CN220925057U - Fixing structure for transporting large thin-wall pipe fitting - Google Patents

Abstract

The utility model discloses a fixing structure for transporting large thin-wall pipe fittings, which solves the problems that the existing large thin-wall pipe fittings are not easy to fix and easy to deform in transportation. The utility model has the advantages of extremely simple structure, convenient disassembly and assembly, good fixing effect and effective prevention of deformation caused by transportation vibration.

Description

Fixing structure for transporting large thin-wall pipe fitting

Technical Field

The utility model relates to a fixing device for parts, in particular to a fixing structure for transporting large thin-wall pipe fittings.

Background

The Wuhan lotus Hua Si Buddha tower golden top is composed of an outer wall plate and an inner framework, wherein the inner framework is of a stressed main structure and is completed simultaneously in the bottom building construction stage, and the outer wall plate is a pipe fitting of a thin-wall structure and is manufactured by a professional manufacturing plant and transported to a construction site for installation. The lightweight design is considered, the outer wall plate is made of lightweight materials, is a thin-wall structure component, has a diameter of 6m and a height of about 10m, is free of a supporting structure after being manufactured, is transported in a horizontal mode, is influenced by dead weight, has a compression deformation trend in the vertical direction, has a smooth curved surface on the outer surface, is easy to deform in the transportation process, and directly influences later installation. In fact, because of the unpredictable vibration problem in the transportation process, how to effectively fix large-diameter thin-wall pipe fittings in the transportation process, and avoid the deformation problem caused by the effective fixation, is always a technical problem which is difficult to overcome.

Disclosure of Invention

The utility model aims to solve the technical problems and provide the fixing structure for transporting the large thin-wall pipe fitting, which has the advantages of extremely simple structure, convenient disassembly and assembly, good fixing effect and effective prevention of deformation caused by transportation vibration.

The technical scheme includes that the support leg is located the both ends of center stay tube, the outer wall of center stay tube is connected with the inner wall of large-scale thin wall pipe fitting through multiunit connecting rod, and every connecting rod of group includes at least three connecting rods of evenly distributed on the same cross-section of large-scale thin wall pipe fitting.

The connecting rod is a telescopic rod.

The connecting rod comprises an upper rod, a lower rod and a connecting screw sleeve which is sleeved at the end parts of the upper rod and the lower rod in a threaded manner.

Lifting lugs are correspondingly arranged on the inner wall of the large thin-wall pipe fitting and the outer wall of the central supporting pipe, and two ends of the connecting rod are hinged with the inner wall of the large thin-wall pipe fitting and the outer wall of the central supporting pipe respectively through the lifting lugs.

The two ends of the connecting rod positioned at the end part of the large thin-wall pipe fitting are fixedly connected with the inner wall of the large thin-wall pipe fitting and the outer wall of the central supporting pipe respectively, and the two ends of other connecting rods are hinged with the inner wall of the large thin-wall pipe fitting and the outer wall of the central supporting pipe respectively through the lifting lugs.

The hinging direction of the connecting rod and the inner wall of the large thin-wall pipe fitting is perpendicular to the hinging direction of the connecting rod and the outer wall of the central supporting pipe.

According to the utility model, the central supporting tube with the supporting legs is used as a main supporting structure, the supporting acting force is transmitted to the large thin-wall pipe fitting by the connecting rod, on one hand, the connecting rod is a telescopic rod, the extending length can be reasonably adjusted according to the gap, the connecting rod is adjusted to apply tension or pressure to the large thin-wall pipe fitting, and the deformation trend of the large thin-wall pipe fitting under the dead weight is reduced or counteracted; on the other hand, the connecting rod is in flexible connection with the inner wall of the large thin-wall pipe fitting and the outer wall of the central supporting pipe in a hinged mode, so that vibration impact in the transportation process can be relieved; preferably, the hinging direction of the connecting rod and the inner wall of the large thin-wall pipe fitting is perpendicular to the hinging direction of the connecting rod and the outer wall of the central supporting pipe, and the tendency of the outer wall plate to deviate to one side can be eliminated while shock absorption is carried out.

The utility model has the advantages of extremely simple structure, convenient disassembly and assembly, good fixing effect and effective prevention of deformation caused by transportation vibration.

Drawings

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

Fig. 2 is a right side view of the present utility model.

Figure 3 is a schematic view of a partial installation of a connecting rod.

Wherein, 1-large thin-wall pipe fitting, 2-connecting rod, 2.1-upper rod, 2.2-lower rod, 2.3-connecting screw sleeve, 2.4-bolt and 3-lifting lug; 4-center support tube, 5-stabilizer blade.

