CN210342560U - Dry-type worker method aerial decoration subassembly - Google Patents

Abstract

The utility model discloses a built on stilts subassembly of decoration of dry-type worker method, including the carriage body, this carriage body comprises the frame support that interior braced frame and one or more mutual lock joint link together, and the pouring is in every frame support interior braced frame to make interior braced frame and interior braced frame integrated into one piece, this interior braced frame is cellular and downward protrusion pouring in the region that the frame support surrounded, interior braced frame upper surface with the upper surface of frame support is in same horizontal plane be provided with supporting screw around the bottom surface edge of frame support and on interior braced frame's the bottom surface respectively. The utility model discloses can realize installing fast, simple to operate, the performance is firm moreover to quick leveling spare realizes the flattening, has improved speed and the efficiency that built on stilts decoration assembly installation was laid, has also reduced the degree of difficulty that water pipe or wire tube of built on stilts decoration assembly below installation overhauld.

Description

Dry-type worker method aerial decoration subassembly

Technical Field

The utility model relates to a ground decoration technical field especially relates to a dry-type worker method is built on stilts to be decorated subassembly.

Background

With the improvement of science and technology and the improvement of living standard, people also have higher and higher requirements on the decoration of indoor residences, offices or other places, but because the laying area is larger, a plurality of floor tiles are needed to be spliced for installation and laying, and then the indoor decoration can be carried out completely. Before the floor is installed and laid, the whole ground is required to be leveled (leveled) so as to keep the ground after the floor is installed flat. In the prior art, before installing and laying floor tiles, water pipes, electric wires, floor heating pipes and the like are generally laid on the ground, then cement mortar is adopted for leveling (leveling), and then the floor tiles are laid on the leveled cement mortar. The method for installing and laying floor tiles on the ground has the following defects: firstly, a water pipe, an electric wire pipe or a ground heating pipe is difficult to maintain or repair once being installed, so that certain potential safety hazards exist in the use process of the water pipe, the electric wire pipe or the ground heating pipe; secondly, the labor intensity of workers is increased in the cement paste leveling (leveling) process; thirdly, for the ground with a large area, the ground leveled (leveled) by cement paste often has certain fluctuation, which is difficult to meet the requirement of flatness, and the time required by the ground curing is long, thus prolonging the construction period.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a built on stilts subassembly of decorating of dry-type worker method, the utility model discloses a built on stilts subassembly of decorating can realize installing fast, simple to operate, and the performance is firm moreover to quick leveling spare realizes making level (flattening), has reduced the degree of difficulty that water pipe or electric wire tube of built on stilts subassembly below installation overhauld. In order to realize the purpose, the utility model discloses a following technological effect:

according to an aspect of the utility model, a dry-type worker method built on stilts decoration subassembly is provided, including the carriage body, this carriage body comprises interior support frame and the frame support that one or more mutual lock joints are linked together, and the pouring is in every frame support interior support frame to make interior support frame and interior support frame integrated into one piece, this interior support frame is cellular and downward protrusion pouring in the region that frame support surrounded, interior support frame upper surface with the upper surface of frame support is in same horizontal plane be provided with supporting screw around the bottom surface edge of frame support 1 and on interior support frame's the bottom surface respectively.

Above-mentioned scheme is preferred, is provided with the bar around the upper surface edge of frame support and buckles the interface, and frame support between adjacent inserts through the spill draw-in groove and carries out mutual lock joint connection to shape lock joint intraoral.

Preferably, the edge of the upper surface of the frame support is provided with an L-shaped step, and the L-shaped step is horizontally arranged along the edge extending direction of the frame support.

Above-mentioned scheme is preferred, still is provided with the shape of falling T parting bead between adjacent bar knot interface in the recess center of spill draw-in groove just is provided with along the length direction of recess and blocks the strip along the shape of falling T.

According to the preferable scheme, the frame support is internally provided with the reinforcing frames which are criss-cross, square areas are formed in the reinforcing frames which are criss-cross and between the frame support and the reinforcing frames, the inner supporting frames are poured in the square areas in a honeycomb shape, supporting hole columns which penetrate through the upper surface and the lower surface are respectively arranged at the intersections of the reinforcing frames which are criss-cross and around the edges of the frame support, and the supporting screw penetrates into the supporting hole columns and is used for supporting the frame support and the reinforcing frames.

