CN113513117A - Multi-monomer combined soft film ceiling modeling base layer structure and construction process thereof - Google Patents

Abstract

The utility model belongs to the technical field of architectural decoration's technique and specifically relates to a mantle smallpox molding basic unit structure that many monomers make up is related to, including fixed jib that sets up on the wall body, the molding frame that is connected with the jib and the fixed molding cover that sets up on the molding frame, be provided with the connecting piece that is used for fixed molding frame on the jib. The last fixed angle sign indicating number that is provided with of model frame, the connecting piece is the nut of threaded connection on the jib, the jib passes the angle sign indicating number for the nut supports in the below of angle sign indicating number. The molding cover is provided with a flanging along the edge in an integrated forming mode, and a gap for placing the mounting rod is formed between the flanging and the molding cover. The modeling frame comprises a support frame, connecting rods inserted around the support frame and mounting rods fixedly arranged on the connecting rods, sockets matched with the connecting rods are formed in the periphery of the support frame, and locking assemblies used for being fixed with the support frame are arranged on the connecting rods. This application has simple structure, simple to operate swift effect.

Description

Multi-monomer combined soft film ceiling modeling base layer structure and construction process thereof

Technical Field

The application relates to the technical field of architectural decoration, in particular to a soft film ceiling modeling base layer structure combined by multiple monomers and a construction process thereof.

Background

The suspended ceiling is a decoration for decorating the top of the residential environment of a house. The ceiling decoration plays an important role in the whole room decoration, and the top surface of a room is properly decorated, so that the ceiling decoration not only can beautify the indoor environment, but also can create rich and colorful indoor space artistic images, and is one of important parts of the indoor decoration.

Traditional furred ceiling structure is complicated, and the part is many, has the problem that the construction installation degree of difficulty is big when the installation.

Disclosure of Invention

In order to simplify the suspended ceiling structure, the application provides a soft membrane suspended ceiling modeling base layer structure combined by multiple monomers and a construction process thereof.

In a first aspect, the soft membrane ceiling modeling base layer structure with multi-monomer combination provided by the application adopts the following technical scheme:

the utility model provides a many monomer combination's mantle smallpox molding infrastructure, includes the fixed jib that sets up on the wall body, the molding frame that is connected with the jib and the fixed molding cover that sets up on the molding frame, be provided with the connecting piece that is used for fixed molding frame on the jib.

Through adopting above-mentioned technical scheme, when the installation furred ceiling, fix the jib after on the wall body. The modeling frame is connected with the hanging rod by using the connecting piece, so that the modeling frame and the hanging rod are fixed. Whole furred ceiling structure simple structure, easy operation, construction convenience.

Optionally, the last fixed angle sign indicating number that is provided with of model frame, the connecting piece is the nut of threaded connection on the jib, the jib passes the angle sign indicating number for the nut supports in the below of angle sign indicating number.

Through adopting above-mentioned technical scheme, pass the jib angle sign indicating number after, mounting nut for the nut supports in the below of angle sign indicating number, thereby props up the molding frame. Meanwhile, the worker can adjust the height of the modeling frame by adjusting the position of the nut on the suspension rod.

Optionally, a flanging is integrally formed on the modeling cover along the edge, and a gap for placing the mounting rod is formed between the flanging and the modeling cover.

Through adopting above-mentioned technical scheme, the turn-ups can the cladding be around the molding frame to promote the compactness of being connected between molding cover and the molding frame, make the molding cover more firm on the molding frame.

Optionally, the modeling frame comprises a support frame, connecting rods inserted around the support frame and mounting rods fixedly arranged on the connecting rods, sockets matched with the connecting rods are formed around the support frame, and locking assemblies used for being fixed with the support frame are arranged on the connecting rods.

Through adopting above-mentioned technical scheme, fix between connecting rod and the support frame through using locking Assembly for can realize dismantling between connecting rod and the support frame, shared space is littleer when depositing or transporting. When the installation, can realize mutual connection, convenient and fast through pegging graft the connecting rod on the support frame.

