CN213897751U - Novel soft membrane ceiling mounting structure - Google Patents

Abstract

The utility model belongs to the architectural decoration field especially relates to a novel mantle smallpox mounting structure, and it includes the fixed plate of being connected with the furred ceiling, and the fixed plate is connected with the installation component, and the installation component includes mounting panel and elastic component, mounting panel and fixed plate fixed connection, and the joint hole that is used for joint elastic component is offered to the bottom surface of mounting panel, and the elastic component is located the downthehole inseparable butt in pore wall with the joint hole of joint, and the elastic component is connected with coupling assembling, and coupling assembling is connected with fossil fragments. This application has when dismantling the mantle, reduces the damaged phenomenon of mantle, promotes mantle reuse rate's effect.

Description

Novel soft membrane ceiling mounting structure

Technical Field

The application relates to the architectural decoration field, especially relates to a novel mantle smallpox mounting structure.

Background

The soft film ceiling 3 is an indoor decoration material widely used, and is used together with the lamp 41 to decorate the indoor, and the soft film ceiling 3 comprises three parts of a soft film 31, a button strip 33 and a keel 32.

Before installing the soft membrane ceiling 3, firstly install the lamps 41 on the ceiling 4, then install the soft membrane ceiling 3, under the general condition, install multiunit soft membrane 31 ceiling 3 on the ceiling 4, leave the interval between two sets of adjacent soft membrane 31 ceilings 3. The method for installing the soft film ceiling 3 at present mainly comprises the following steps: firstly, a fixing plate 1 for fixing the keel 32 is fixedly connected to the ceiling 4, so that a gap is reserved between the lamp 41 and the soft film 31; then, the keel 32 is fixedly connected with the suspended ceiling 4 through the fixing plate 1; then, a button edge strip 33 is arranged at the edge of the ceiling 3 of the soft film 31; finally, the edge fastening strip 33 is clamped and embedded into the clamping groove 321 of the keel 32, so that the clamping groove 321 limits the edge fastening strip 33, and the connection between the edge fastening strip 33 and the keel 32 is completed; when the lamp 41 is damaged and the soft film 31 needs to be detached, the edge fastening strips 33 together with the soft film 31 are pulled out from the clamping grooves 321 of the keels 32, and then the lamp 41 is replaced.

In view of the above-mentioned related art, the inventors believe that the flexible film is easily damaged when the flexible film ceiling is disassembled, resulting in a low recycling rate of the flexible film.

SUMMERY OF THE UTILITY MODEL

In order to reduce when dismantling the mantle smallpox, damage the probability of mantle, this application provides a novel mantle smallpox mounting structure.

The application provides a pair of novel mantle smallpox mounting structure adopts following technical scheme:

the utility model provides a novel mantle smallpox mounting structure, includes the fixed plate of being connected with the furred ceiling, and the fixed plate is connected with the installation component, and the installation component includes mounting panel and elastic component, mounting panel and fixed plate fixed connection, and the joint hole that is used for joint elastic component is offered to the bottom surface of mounting panel, and the elastic component is located the joint downthehole and closely the butt in pore wall in joint hole, and the elastic component is connected with coupling assembling, and coupling assembling is connected with fossil fragments.

By adopting the technical scheme, when the soft membrane ceiling is installed, firstly, the soft membrane is installed on the keel, then the elastic piece is connected with the keel through the connecting component, then the elastic piece is compressed and placed in the clamping hole, the elastic piece moves to drive the connecting component to move, and the connecting component moves to drive the keel to move together with the soft membrane; when the elastic piece is positioned in the clamping hole, the acting force applied to the elastic piece is removed. The elastic component extends, and the both ends of elastic component all with the inseparable butt in pore wall in joint hole, accomplish the installation to the mantle smallpox. When the soft film ceiling is detached, firstly, a hand is stretched into the gap between the two groups of soft film ceilings to apply downward acting force to the keel, and the elastic piece contracts after receiving the downward acting force due to the elasticity of the elastic piece and is separated from the clamping hole. After the connection of the clamping hole to the elastic piece is released, the soft membrane ceiling and the elastic piece are separated from the ceiling fixing plate. After the soft membrane ceiling is integrally taken down, the soft membrane is taken out from the clamping groove of the keel. Adopt traditional mounting means, when dismantling the mantle, the fossil fragments are located and are connected with the furred ceiling, and the staff stretches into the clearance department of two sets of mantle smallpox with the hand, takes out the mantle from the draw-in groove of fossil fragments, and the gap between adjacent two sets of mantle smallpox is less, when dismantling the mantle, dismantles inconveniently to tear the mantle easily. Mounting panel, joint hole, elastic component and coupling assembling's setting makes things convenient for the staff to tear the whole dismantlement from the furred ceiling of mantle sky ring, then dismantles the mantle from fossil fragments again, and operating space scope is big, conveniently takes off the mantle, reduces the mantle by the probability of shredding, makes things convenient for the reuse of mantle.

