CN221346405U - Assembled lightweight steel structure conversion layer - Google Patents

Abstract

The utility model provides an assembled light steel structure conversion layer, which relates to the technical field of ornaments, and comprises a supporting beam and a fixing mechanism, wherein the outer side of the supporting beam is provided with the fixing mechanism, the fixing mechanism comprises an inclined strut component, a width adjusting component, a height adjusting component and a clamping component, the outer side of the supporting beam is provided with the inclined strut component, the front side and the rear side of the inclined strut component are respectively provided with the width adjusting component, the top end of the width adjusting component is provided with the height adjusting component, a fixing plate is fixed on the upper wall through a top fixing hole, the supporting beam is sleeved in an outer frame, the supporting beam is placed on the inner side of a fixing half frame, then the movable half frame is pushed in through a sliding groove, the supporting beam is clamped, then a bolt is inserted into a through hole, the bolt is fastened in a threaded hole at the bottom of the sliding groove, clamping buckles are arranged above two ends of the supporting beam, reverse supporting force is provided for the supporting beam, and the rocking of the supporting beam can be limited by the inclined strut and the clamping buckles.

Description

Assembled lightweight steel structure conversion layer

Technical Field

The utility model relates to the technical field of decorative articles, in particular to an assembled lightweight steel structure conversion layer.

Background

The assembled light steel structure converting layer is one kind of building method to add new layer onto available building, and the light steel structure is used as main building material, and the light steel structure has prefabricated wall board, floor slab, etc. and is assembled fast after being transported to site, and is assembled through screw connection, welding, etc. to complete the assembly of the structure, and then the decoration of inner and outer wall, floor, ceiling, etc. is performed.

Through searching, the patent number CN212427743U mentions an assembled light steel structure conversion layer for a grid suspended ceiling, the side surface of the lower end of a sliding block connecting piece is fixedly connected with a sliding block through a bolt, the side surface of the upper end of the sliding block connecting piece is fixedly connected with an angle steel connecting piece through a bolt, and the upper end of the angle steel connecting piece is connected with a grid bolt ball through a bolt; the middle of the net rack bolt ball is connected with a connecting rib through threads, the upper end of the connecting rib is fixedly connected with a hoop clamping piece through a nut, and the hoop clamping piece is sleeved outside the supporting cross rod. The utility model connects the conversion layer up and down through the grid bolt ball and the connecting rib, is convenient for split assembly, and the angle steel connecting piece and the sliding block connecting piece are used for facilitating the assembly of the construction structural layer, facilitating the use of thin-wall section steel, reducing the self weight of the structure, reducing the construction procedure, reducing the construction cost, improving the construction efficiency, avoiding the construction of the site building and dismantling the hall scaffold, facilitating the construction of other cross operation procedures and reducing the influence on the construction period.

Thus, we provide an assembled lightweight steel structural conversion layer that solves the above problems.

Disclosure of utility model

The utility model aims to provide an assembled lightweight steel structure conversion layer, which solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the assembled light steel structure conversion layer comprises a support beam and a fixing mechanism, wherein the fixing mechanism is arranged on the outer side of the support beam;

The fixing mechanism comprises an inclined strut assembly, a width adjusting assembly, a height adjusting assembly and a clamping assembly, wherein the inclined strut assembly is arranged on the outer side of the supporting beam, the width adjusting assemblies are arranged on the front side and the rear side of the inclined strut assembly, the height adjusting assemblies are arranged on the top ends of the width adjusting assemblies, and the clamping assemblies are arranged at the two ends of the supporting beam.

Preferably, the diagonal bracing assembly comprises an outer frame, diagonal bracing rods, fixing plates and top fixing holes, the outer frame is sleeved on the outer side of the supporting beam, the diagonal bracing rods are connected to the left side and the right side of the outer frame in a rotating mode, the fixing plates are fixedly connected to the top ends of the diagonal bracing rods, and the top fixing holes are formed in four corners of the top ends of the fixing plates.

Preferably, the width adjustment assembly comprises a fixed half frame, a sliding groove, threaded holes, a movable half frame, through holes and hanging rods, wherein the fixed half frame is arranged on the front side and the rear side of the outer frame, the sliding groove is formed in the top end of the fixed half frame, the threaded holes are formed in the bottom end of the sliding groove, the movable half frame is arranged on one side of the fixed half frame, the through holes are formed in the top end of the movable half frame, and the hanging rods are arranged on the inner side of the sliding groove.

Preferably, the fixed half frame is in sliding connection with the movable half frame through a sliding groove, and the suspender is fixedly connected with the fixed half frame.

Preferably, the height adjusting assembly comprises a fixing seat, adjusting holes, reinforcing ribs and an upper fixing hole, the outer side of the top end of the suspender is provided with the fixing seat, the adjusting holes are formed in one side of the fixing seat, the reinforcing ribs are welded on two sides of the fixing seat, and the upper fixing hole is formed in the top end of the fixing seat.

Preferably, the adjusting hole penetrates through the fixing seat, and the reinforcing ribs are symmetrically arranged on the central axis of the fixing seat.