Optionally, the locking assembly includes two sector gears hinged to two sides of the connecting rod respectively, a locking block fixedly arranged on the sector gears, a rack slidably arranged in the connecting rod, and an elastic member for resetting the rack, the rack is engaged with the two sector gears, a containing cavity for containing the sector gears and the locking block is arranged on the connecting rod, a slide for moving the rack is arranged on the connecting rod, and when the connecting rod is inserted into the socket, the locking block extends out of the containing cavity and abuts against the supporting frame.

Through adopting above-mentioned technical scheme, when pegging graft the connecting rod on the support frame, the locking piece receives the effect of support frame, and the locking piece is received in the holding chamber to make the connecting rod can normally pass the socket. After the connecting rod passes through the socket, the rack is restored to the original state under the action of the elastic piece, so that the locking block extends out of the accommodating cavity and abuts against the supporting frame.

Optionally, the elastic element is a spring arranged in the slideway, one end of the spring is fixed with the rack, and the other end of the spring is fixed with the connecting rod.

Through adopting above-mentioned technical scheme, the spring can exert the effort to the rack for the rack can drive sector gear and rotate, can control the locking piece and stretch out or income from the holding chamber when sector gear rotates.

Optionally, a limiting plate is fixedly arranged on the connecting rod, and when the connecting rod is inserted into the support frame, the limiting plate abuts against the bottom surface of the support frame.

Through adopting above-mentioned technical scheme, when the connecting rod is pegged graft on the support frame, the limiting plate supports the below at the support frame to with the position fixation of connecting rod on the support frame.

Optionally, a clamping groove is formed in the mounting rod, and a clamping block matched with the clamping groove is fixedly arranged on the turned edge.

Through adopting above-mentioned technical scheme, when installing the molding cover, with the molding cover lock on the molding frame for fixture block joint on the turn-ups is in the draw-in groove, thereby has realized the connection between molding cover and the molding frame.

Optionally, an angle steel is fixedly arranged on the turned edge, a blocking piece is arranged on the angle steel in a rotating mode, and the blocking piece can rotate to abut against the top surface of the supporting frame.

Through adopting above-mentioned technical scheme, when will molding the cover lock on the molding frame, rotate the separation blade for the separation blade supports on the top surface of support frame, and the separation blade has played the effect of support to the support frame, makes the molding cover fixed on the molding frame.

In a second aspect, the construction process of the soft membrane ceiling modeling base layer structure with the multi-monomer combination adopts the following technical scheme:

a construction process of a multi-monomer combined soft membrane ceiling modeling base layer structure comprises the following operation steps,

measuring the sizes of a suspended ceiling and a wall body, and marking the installation position of a suspender on the wall body after determining the elevation;

step two, buckling the modeling cover on the modeling frame and welding and fixing the modeling cover together;

and step three, connecting the modeling frame and the hanger rod together by using a nut.

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

1. when the suspended ceiling is installed, the hanger rod is fixed on the wall. The modeling frame is connected with the hanging rod by using the connecting piece, so that the modeling frame and the hanging rod are fixed. Whole furred ceiling structure simple structure, easy operation, construction convenience.

2. Through using locking Assembly to fix between connecting rod and the support frame for can realize dismantling between connecting rod and the support frame, the shared space is littleer when depositing or transporting. When the installation, can realize mutual connection, convenient and fast through pegging graft the connecting rod on the support frame.

Drawings

Fig. 1 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 2 is a schematic view of the overall structure of embodiment 2 of the present application.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a partially enlarged schematic view of a portion B in fig. 2.

Fig. 5 is a schematic view of the overall structure of embodiment 3 of the present application.

Fig. 6 is a partially enlarged schematic view of a portion C in fig. 5.

Reference numerals: 1. a boom; 11. an expansion bolt; 2. a modeling frame; 21. a support frame; 211. a socket; 22. a connecting rod; 221. an accommodating cavity; 222. a slideway; 23. mounting a rod; 231. a card slot; 3. a molding cover; 31. flanging; 311. a clamping block; 312. angle steel; 3121. a baffle plate; 4. corner connectors; 5. a nut; 61. a sector gear; 62. a locking block; 63. a rack; 64. a spring; 65. and a limiting plate.