Optionally, the elastic component is a spring, the stretching direction of the spring is the horizontal direction, the two ends of the spring are tightly abutted to the hole wall of the clamping hole, and the spring is connected with the connecting assembly.

By adopting the technical scheme, after the soft film ceiling is installed, the spring and the keel are connected through the connecting assembly, then the spring is compressed, the spring is placed in the clamping hole, then the acting force applied to the spring is relieved, the spring extends, the two ends of the spring are tightly abutted against the inner wall of the clamping hole, the spring is fixed, and then the keel is installed; when dismantling the mantle, stretch into the gap department between adjacent two sets of mantle ceilings with the hand, apply decurrent effort to the fossil fragments, fossil fragments downstream drives coupling assembling downstream, and coupling assembling and spring all receive decurrent effort, and the spring is crooked to deviate from in the joint hole. And taking the spring and the soft membrane ceiling down, and taking the soft membrane out of the keel. The spring is arranged, the structure is simple, and the operation is convenient.

Optionally, the outer diameter of the spring is larger than the depth of the clamping hole, the bottom end of the spring is lower than the bottom surface of the connecting plate, and the top end of the spring is higher than the top surface of the connecting plate.

By adopting the technical scheme, the bottom end of the spring is lower than the bottom surface of the connecting plate, so that the spring can be conveniently acted by hands, the convenience of installing the spring into the clamping hole can be improved, and the convenience of taking the spring out of the clamping hole can be improved; in addition, reduce the probability that the spring deviates from the joint is downthehole, can promote the stability of spring in the joint is downthehole, and then can promote the stability of mantle smallpox, and then can reduce the probability that fossil fragments dropped, promote the security of mantle smallpox.

Optionally, the one end that the mantle smallpox was kept away from to the mounting panel to two tip of spring all extends and forms the joint pole, and the top of two joint poles is kept away from the setting each other.

Through adopting above-mentioned technical scheme, during the installation spring, at first extrude two joint poles for the top of two joint poles is close to each other, stretches into the joint hole and passes the joint hole with the top of joint pole, and the both ends of up to the spring all with the inseparable butt of inner wall in joint hole, and then accomplish the installation to the mantle smallpox. When dismantling the mantle smallpox, exert decurrent effort to the fossil fragments, fossil fragments downstream drives coupling assembling and spring downstream, and the spring downstream drives the joint pole downstream, and the top of joint pole is close to each other to deviate from in following the joint hole. After the joint pole stretches out the joint hole, the butt of joint pole and mounting panel, the mounting panel supports the joint pole, and then can promote the stability of spring, reduces the probability that the spring is deviate from the joint hole, and then can reduce the phenomenon that the mantle smallpox drops from the furred ceiling and injures people or miscellaneous garrulous article by a crashing object, promotes the stability and the security that the mantle smallpox is connected.

Optionally, one end of the clamping rod, which is far away from the spring, is bent towards a direction far away from each other to form a butting rod.

Through adopting above-mentioned technical scheme, when the mistake touched fossil fragments and lead to fossil fragments downstream, fossil fragments downstream drove spring and joint pole downstream, until butt joint pole and mounting panel butt. The setting of butt joint pole can reduce the mistake and touch the probability that fossil fragments lead to the joint pole to deviate from the joint hole, and then can reduce the phenomenon that the mantle smallpox drops from the furred ceiling and injures people or miscellaneous garrulous article, promotes the stability and the security that the mantle smallpox is connected.

Optionally, coupling assembling includes connecting rod and link plate, and the connecting rod sets up in the spring, and the one end of connecting rod stretches out the outer downwarping of spring, forms the joint semi-ring, and the other end of connecting rod is connected with the connecting plate outside stretching out the spring, and the connecting plate is connected with fossil fragments.