Preferably, the clamping assembly comprises clamping buckles, clamping grooves and side fixing holes, the clamping buckles are arranged at two ends of the supporting beam, the clamping grooves are formed in the inner sides of the clamping buckles, and the side fixing holes are formed in the top ends of the clamping buckles.

Compared with the prior art, the utility model has the beneficial effects that:

1. Through the setting of fixed establishment, fix the fixing base, later align fixed with the hole on the jib and different regulation holes to adjust the height of supporting beam to certain height.

2. Fixing the fixed disk on the wall above through the top fixed orifices, sleeving the support beam in the outer frame, placing the support beam on the inner side of the fixed half frame, pushing the movable half frame into the support beam through the sliding groove, clamping the support beam, inserting the bolt into the through hole, fastening the bolt into the threaded hole at the bottom of the sliding groove, installing the clamping buckle above the two ends of the support beam, providing reverse supporting force for the support beam, and limiting the shaking of the support beam by the inclined stay rod and the clamping buckle.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the construction of the diagonal bracing assembly of the present utility model;

FIG. 3 is a schematic view of a width adjustment assembly according to the present utility model;

Fig. 4 is a schematic structural diagram of a clamping assembly according to the present utility model.

Reference numerals in the drawings: 1. a support beam; 2. a fixing mechanism; 21. a diagonal bracing assembly; 211. an outer frame; 212. a diagonal brace; 213. a fixed plate; 214. a top fixing hole; 22. a width adjustment assembly; 221. fixing the half frame; 222. a sliding groove; 223. a threaded hole; 224. a movable half frame; 225. a through hole; 226. a boom; 23. a height adjustment assembly; 231. a fixing seat; 232. an adjustment aperture; 233. reinforcing ribs; 234. an upper fixing hole; 24. a clamping assembly; 241. a clamping buckle; 242. a clamping groove; 243. side fixing holes.

Detailed Description

Referring to fig. 1-4, the present utility model provides a technical solution: the assembled light steel structure conversion layer comprises a support beam 1 and a fixing mechanism 2, wherein the fixing mechanism 2 is arranged on the outer side of the support beam 1;

The fixing mechanism 2 comprises a diagonal bracing assembly 21, a width adjusting assembly 22, a height adjusting assembly 23 and a clamping assembly 24, the diagonal bracing assembly 21 is arranged on the outer side of the supporting beam 1, the width adjusting assemblies 22 are arranged on the front side and the rear side of the diagonal bracing assembly 21, the height adjusting assembly 23 is arranged on the top end of the width adjusting assembly 22, and the clamping assemblies 24 are arranged on the two ends of the supporting beam 1.

Further, the diagonal bracing assembly 21 comprises an outer frame 211, diagonal bracing rods 212, fixing plates 213 and top fixing holes 214, the outer frame 211 is sleeved on the outer side of the supporting beam 1, the diagonal bracing rods 212 are rotatably connected to the left side and the right side of the outer frame 211, the fixing plates 213 are fixedly connected to the top ends of the diagonal bracing rods 212, the top fixing holes 214 are formed in four corners of the top ends of the fixing plates 213, the fixing plates 213 are fixed to the wall above through the top fixing holes 214, and the diagonal bracing rods 212 are symmetrically arranged in the middle of the outer frame 211, so that the outer frame 211 is stressed uniformly and cannot shake left and right.

Further, the width adjusting assembly 22 includes a fixed half frame 221, a sliding groove 222, a threaded hole 223, a movable half frame 224, a through hole 225 and a hanging rod 226, the fixed half frame 221 is disposed on both front and rear sides of the outer frame 211, the sliding groove 222 is disposed at the top end of the fixed half frame 221, the threaded hole 223 is disposed at the bottom end of the sliding groove 222, the movable half frame 224 is disposed at one side of the fixed half frame 221, the through hole 225 is disposed at the top end of the movable half frame 224, the hanging rod 226 is disposed at the inner side of the sliding groove 222, the fixed half frame 221 and the movable half frame 224 form a sliding connection, the hanging rod 226 is fixedly connected with the fixed half frame 221, the supporting beam 1 is disposed at the inner side of the fixed half frame 221, then the movable half frame 224 is pushed in through the sliding groove 222 to clamp the supporting beam 1, and then a bolt is inserted into the through hole 225 to fasten the bolt in the threaded hole 223 at the bottom of the sliding groove 222, so as to be suitable for supporting beams 1 with different widths.

Further, the height adjusting assembly 23 comprises a fixing seat 231, an adjusting hole 232, reinforcing ribs 233 and an upper fixing hole 234, the fixing seat 231 is arranged on the outer side of the top end of the suspender 226, the adjusting hole 232 is formed in one side of the fixing seat 231, the reinforcing ribs 233 are welded on two sides of the fixing seat 231, the upper fixing hole 234 is formed in the top end of the fixing seat 231, the adjusting hole 232 penetrates through the fixing seat 231, the reinforcing ribs 233 are symmetrically arranged in the middle axis with respect to the fixing seat 231, the reinforcing ribs 233 enable the fixing seat 231 to have a better supporting effect, and the purpose of adjusting the height of the supporting beam 1 is achieved by aligning and fixing holes on the suspender 226 with different adjusting holes 232.