Detailed Description

The technical solutions in the present application will be described in further detail below with reference to the accompanying drawings.

Example 1

The embodiment 1 of the application discloses a soft membrane smallpox molding base layer structure combined by multiple monomers. Referring to fig. 1, a multi-cell combined flexible film ceiling modeling base layer structure includes a hanger rod 1 fixedly disposed on a wall, a modeling frame 2 connected to a bottom end of the hanger rod 1, and a modeling cover 3 fixedly disposed on the modeling frame 2. The top end of the suspender 1 is fixedly provided with an expansion bolt 11 used for connecting with a wall body. In actual use, the shape of the shaping frame 2 can be adjusted according to the shape of the required suspended ceiling. At the bottom end of the boom 1 there is provided a connection for fixing the former 2. Wherein, the modeling frame 2 and the modeling cover 3 are welded, and after the welding is finished, the welding line is subjected to rust prevention treatment.

In the ceiling construction, through with a plurality of model frame 2 combinations concatenation together, constitute whole furred ceiling face to make the pattern of whole furred ceiling face more changeable.

Referring to fig. 1, corner connectors 4 are fixedly arranged around the modeling frame 2, the corner connectors 4 are welded to the modeling frame 2, and a weld joint is subjected to rust prevention treatment. One surface of the corner brace 4 is attached to the modeling frame 2, and the other surface of the corner brace 4 is connected with the hanging rod 1. The bottom end of the suspender 1 is provided with an external thread, and the suspender 1 is connected with a nut 5 by a thread. After the bottom end of the suspension rod 1 passes through the corner connector 4, the nut 5 is installed on the suspension rod 1, so that the nut 5 abuts against the lower part of the corner connector 4, and the corner connector 4 is supported.

Further, in order to improve the firmness of the profile frame 2 on the suspension rod 1, the number of the nuts 5 is increased to two. When the molding frame 2 is installed, a nut 5 is installed on the suspension rod 1, and then the molding frame 2 is installed so that the nut 5 abuts on the top surface of the corner brace 4. Then another nut 5 is installed, so that the other nut 5 abuts against the bottom surface of the corner brace 4, the position of the corner brace 4 is fixed, and the firmness of the modeling frame 2 on the suspension rod 1 is improved.

Further, referring to fig. 1, in order to enhance the firmness of the modeling cover 3 on the modeling frame 2, a flange 31 is integrally formed at the edge of the modeling cover 3. The flange 31 is bent upwards, and a gap for placing the mounting rod 23 is formed between the flange 31 and the modeling cover 3, so that the periphery of the modeling frame 2 is covered inside, and the modeling frame 2 and the modeling cover 3 are attached more tightly.

The embodiment 1 of the application also discloses a construction process of the soft membrane ceiling modeling base layer structure with multi-monomer combination, which comprises the following operation steps:

the method comprises the steps of firstly, measuring the size of the suspended ceiling, measuring a high-level line of a house, and marking the position of a suspender 1 on a wall body by using a marking pen after the elevation is determined.

And step two, buckling the modeling cover 3 on the modeling frame 2, and welding the modeling cover 3 on the modeling frame 2. And performing rust prevention treatment on the welding seams on the modeling cover 3 and the modeling frame 2.

And step three, drilling holes at the marked positions, installing expansion bolts 11 on the wall body, connecting the suspender 1 with the corner connectors 4, and fixing the positions of the corner connectors 4 by using nuts 5.

Example 2

The overall structure of the embodiment 2 is the same as that of the embodiment 1, and the following features are added: referring to fig. 2, the modeling frame 2 includes a support frame 21, a connecting rod 22 inserted around the support frame 21, and a mounting rod 23 fixed on the connecting rod 22. Wherein the axis of the connecting rod 22 and the axis of the mounting rod 23 are perpendicular to each other. The connecting rod 22 and the mounting rod 23 enclose an area on the support frame 21 for accommodating the mold shell 3 to be placed, so that the mounting rod 23 can extend between the flange 31 and the mold shell 3. A socket 211 matched with the connecting rod 22 is arranged on the periphery of the support frame 21, and a locking component used for being fixed with the support frame 21 is arranged at the top end of the connecting rod 22. When the worker installs the connecting rod 22, the connecting rod 22 is aligned with the inserting hole 211 on the supporting frame 21, and the connecting rod 22 is inserted into the supporting frame 21, so that the connecting rod 22 is fixed on the supporting frame 21.