According to the above scheme, preferably, the hexagonal nut is sleeved at the upper end of the supporting screw, the hexagonal concave groove for placing the hexagonal nut is formed in the lower end of the supporting hole column, and when the supporting screw penetrates out of the lower end of the supporting hole column to the upper end of the supporting hole column, the hexagonal nut is completely or partially embedded in the hexagonal concave groove.

Preferably, the lower end of the supporting screw is provided with a supporting cushion block perpendicular to the supporting screw.

Above-mentioned scheme is preferred, is provided with strip-shaped breach or hexagon socket head cap groove at the upper end cross-section of support screw.

Preferably, a layer of honeycomb reinforcing frame is further arranged on the upper surface of the honeycomb inner supporting frame, the lower surface of the honeycomb reinforcing frame protrudes downwards from the honeycomb frame of the inner supporting frame and then is connected with the inner supporting frame in a pouring mode, and the upper surface of the honeycomb reinforcing frame and the upper surface of the frame support are in the same horizontal plane.

Preferably, in the above scheme, the honeycomb density of the honeycomb reinforcing frame is greater than that of the inner support frame.

To sum up, because the utility model adopts the above technical scheme, the utility model discloses following technological effect has:

the utility model provides an overhead decoration subassembly can realize making level (flattening) through quick leveling spare, set up a plurality of support screw rods on the lower surface of frame support and inner support frame and realize quick adjustment, can carry out the floor of mating formation fast and make a plurality of floors fill up ground in the upper surface of honeycomb inner support frame in the leveling to can guarantee that a plurality of floors are located same horizontal plane, simplified the process of making level, reduced intensity of labour, accelerated construction speed, guaranteed the roughness on the ground of large tracts of land; and the water pipe or the electric wire pipe and the like can be laid below the frame support and the inner support frame, no cement needs to be poured, and the difficulty in maintenance and overhaul of the water pipe or the electric wire pipe and the like in the using process is reduced.

Drawings

Fig. 1 is a schematic view of a three-dimensional installation structure of a first embodiment of an overhead decoration assembly of a dry construction method according to the present invention;

FIG. 2 is a top view of an overhead decorative component of the present invention;

FIG. 3 is a bottom view of the dry construction overhead trim component of the present invention;

FIG. 4 is a cross-sectional view of an overhead decorative component of a dry construction method of the present invention;

fig. 5 is a schematic view of an edge structure of an inner support frame of the present invention;

fig. 6 is a schematic structural view of another embodiment of the concave card slot of the present invention;

fig. 7 is a schematic structural view of another embodiment of the support screw of the present invention;

FIG. 8 is a schematic view of a second embodiment of a three-dimensional installation structure of an overhead decoration module according to the present invention;

in the drawing, a frame support 1, an inner support frame 2, a support screw 3, a honeycomb reinforcing frame 4, a strip buckle port 10, a concave clamping groove 10a, an inverted T-shaped clamping strip 10b, a concave channel 10c, an L-shaped step 11, an inverted T-shaped partition strip 12, a support frame body 20, a hexagon nut 30, a support cushion block 31, a strip notch 32, an inner hexagon groove 33, a hexagon concave groove 103, a reinforcing frame 100, a square area 101, a support hole column 102 and a floor 200.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and by referring to preferred embodiments. It should be understood, however, that the numerous specific details set forth in the specification are merely set forth to provide a thorough understanding of one or more aspects of the present invention, which may be practiced without these specific details.