Further, the clamping assembly 24 comprises a clamping buckle 241, a clamping groove 242 and side fixing holes 243, the clamping buckle 241 is arranged at two ends of the supporting beam 1, the clamping groove 242 is arranged at the inner side of the clamping buckle 241, the side fixing holes 243 are arranged at the top end of the clamping buckle 241, after the height of the supporting beam 1 is adjusted, the clamping buckle 241 is arranged above two ends of the supporting beam 1, a reverse supporting force is provided for the supporting beam 1, and shaking of the supporting beam 1 is limited in a certain range.

Working principle: firstly, an assembled light steel structure conversion layer is moved to a working position, firstly, a fixing seat 231 is fixed, then holes on a hanger rod 226 are aligned and fixed with different adjusting holes 232, so that the height of a supporting beam 1 is adjusted to a certain height, secondly, a fixing plate 213 is fixed on an upper wall through a top fixing hole 214, the supporting beam 1 is sleeved in an outer frame 211, then the supporting beam 1 is placed on the inner side of a fixed half frame 221, then a movable half frame 224 is pushed in through a sliding groove 222 to clamp the supporting beam 1, then a bolt is inserted into a through hole 225, the bolt is fastened in a threaded hole 223 at the bottom of the sliding groove 222, thirdly, a clamping buckle 241 is installed above two ends of the supporting beam 1 to provide reverse supporting force for the supporting beam 1, and shaking of the supporting beam 1 is limited in a certain range, so that the use process of the assembled light steel structure conversion layer is completed.

Claims (7)

1. The utility model provides an assembled lightweight steel construction conversion layer, includes supporting beam (1) and fixed establishment (2), its characterized in that: the outer side of the supporting beam (1) is provided with a fixing mechanism (2);

The fixing mechanism (2) comprises a diagonal bracing assembly (21), a width adjusting assembly (22), a height adjusting assembly (23) and a clamping assembly (24), the diagonal bracing assembly (21) is arranged on the outer side of the supporting beam (1), the width adjusting assemblies (22) are arranged on the front side and the rear side of the diagonal bracing assembly (21), the height adjusting assembly (23) is arranged on the top end of the width adjusting assembly (22), and the clamping assemblies (24) are arranged on the two ends of the supporting beam (1).

2. The assembled light steel structure conversion layer according to claim 1, wherein the diagonal bracing assembly (21) comprises an outer frame (211), diagonal bracing rods (212), a fixing plate (213) and top fixing holes (214), the outer side of the supporting beam (1) is sleeved with the outer frame (211), the diagonal bracing rods (212) are rotatably connected to the left side and the right side of the outer frame (211), the fixing plate (213) is fixedly connected to the top end of the diagonal bracing rods (212), and the top fixing holes (214) are formed in four corners of the top end of the fixing plate (213).

3. The fabricated light steel structure conversion layer according to claim 2, wherein the width adjusting component (22) comprises a fixed half frame (221), a sliding groove (222), a threaded hole (223), a movable half frame (224), a through hole (225) and a hanging rod (226), the fixed half frame (221) is arranged on the front side and the rear side of the outer frame (211), the sliding groove (222) is formed in the top end of the fixed half frame (221), the threaded hole (223) is formed in the bottom end of the sliding groove (222), the movable half frame (224) is arranged on one side of the fixed half frame (221), the through hole (225) is formed in the top end of the movable half frame (224), and the hanging rod (226) is arranged on the inner side of the sliding groove (222).

4. A fabricated lightweight steel structure conversion layer according to claim 3, wherein the fixed half frame (221) is slidably connected to the movable half frame (224) through a sliding groove (222), and the boom (226) is fixedly connected to the fixed half frame (221).

5. The fabricated light steel structure conversion layer according to claim 4, wherein the height adjusting assembly (23) comprises a fixing seat (231), an adjusting hole (232), a reinforcing rib (233) and an upper fixing hole (234), the fixing seat (231) is arranged on the outer side of the top end of the suspender (226), the adjusting hole (232) is formed in one side of the fixing seat (231), the reinforcing ribs (233) are welded on two sides of the fixing seat (231), and the upper fixing hole (234) is formed in the top end of the fixing seat (231).

6. The assembled light steel structure conversion layer according to claim 5, wherein the adjusting hole (232) penetrates through the fixing seat (231), and the reinforcing ribs (233) are symmetrically arranged in a central axis with respect to the fixing seat (231).

7. The fabricated light steel structure conversion layer according to claim 1, wherein the clamping assembly (24) comprises clamping buckles (241), clamping grooves (242) and side fixing holes (243), the clamping buckles (241) are respectively arranged at two ends of the supporting beam (1), the clamping grooves (242) are formed in the inner sides of the clamping buckles (241), and the side fixing holes (243) are formed in the top ends of the clamping buckles (241).