Through adopting above-mentioned technical scheme, when connecting fossil fragments and spring, stretch into the spring with the joint semi-ring can. The structure is simple, and the operation is convenient; in addition, the strength of the spring is reduced after the spring is used for a period of time, and when the spring needs to be replaced, the clamping semi-ring is taken out of the spring. The arrangement of the clamping semi-ring, the connecting rod and the hanging plate facilitates the connection of the keel and the spring, and the structure is simple and the operation is convenient.

Optionally, be equipped with first retaining member between connecting rod and the link plate, first retaining member is first lock bolt, and first lock bolt passes behind the connecting rod and link plate threaded connection.

Through adopting above-mentioned technical scheme, when connecting link plate and connecting rod, it can to screw up first locking bolt. The arrangement of the first locking bolt is simple in structure and convenient to operate. The setting of first locking bolt for when joint semi-ring and spring coupling, at first, keep away from the connecting rod in the one end of joint semi-ring stretches into the spring, then screw up first locking bolt can, first locking bolt's setting is conveniently linked together fossil fragments and spring, simple structure, convenient operation.

Optionally, be equipped with the second retaining member between link plate and the fossil fragments, the second retaining member is second locking bolt, second locking bolt screw thread pass behind the link plate with fossil fragments threaded connection.

Through adopting above-mentioned technical scheme, with the good back of mantle smallpox equipment, screw up the second locking bolt and accomplish the connection to fossil fragments and link plate. The second locking part is arranged, the structure is simple, the operation is convenient, the detachable connection of the keel and the hanging plate can be realized, and then the repeated utilization of the hanging plate and the keel can be realized.

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

the setting of fixed plate, mounting panel, spring and connecting rod, joint semi-ring and link plate can realize the whole dismantlement of mantle smallpox and fixed plate and be connected, and then can conveniently dismantle the whole back down of mantle smallpox, take off the mantle, reduce the phenomenon of tearing the mantle.

The stability of spring can be promoted in the setting of joint pole, and then can promote the stability and the security of mantle smallpox installation.

The setting of butt joint pole for after fossil fragments are touched the downward movement by the mistake, the top surface butt of butt joint pole and mounting panel reduces the phenomenon that the joint pole is deviate from the joint hole, and then can reduce the phenomenon that fossil fragments dropped from the furred ceiling, promotes the stability and the security of mantle smallpox.

Drawings

Fig. 1 is a schematic view of a related art structure.

Fig. 2 is a schematic structural diagram of an embodiment of the present application.

Fig. 3 is a partial structural sectional view of the embodiment of the present application.

Description of reference numerals: 1. a fixing plate; 11. mounting the component; 111. mounting a plate; 1111. a clamping hole; 112. a spring; 1121. a clamping and connecting rod; 1122. a butting rod; 2. a connecting assembly; 21. hanging the plate; 211. a second locking bolt; 22. a connecting rod; 221. clamping the semi-rings; 222. a first locking bolt; 3. soft film ceilings; 31. a soft film; 32. a keel; 321. a card slot; 33. edge buckling strips; 4. a suspended ceiling; 41. a luminaire.

Detailed Description

The present application is described in further detail below with reference to figures 2-3.

The embodiment of the application discloses novel mantle smallpox mounting structure. Combine fig. 2 and fig. 3, a novel mantle ceiling mounting structure includes fixed plate 1 with 4 fixed connection of furred ceiling, and fixed plate 1 is connected with installation component 11, and installation component 11 includes mounting panel 111 and elastic component, and mounting panel 111 and fixed plate 1 are connected, and the joint hole 1111 that is used for the joint elastic component is offered to mounting panel 111's bottom surface, and the elastic component is located joint hole 1111 interior and the inseparable butt of pore wall in joint hole 1111, and the elastic component is connected with fossil fragments 32.

When the soft film ceiling 3 is installed, the soft film ceiling 3 is assembled, then the elastic piece is compressed, and the elastic piece is placed in the clamping hole 1111; then, the compression on the elastic piece is released, and the two ends of the elastic piece are tightly abutted to the hole wall of the clamping hole 1111, so that the connection between the keel 32 and the fixing plate 1 is completed; when dismantling mantle smallpox 3, exert decurrent effort to fossil fragments 32, fossil fragments 32 moves down and drives the elastic component downstream, and the elastic component is deviate from in the joint hole 1111. After the soft membrane ceiling 3 is taken down, the soft membrane 31 is taken out from the clamping groove 321 of the keel 32.