In the first embodiment, as shown in fig. 1, 2 and 3, an overhead decoration assembly according to a dry construction method of the present invention includes a support frame body 20, which is composed of an inner support frame 2 and one or more frame supports 1 fastened to each other, the inner support frame 2 is cast in each frame support 1, so that the inner support frame 1 and the inner support frame 2 are integrally formed to form the support frame body, the inner support frame 2 is honeycomb-shaped and is cast in a downward protruding manner in an area surrounded by the frame supports 1, an upper surface of the inner support frame 2 and an upper surface of the frame support 1 are in the same horizontal plane, support screws 3 are respectively disposed around a bottom surface edge of the frame support 1 and on a bottom surface of the inner support frame 2, the frame support 1 has a length not greater than 1600mm and a width not greater than 800mm, the height of the frame support 1 is not more than 7mm-12mm, the thickness is 3mm-6mm, the inner support frame 2 is formed in the frame support 1 in a honeycomb shape through one-time pouring and stamping, the support strength of the whole overhead decoration assembly is improved, and the heights of the frame support 1 and the inner support frame 2 can be adjusted by adjusting the support screw 3. In the utility model, the strip fastening ports 10 are arranged around the upper surface edge of the frame support 1, the adjacent frame supports 1 are inserted into the strip fastening ports 10 through the concave clamping grooves 10a for mutual fastening connection, the upper surface edge of the frame support 1 is provided with the L-shaped steps 11, the L-shaped steps 11 are horizontally arranged along the edge extending direction of the frame support 1, the concave clamping grooves 10a are adopted for splicing a plurality of frame supports 1, when decorating indoors, after the water pipes or the electric wire pipes are laid, the frame support 1 can be quickly laid with the floor 200 on the ground to be decorated, then when the floor 200 is conveniently laid on the upper surfaces of the frame support 1 and the inner supporting frame 2, the floor 200 is full of the whole ground, and the concave clamping grooves 10a can be quickly detached, the quick assembly and disassembly of the overhead decoration component is realized, the floor 200 is not laid by cement mortar in the whole decoration process, in the utility model, as shown in fig. 2, fig. 4 and fig. 5, an inverted T-shaped separation strip 12 is further arranged between adjacent strip-shaped buckle interfaces 10, an inverted T-shaped clamping strip 10b is arranged in the center of the groove of the concave clamping groove 10a and along the length direction of the groove, as shown in fig. 4 and fig. 6, the height of the inverted T-shaped clamping strip 10b is less than or equal to the groove depth of the concave clamping groove 10a, when a plurality of frame brackets 1 are mutually buckled and connected together, a concave channel 10c is formed between the adjacent frame brackets 1 through an L-shaped step 11, as the best embodiment of the utility model, an inverted T-shaped separation strip 12 is arranged in the concave channel 10c between the adjacent strip-shaped buckle interfaces 10, and the bottom surface of the inverted T-shaped clamping strip 10b in the concave clamping groove 10a is tightly stretched across two L-shaped steps 11 through glue, the bottom surface of the inverted T-shaped division bar 12 is tightly attached to the concave channel 10c formed by the two L-shaped steps 11 in a crossing mode through glue, the width of the inverted T-shaped clamping bar 10b is smaller than or equal to the groove width of the concave clamping groove 10a (the groove width of the concave channel 10 c), the width of the inverted T-shaped division bar 12 is smaller than or equal to the groove width of the concave channel 10c, the inverted T-shaped clamping bar 10b and the inverted T-shaped division bar 12 can not only pull the adjacent frame supports 1, but also prevent mutual extrusion between the frame supports 1, and also play a waterproof role in gaps between the adjacent frame supports 1. When the floor boards 200 are installed and laid, as shown in fig. 2, the inverted T-shaped division bar 12 can be arranged between the adjacent floor boards to facilitate the pulling action on the floor boards 200, the size of the inverted T-shaped division bar 12 arranged between the adjacent floor boards is smaller than that of the inverted T-shaped division bar 12 arranged in the concave channel 10c, and the other structures are the same, so that the risk of expansion caused by mutual extrusion between the floor boards 200 is prevented.