Detailed Description

The utility model is further explained below with reference to the drawings:

referring to fig. 1 and 2, the supporting legs 5 are located at two ends of the central supporting tube 4, and are used for supporting the central supporting tube 4, the outer wall of the central supporting tube 4 is connected with the inner wall of the large thin-wall pipe fitting 1 through a plurality of groups of connecting rods 2, and each group of connecting rods 2 comprises at least three connecting rods 2 (four connecting rods 2 in this embodiment) uniformly distributed on the same section of the large thin-wall pipe fitting 1.

Preferably, the connecting rod 2 is a telescopic rod, can bear stretching and compression, slows down vibration and impact of a large thin-wall pipe fitting in the transportation process, avoids large deformation, realizes various telescopic structures, and preferably comprises an upper rod, a lower rod and a connecting screw sleeve sleeved at the end parts of the upper rod and the lower rod through threads. The ends of the upper rod and the lower rod are provided with threads, and the upper rod and the lower rod are connected through the threads by utilizing a connecting threaded sleeve, so that the function of adjusting the extension length is realized.

The two ends of the connecting rod 2 positioned at the two end parts of the large thin-wall pipe fitting 1 are fixedly connected (such as welding and the like) with the inner wall of the large thin-wall pipe fitting 1 and the outer wall of the central supporting pipe 4 respectively, and the two ends of other connecting rods 2 are hinged with the inner wall of the large thin-wall pipe fitting 1 and the outer wall of the central supporting pipe 4 respectively through the lifting lugs 3. The hinging direction of the connecting rod 2 and the inner wall of the large thin-wall pipe fitting 1 is perpendicular to the hinging direction of the connecting rod 2 and the outer wall of the central supporting pipe 4, and specifically: one hinge point is hinged along the axial direction of the large thin-wall pipe fitting 1, and the other hinge point is hinged along the radial direction of the large thin-wall pipe fitting 1, so that the tendency of deflection to one side when the large thin-wall pipe fitting 1 vibrates can be effectively reduced.

During installation, the large thin-wall pipe fitting 1 is sleeved outside the central supporting pipe 4, after the connecting rod 2 is adjusted to a proper length, two ends of the connecting rod are respectively hinged with the inner wall of the large thin-wall pipe fitting 1 and the outer wall of the central supporting pipe 4 through the lifting lugs 2, the connecting rod is locked by bolts 2.4 to form flexible connection, and the lifting lugs 2 can be pre-installed on the inner wall of the large thin-wall pipe fitting 1 and the outer wall of the central supporting pipe 4. The two end surfaces of the large thin-wall pipe fitting 1 are directly welded and fixed with the connecting rod 2 to form rigid connection, and finally, the supporting legs 5 are arranged at the two ends of the central supporting pipe 4, so that the assembly and the disassembly are convenient.

After the fixing structure for transportation is adopted, the fixing effect on the large thin-wall pipe fitting 1 is good, deformation caused by transportation vibration is effectively avoided, and the reliable installation in the later stage is ensured.

Claims (6)

1. The utility model provides a large-scale thin wall pipe fitting transportation is with fixed knot constructs, includes the stabilizer blade, its characterized in that, the stabilizer blade is located the both ends of center stay tube, the outer wall of center stay tube is connected with the inner wall of large-scale thin wall pipe fitting through multiunit connecting rod, and every connecting rod of group includes at least three connecting rods of evenly distributed on the same cross-section of large-scale thin wall pipe fitting.

2. The large thin-walled tube transportation securing structure of claim 1, wherein the connecting rod is a telescoping rod.

3. The fixing structure for transporting large thin-walled pipe fittings according to claim 2, wherein the connecting rod comprises an upper rod, a lower rod and a connecting screw sleeve screwed on the ends of the upper rod and the lower rod.

4. A fixing structure for transporting large thin-wall pipe fittings according to any one of claims 1-3, wherein lifting lugs are correspondingly arranged on the inner wall of the large thin-wall pipe fittings and the outer wall of the central supporting pipe, and two ends of the connecting rod are hinged with the inner wall of the large thin-wall pipe fittings and the outer wall of the central supporting pipe respectively through the lifting lugs.

5. The fixing structure for transporting large thin-walled pipe fittings according to claim 4, wherein both ends of the connecting rod at the end of the large thin-walled pipe fitting are fixedly connected with the inner wall of the large thin-walled pipe fitting and the outer wall of the central supporting pipe, respectively, and both ends of the other connecting rods are hinged with the inner wall of the large thin-walled pipe fitting and the outer wall of the central supporting pipe, respectively, through the lifting lugs.

6. The large thin-walled tube transportation fixing structure according to claim 4, wherein the hinge direction of the connecting rod and the inner wall of the large thin-walled tube is perpendicular to the hinge direction of the connecting rod and the outer wall of the central support tube.