The connecting rod 22 and the supporting frame 21 are detachably arranged, so that the occupied space is smaller during transportation or storage, and the space utilization is improved. Meanwhile, when the device is used, the installation is convenient and fast, and the construction difficulty is low.

Referring to fig. 2 and 3, the locking assembly includes two sector gears 61 respectively hinged to both sides of the connecting rod 22, a locking block 62 fixedly disposed on the sector gears 61, a rack 63 slidably disposed in the connecting rod 22, and an elastic member for restoring the rack 63. The two sector gears 61 are respectively located on two sides of the rack 63 and meshed with the rack 63, and when the rack 63 moves, the two sector gears 61 can be driven to rotate. The link 22 is provided with a receiving cavity 221 for receiving the sector gear 61 and the lock block 62, so that the lock block 62 can rotate into the receiving cavity 221.

Referring to fig. 2 and 3, a slide way 222 for moving the rack 63 is disposed on the connecting rod 22 along the axis, and the rack 63 is slidably connected to the slide way 222. The slide 222 is in communication with the receiving cavity 221 such that the rack 63 can extend into the receiving cavity 221. When the rack 63 moves towards the direction close to the accommodating cavity 221, the sector gear 61 is driven by the rack 63 to rotate, so that the lock block 62 is retracted into the accommodating cavity 221. When the rack 63 moves away from the receiving cavity 221, the sector gear 61 is driven by the rack 63 to rotate, so that the locking piece 62 protrudes from the receiving cavity 221.

Referring to fig. 3, the locking pieces 62 are wedge-shaped pieces, and when the connecting rod 22 is inserted into the supporting frame 21, the two locking pieces 62 are pressed into the accommodating cavity 221 under the action of the supporting frame 21, so that the connecting rod 22 can pass through the insertion opening 211. After the connecting rod 22 passes through the socket 211, the rack 63 is reset under the action of the elastic element, so that the locking piece 62 extends out of the accommodating cavity 221 and is abutted on the supporting frame 21, and the fixed connection between the connecting rod 22 and the supporting frame 21 is realized.

Referring to fig. 2, the elastic member is a spring 64 disposed in the slide 222. One end of the spring 64 is fixedly connected with the rack 63, and the other end of the spring 64 is fixedly connected with the connecting rod 22. When the spring 64 is in the original length state, the lock piece 62 extends out of the accommodating cavity 221, and when the lock piece 62 is received in the accommodating cavity 221, the spring 64 is in a stretched state. Alternatively, the elastic member may be an elastic object such as an elastic rope or a disc spring, so that the rack 63 is driven to return to the original shape after the external force is removed, and the locking piece 62 protrudes from the accommodating cavity 221.

Referring to fig. 2 and 3, in order to make the connecting rod 22 more stable on the supporting frame 21, a limiting plate 65 is fixedly disposed on the connecting rod 22. When connecting rod 22 is pegged graft in socket 211, limiting plate 65 can support on the bottom surface of support frame 21 to make locking piece 62 and limiting plate 65 support the upper and lower both sides at support frame 21 respectively, thereby further strengthened the fastness of connecting rod 22 on support frame 21.

Referring to fig. 2 and 4, the mounting rod 23 is provided with a plurality of slots 231 along the axial direction. The flange 31 is integrally provided with a latch 311 matching with the slot 231, and when the modeling cover 3 is fastened on the modeling frame 2, the latch 311 can be latched in the slot 231, so that the modeling cover 3 is fixed on the modeling frame 2. Wherein, the fixture block 311 is a wedge-shaped block, so that the molding cover 3 can be more conveniently and rapidly installed.