Referring to fig. 2 and 3, the mounting plate 111 is a horizontally disposed rectangular plate-shaped structure, and one end of the mounting plate 111 in the length direction is fixedly connected to the bottom end of the fixing plate 1. The bottom surface at mounting panel 111 is seted up in joint hole 1111, and the cross-section in joint hole 1111 is the rectangle, and joint hole 1111 runs through the thickness of mounting panel 111. The elastic component is spring 112, and the flexible direction of spring 112 is the same with the length direction of joint hole 1111, and the length when spring 112 does not receive the force is greater than the length of joint hole 1111, and the external diameter of spring 112 is greater than the thickness of mounting panel 111, and the top of spring 112 is higher than the top surface of mounting panel 111, and the bottom of spring 112 is less than the bottom surface of mounting panel 111, and the both ends of spring 112 respectively with two inseparable butts of inner wall at joint hole 1111 length direction both ends.

Referring to fig. 3, two ends of the spring 112 extend to the upper side of the mounting plate 111 to form a clamping rod 1121, the length of the clamping rod 1121 is greater than the depth of the clamping hole 1111, the top ends of the two clamping rods 1121 are away from each other, and the peripheral surface of the clamping rod 1121 is abutted to the hole wall of the clamping hole 1111. The top of joint pole 1121 is to the direction bending type that keeps away from each other and is connect pole 1122, and the length of connect pole 1122 is less than the length in joint hole 1111, and the one end that connects pole 1122 to keep away from joint pole 1121 is crooked to the direction that is close to joint pole 1121.

After assembling pellicular roof 3, rebound pellicular roof 3, pellicular roof 3 remove and drive spring 112 and remove, and the top of until joint pole 1121 is towards joint hole 1111, then the top of two joint poles 1121 of extrusion for joint pole 1121 passes joint hole 1111, and two tip of spring 112 and the inseparable butt of the pore wall of joint hole 1111 accomplish the fixed to pellicular roof 3. When the soft membrane 31 needs to be detached, the keel 32 is pulled downwards, the keel 32 moves downwards to drive the soft membrane 31 to move downwards, and meanwhile, the spring 112 and the clamping rod 1121 are driven to move downwards until the abutting rod 1122 abuts against the top surface of the mounting plate 111; after the top surface butt of butt pole 1122 and mounting panel 111, drive two joint poles 1121 and be close to each other, two joint poles 1121 are close to each other and are driven butt pole 1122 and be close to each other, until butt pole 1122 from joint hole 1111 interior roll-off. Finally, after the whole soft membrane ceiling 3 is taken out of the clamping hole 1111, the soft membrane 31 is taken out of the clamping groove 321 of the keel 32.

Referring to fig. 2, a connection assembly 2 is arranged between the spring 112 and the keel 32, the connection assembly 2 includes a connection rod 22 and a hanging plate 21, the connection rod 22 is located in the spring 112, the length direction of the connection rod is the same as the extension direction of the spring 112, the connection rod 22 abuts against the inner circumferential surface of the spring 112, one end of the connection rod 22 extends out of the spring 112 and is bent downwards to form a clamping half ring 221, and the other end of the connection rod 22 extends out of the spring 112 and is connected with the hanging plate 21. The hanging plate 21 is a vertically arranged rectangular plate-shaped structure, and the top end of the hanging plate 21 is connected with one end of the connecting rod 22 far away from the clamping semi-ring 221.

Referring to fig. 3, a first locking member is arranged between the connecting rod 22 and the hanging plate 21, the first locking member is a first locking bolt 222, the first locking bolt 222 is located above the connecting rod 22, and the first locking bolt 222 penetrates through the connecting rod 22 in a threaded manner to be connected with the hanging plate 21.

Referring back to fig. 2, keel 32 is located on one side of hanging plate 21 close to clamping semi-ring 221, a second locking member is arranged between hanging plate 21 and keel 32, the second locking member is a second locking bolt 211, second locking bolt 211 is located on one side of hanging plate 21 far away from keel 32, and second locking bolt 211 penetrates through hanging plate 21 and keel 32 in threaded connection.

After the soft film ceiling 3 is assembled, the second locking bolt 211 is screwed down, one end of the connecting rod 22 far away from the clamping semi-ring 221 penetrates through the spring 112, the first locking bolt 222 is screwed down, and finally the spring 112 is clamped and embedded into the clamping hole 1111.

