, rotate lifting screw 42, can adjust lifting screw 42 and be close to or keep away from fossil fragments 2 and remove, lifting screw 42 drives lifting rope 4 synchronous motion to can adjust the interval between the corresponding one side of ceiling 1 and the indoor roof, through the interval between adjustment ceiling 1 both sides and the indoor roof, can adjust the inclination of ceiling 1 in the other direction, the installation of ceiling 1 of being convenient for.

The above are all preferred embodiments of the present application, and the present embodiment is only explained for the present application, and the protection scope of the present application is not limited by this, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an aluminum alloy furred ceiling mounting structure, its characterized in that, includes ceiling (1), fossil fragments (2) and two lifting rope (4), the one end and the indoor roof of lifting rope (4) are connected, ceiling (1) is rotated with fossil fragments (2) through set rotary mechanism and is connected, fossil fragments (2) are provided with the adjustment subassembly that is used for adjusting ceiling (1) and fossil fragments (2) inclination, the both sides of fossil fragments (2) are connected with two lifting rope (4) respectively, lifting rope (4) are provided with the lift assembly of regulation length.

2. The aluminum alloy ceiling mounting structure of claim 1, wherein: the mechanism is changeed including fixed rotary column (211) of wearing to locate connecting pipe (11) in connecting pipe (11) and the rotation of ceiling (1), the one end of rotary column (211) stretch out connecting pipe (11) and with fossil fragments (2) fixed connection, the other end of rotary column (211) passes through the centre gripping subassembly and can dismantle with fossil fragments (2) and be connected.

3. The aluminum alloy ceiling mounting structure of claim 1, wherein: the centre gripping subassembly includes that two rotate and set up in centre gripping piece (22) of fossil fragments (2), two centre gripping piece (22) are located rotary column (211) respectively and stretch out the relative both sides wall of connecting pipe (11), two centre gripping piece (22) all are through mounting and rotary column (211) fixed connection.

4. An aluminum alloy ceiling mounting structure as set forth in claim 3, wherein: the fixing piece comprises a fixing screw rod (222) which penetrates through the rotary column (211) and the two clamping pieces (22) in a sliding mode and two fixing nuts (223) which are connected to the two ends of the fixing screw rod (222) in a threaded mode.

5. The aluminum alloy ceiling mounting structure of claim 2, wherein: the adjustment subassembly includes two displacement screw rods (231), fossil fragments (2) are located length direction both sides and are provided with regulating block (23), regulating block (23) are worn to locate by displacement screw rod (231) screw thread, the one end and ceiling (1) of displacement screw rod (231) are towards fossil fragments (2) one side butt.

6. The aluminum alloy ceiling mounting structure of claim 1, wherein: fossil fragments (2) outside cover is equipped with cuff (3) of being connected with lifting rope (4), cuff (3) are fixed with fossil fragments (2) through the retaining member, the retaining member wears to locate locking screw (32) of cuff (3) and fossil fragments (2) and lock nut (33) of difference threaded connection in locking screw (32) both ends including sliding.

7. The aluminum alloy ceiling mounting structure of claim 6, wherein: hoop (3) are provided with ring (31) that confession lifting rope (4) were worn to establish, lifting unit includes square (41) and lifting screw (42), square (41) are fixed in lifting rope (4) and are located the position between indoor roof and ring (31), the one end that indoor roof was kept away from in lifting rope (4) is fixed with the one end of lifting screw (42), lifting screw (42) screw thread is worn to locate square (41).

8. An aluminum alloy ceiling mounting structure as set forth in claim 3, wherein: two clamping pieces (22) are fixedly provided with arc-shaped plates (221) on the opposite surfaces, and the arc-shaped plates (221) are respectively matched and sleeved on the two opposite side walls of the rotating column (211).

9. The aluminum alloy ceiling mounting structure of claim 5, wherein: the adjusting components are provided with a plurality of groups, and the plurality of groups of adjusting components are arranged along the length direction of the keel (2).

10. The aluminum alloy ceiling mounting structure of claim 5, wherein: one end of the displacement screw rod (231) close to the ceiling (1) is fixedly provided with a round ball (232).