Example 3

The embodiment 3 has the same overall structure as the embodiment 2, except for the connection between the modeling cover 3 and the modeling frame 2: referring to fig. 5 and 6, an angle steel 312 is fixedly disposed around the flange 31, one surface of the angle steel 312 is fixedly connected to the flange 31, and a blocking plate 3121 is rotatably disposed on the other surface of the angle steel 312. When the modeling cover 3 is fastened to the modeling frame 2, the worker can fix the modeling cover 3 to the modeling frame 2 by rotating the blocking piece 3121 so that the blocking piece 3121 abuts against the mounting rod 23.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, 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 (10)

1. The utility model provides a many monomer combination's mantle smallpox molding basic unit structure which characterized in that: the wall modeling device comprises a hanging rod (1) fixedly arranged on a wall body, a modeling frame (2) connected with the hanging rod (1) and a modeling cover (3) fixedly arranged on the modeling frame (2), wherein a connecting piece used for fixing the modeling frame (2) is arranged on the hanging rod (1).

2. The flexible film smallpox of claim 1 wherein the substrate structure is a multi-monomer combination, wherein: the angle sign indicating number (4) is fixedly arranged on the modeling frame (2), the connecting piece is a nut (5) in threaded connection on the suspender (1), and the suspender (1) penetrates through the angle sign indicating number (4) so that the nut (5) abuts against the lower side of the angle sign indicating number (4).

3. The flexible film smallpox of claim 1 wherein the substrate structure is a multi-monomer combination, wherein: a flanging (31) is integrally formed on the modeling cover (3) along the edge, and a gap for placing the mounting rod (23) is formed between the flanging (31) and the modeling cover (3).

4. The flexible film smallpox of claim 1 wherein the substrate structure is a multi-monomer combination, wherein: the shaping frame (2) comprises a support frame (21), connecting rods (22) inserted around the support frame (21) and mounting rods (23) fixedly arranged on the connecting rods (22), sockets (211) matched with the connecting rods (22) are formed around the support frame (21), and locking assemblies used for being fixed with the support frame (21) are arranged on the connecting rods (22).

5. The multi-monomer combined soft film ceiling modeling infrastructure of claim 4, wherein: the locking assembly comprises two sector gears (61) hinged to two sides of a connecting rod (22) respectively, a locking block (62) fixedly arranged on the sector gears (61), a rack (63) arranged in the connecting rod (22) in a sliding mode and an elastic piece used for resetting the rack (63), the rack (63) is meshed with the two sector gears (61), an accommodating cavity (221) used for accommodating the sector gears (61) and the locking block (62) is formed in the connecting rod (22), a slide way (222) used for moving the rack (63) is formed in the connecting rod (22), and when the connecting rod (22) is inserted into an inserting opening (211), the locking block (62) extends out of the accommodating cavity (221) and abuts against a supporting frame (21).

6. The multi-monomer combined soft film ceiling modeling infrastructure of claim 5, wherein: the elastic piece is a spring (64) arranged in the slide way (222), one end of the spring (64) is fixed with the rack (63), and the other end of the spring (64) is fixed with the connecting rod (22).

7. The multi-monomer combined soft film ceiling modeling infrastructure of claim 4, wherein: a limiting plate (65) is fixedly arranged on the connecting rod (22), and when the connecting rod (22) is inserted into the support frame (21), the limiting plate (65) abuts against the bottom surface of the support frame (21).

8. The flexible film smallpox of claim 3 wherein the substrate structure is a multi-monomer combination, wherein: a clamping groove (231) is formed in the mounting rod (23), and a clamping block (311) matched with the clamping groove (231) is fixedly arranged on the flanging (31).

9. The flexible film smallpox of claim 3 wherein the substrate structure is a multi-monomer combination, wherein: an angle steel (312) is fixedly arranged on the flanging (31), a blocking piece (3121) is rotatably arranged on the angle steel (312), and the blocking piece (3121) can rotate to abut against the top surface of the support frame (21).

10. A construction process of a multi-monomer combined soft membrane ceiling modeling base layer structure is characterized by comprising the following operation steps:

measuring the sizes of a suspended ceiling and a wall body, and marking the installation position of a suspender (1) on the wall body after determining the elevation;

step two, buckling the modeling cover (3) on the modeling frame (2) and welding and fixing the modeling cover and the modeling frame together;

and step three, connecting the modeling frame (2) and the hanger rod (1) together by using a nut (5).

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