The implementation principle of the novel soft membrane ceiling mounting structure provided by the embodiment of the application is as follows: when the soft film ceiling 3 is installed, firstly, the keel 32 and the spring 112 are connected through the hanging plate 21, the second locking bolt 211, the connecting rod 22 and the first locking bolt 222; then move fossil fragments 32 upwards, until the top of joint pole 1121 is located the below of joint hole 1111, extrude two joint poles 1121 to the direction that is close to each other to make the top of joint pole 1121 pass joint hole 1111, after spring 112 is located the position of joint hole 1111, extrude spring 112, place spring 112 in joint hole 1111. When the soft film 31 is taken down, the keel 32 is pulled downwards, the keel 32 moves downwards to drive the hanging plate 21, the connecting rod 22 and the spring 112 to move downwards, and the spring 112 moves downwards to drive the clamping rod 1121 and the abutting rod 1122 to move downwards until the abutting rod 1122 abuts against the top end of the mounting plate 111; then, the two clamping rods 1121 are extruded towards the direction close to each other, so that the abutting rod 1122 is separated from the clamping hole 1111; the soft membrane ceiling 3 is taken down from the ceiling 4, and then the soft membrane 31 is taken out from the clamping groove 321 of the keel 32.

Mounting panel 111, joint hole 1111, spring 112 and connecting rod 22 and link plate 21's setting for when dismantling mantle 31, can take off the whole from furred ceiling 4 of mantle smallpox 3, later take out the mantle 31 from the draw-in groove 321 of fossil fragments 32 again, reduce the phenomenon of damaging mantle 31, promote the reuse to mantle 31, reduce cost.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above 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 (8)

1. The utility model provides a novel mantle smallpox mounting structure, includes fixed plate (1) of being connected with furred ceiling (4), its characterized in that: fixed plate (1) is connected with installation component (11), installation component (11) are including mounting panel (111) and elastic component, mounting panel (111) and fixed plate (1) fixed connection, joint hole (1111) that are used for joint elastic component are offered to the bottom surface of mounting panel (111), the elastic component is located joint hole (1111) interior and the inseparable butt of pore wall in joint hole (1111), the elastic component is connected with coupling assembling (2), coupling assembling (2) are connected with fossil fragments (32).

2. The novel soft film ceiling mounting structure of claim 1, wherein: the elastic component is spring (112), and the flexible direction of spring (112) is the horizontal direction, and the both ends of spring (112) all with the pore wall of joint hole (1111) closely butt, spring (112) are connected with coupling assembling (2).

3. The novel soft film ceiling mounting structure of claim 2, wherein: the clamping hole (1111) penetrates through the thickness of the mounting plate (111), the outer diameter of the spring (112) is larger than the thickness of the mounting plate (111), the bottom end of the spring (112) is lower than the bottom surface of the mounting plate (111), and the top end of the spring (112) is higher than the top surface of the mounting plate (111).

4. The novel soft film ceiling mounting structure of claim 2, wherein: two ends of the spring (112) extend towards one end, away from the soft membrane smallpox (3), of the mounting plate (111) to form clamping rods (1121), and the top ends of the two clamping rods (1121) are arranged away from each other.

5. The novel soft film ceiling mounting structure of claim 4, wherein: one end of the clamping rod (1121) far away from the spring (112) is bent towards the direction far away from each other to form a butting rod (1122).

6. The novel soft film ceiling mounting structure of claim 1, wherein: coupling assembling (2) include connecting rod (22) and link plate (21), and connecting rod (22) set up in spring (112), and the one end of connecting rod (22) is stretched out spring (112) and is outer downwarping, forms joint semi-ring (221), and the other end of connecting rod (22) is connected with link plate (21) outside stretching out spring (112), and link plate (21) are connected with fossil fragments (32).

7. The novel soft film ceiling mounting structure of claim 6, wherein: be equipped with first retaining member between connecting rod (22) and link plate (21), first retaining member is first lock bolt (222), and first lock bolt (222) pass behind connecting rod (22) and link plate (21) threaded connection.

8. The novel soft film ceiling mounting structure of claim 6, wherein: be equipped with the second retaining member between link plate (21) and fossil fragments (32), the second retaining member is second locking bolt (211), and second locking bolt (211) screw thread passes link plate (21) back and fossil fragments (32) threaded connection.

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