In the present invention, more specifically, with reference to fig. 2 and 3, the inside of the frame bracket 1 is provided with the reinforcing frames 100 which are vertically and horizontally staggered with each other, a square area 101 is formed between the frame bracket 1 and the reinforcing frame 100 from the inside of the reinforcing frames 100 which are vertically and horizontally staggered with each other, the inside of the reinforcing frame 2 is poured in the square area 101 in a honeycomb manner, the inside of the reinforcing frame 2 which is formed in the direction area 101 of the reinforcing frame 100 is poured in a honeycomb manner, the inside of the reinforcing frame 2 which is in a honeycomb manner and the reinforcing frame 100 are formed into a supporting surface in the frame bracket 1, the cross section of the reinforcing frame 100 which is vertically and horizontally staggered with each other and the edge of the frame bracket 1 are respectively provided with the supporting hole columns 102 which run through the upper and lower surfaces, the supporting screw 3 penetrates into the supporting hole columns 102 for supporting the frame bracket 1 and the reinforcing frame, The inner support frame 2 and the frame support 1 are integrated to form an overhead supporting decoration assembly, a support surface formed by the inner support frame 2 and the reinforcing frame 100 is poured into the frame support 1, the formed support surface and the frame support 1 are in the same horizontal plane, as shown in fig. 4 and 5, a hexagonal nut 30 is sleeved at the upper end of the support screw 3, a hexagonal concave groove 103 for placing the hexagonal nut 30 is formed in the lower end of the support hole column 102, when the support screw 3 penetrates upwards from the lower end of the support hole column 102 to the upper end of the support hole column 102, the hexagonal nut 30 is completely or partially embedded into the hexagonal concave groove 103, a support cushion block 31 perpendicular to the support screw 3 is arranged at the lower end of the support screw 3, the support cushion block 31 is made of metal or resin, as shown in fig. 5 and 7, a strip-shaped notch 32 or an inner hexagonal groove 33 is arranged on the upper end section of the support screw 3, during construction, the hexagonal nut 30 is embedded into the hexagonal recessed groove 103, glue (such as hot melt adhesive or glass cement) is coated on the edge of the hexagonal nut 30 and the edge of the inner wall of the hexagonal recessed groove 103, so that the hexagonal nut 30 is fixed in the hexagonal recessed groove 103, the support screw 3 is screwed into the hexagonal nut 30 and penetrates upwards to the upper end of the support hole column 102, and the upper end of the support screw 3 is lower than the plane of the reinforcing frame 100 or is flush with the plane of the reinforcing frame 100, after the support screw 3 at the edge of the frame bracket 1 is set, the support screw 3 can be properly arranged at the intersection of the reinforcing frames 100 (on the surface of the frame bracket 1) which are criss-cross with each other as required, so that when the floor 200 is conveniently laid and installed, the support strength of the whole overhead support decoration assembly is improved, a 'I' -shaped screwdriver is inserted into the strip-shaped notch 32, or use hexagon socket head wrench (hexagon socket head cap screw driver) to insert in hexagon depressed groove 103, make its up-and-down motion in hexagon nut 30 when rotating supporting screw 3, thereby realize adjusting supporting screw 3's height and accomplish whole built on stilts support and decorate the level adjustment of subassembly, realize the process that the carriage body was made level (leveled), after the completion of making level, rubber coating is carried out on supporting cushion 31, make supporting screw 3 fix steadily subaerial be unlikely to remove or rock, and can guarantee on same horizontal plane at a plurality of carriage bodies, the process of making level has been simplified, the labor intensity is reduced, the installation of laying on floor has been made things convenient for.

In the second embodiment, as shown in fig. 8, according to the present invention, a dry construction method overhead decoration assembly comprises a supporting frame body 20, which is composed of an inner supporting frame 2 and one or more frame supports 1 fastened to each other, the inner supporting frame 2 is cast in each frame support 1, so that the inner supporting frame 1 and the inner supporting frame 2 are integrally formed to form the supporting frame body, the inner supporting frame 2 is honeycomb-shaped and downwardly protruded and cast in the region surrounded by the frame supports 1, the upper surface of the inner supporting frame 2 and the upper surface of the frame support 1 are in the same horizontal plane, supporting screws 3 are respectively disposed around the bottom edge of the frame support 1 and on the bottom surface of the inner supporting frame 2, and during leveling (leveling), the horizontal height of the whole overhead supporting decoration assembly can be adjusted by adjusting the height of the supporting screws 3, the process of leveling the supporting frame bodies is completed, and the supporting frame bodies can be guaranteed to be on the same horizontal plane, so that the labor intensity is reduced, and the floor is convenient to lay and install. As a second embodiment of the present invention, a layer of honeycomb-shaped reinforcing frame 4 is further disposed on the upper surface of the honeycomb-shaped inner supporting frame 2, and the lower surface of the honeycomb-shaped reinforcing frame 4 is protruded downward from the interior of the honeycomb-shaped frame of the inner supporting frame 2 and then connected to the inner supporting frame 2 by casting, and the upper surface of the honeycomb-shaped reinforcing frame 4 and the upper surface of the frame bracket 1 are in the same horizontal plane; the honeycomb density of the honeycomb reinforcing frame 4 is greater than that of the inner support frame 2, the honeycomb thicknesses of the two layers are different (the upper layer is dense and the lower layer is sparse), and the support strength of the whole support frame body is improved. The strip-shaped buckle port 10 is arranged around the edge of the upper surface of the frame support 1, and fig. 4 and 5 can be referred to, the frame support 1 between adjacent frames is inserted into the shape buckle port 10 through the concave clamping groove 10a to be buckled and connected with each other, the edge of the upper surface of the frame support 1 is provided with the L-shaped step 11, the L-shaped step 11 is horizontally arranged along the edge extending direction of the frame support 1, the concave clamping groove 10a is adopted to splice a plurality of frame supports 1, when the indoor decoration is finished, a water pipe or a wire pipe is laid, the floor 200 can be quickly laid on the ground needing decoration by the frame support 1, the labor intensity is reduced, the laying and installation speed and efficiency of the floor are improved, cement does not need to be poured in the laying and installation process, and the maintenance and overhauling difficulty of the water pipe or the wire pipe and the like in the using process is reduced.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A dry-type worker method is maked somebody a mere figurehead and decorates subassembly which characterized in that: including the carriage body, this carriage body comprises interior support frame and one or more frame support that mutual lock joint links together, pours in every frame support interior support frame to make interior support frame and interior support frame integrated into one piece, this interior support frame be cellular and downward protrusion pouring in the region that frame support surrounded, interior support frame upper surface with frame support's upper surface is in same horizontal plane be provided with supporting screw around the bottom surface edge of frame support and on interior support frame's the bottom surface respectively.

2. The dry construction method overhead decoration assembly of claim 1, wherein: the strip-shaped buckle ports are arranged on the periphery of the edge of the upper surface of the frame support, and the frame supports between adjacent frames are inserted into the strip-shaped buckle ports through the concave clamping grooves to be mutually buckled and connected.

3. A dry construction overhead decoration unit as claimed in claim 1 or 2, wherein: the edge of the upper surface of the frame support is provided with an L-shaped step which is horizontally arranged along the extending direction of the edge of the frame support.

4. The dry construction method overhead decoration assembly of claim 2, wherein: an inverted T-shaped separation strip is further arranged between the adjacent strip-shaped buckle interfaces, and an inverted T-shaped clamping strip is arranged in the center of the groove of the concave clamping groove and along the length direction of the groove.

5. A dry construction overhead decoration unit as claimed in claim 1 or 2, wherein: the frame support is internally provided with reinforcing frames which are mutually criss-cross, square areas are formed in the reinforcing frames which are mutually criss-cross and between the frame support and the reinforcing frames, the inner supporting frames are poured in the square areas in a honeycomb shape, supporting hole columns which penetrate through the upper surface and the lower surface are respectively arranged at the intersections of the reinforcing frames which are mutually criss-cross and around the edges of the frame support, and the supporting screw rods penetrate into the supporting hole columns and are used for supporting the frame support and the reinforcing frames.

6. The dry construction method overhead decoration assembly of claim 5, wherein: the support screw is characterized in that a hexagonal nut is sleeved at the upper end of the support screw, a hexagonal concave groove used for placing the hexagonal nut is formed in the lower end of the support hole column, and the hexagonal nut is completely or partially embedded into the hexagonal concave groove when the support screw penetrates out of the lower end of the support hole column to the upper end of the support hole column.

7. The dry construction method overhead decoration assembly of claim 5, wherein: and a supporting cushion block which is vertical to the supporting screw rod is arranged at the lower end of the supporting screw rod.

8. The dry construction method overhead decoration assembly of claim 5, wherein: the section of the upper end of the supporting screw rod is provided with a strip-shaped gap or an inner hexagonal groove.

9. A dry construction overhead decoration unit as claimed in claim 1 or 2, wherein: the upper surface of the honeycomb-shaped inner support frame is also provided with a layer of honeycomb-shaped reinforcing frame, the lower surface of the honeycomb-shaped reinforcing frame protrudes downwards from the interior of the honeycomb-shaped inner support frame and then is connected with the inner support frame in a pouring way, and the upper surface of the honeycomb-shaped reinforcing frame and the upper surface of the frame bracket are in the same horizontal plane.

10. A dry construction overhead trim component as claimed in claim 9, wherein: the honeycomb density of the honeycomb reinforcing frame is larger than that of the inner support frame.

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