CN220616831U - Storage assembly for glass fiber composite pipe - Google Patents

Abstract

The utility model discloses a storage component for glass fiber composite tubes, wherein each glass fiber composite tube needs at least two support components, and each support component comprises an upper fixing frame, a lower fixing frame and a positioning plate; the two sides of the opposite ends of the upper fixing frame and the lower fixing frame are symmetrically provided with connecting pieces respectively; the locating plate is provided with a channel; the glass fiber composite pipe penetrates through the channel, and the inner diameter of the channel is not smaller than the outer diameter of the glass fiber composite pipe; after the upper fixing frame and the lower fixing frame are buckled up and down, the positioning plate is fixed between the upper fixing frame and the lower fixing frame after being connected by the connecting piece; one end of the upper fixing frame far away from the lower fixing frame is fixedly provided with a positioning assembly; the support assemblies may be stacked in a vertical direction; the lower fixing frame part of the supporting component positioned on the upper layer is embedded in the positioning component of the upper fixing frame positioned on the lower layer, and the glass fiber composite pipe can be supported and suspended by using at least two supporting components, so that the glass fiber composite pipe is protected.

Description

Storage assembly for glass fiber composite pipe

Technical Field

The utility model belongs to the technical field of storage, and particularly relates to a storage assembly for a glass fiber composite tube.

Background

The glass fiber composite air pipe is a novel air pipe developed for being suitable for new technology and new materials, and is formed by special processing and compounding based on superfine fiber plates, so that a glass fiber composite pipe product is obtained. After the product processing is finished, the product cannot be transported to a customer at the first time, the glass fiber composite tube needs to be temporarily stored in a warehouse, the glass fiber composite tube easily rolls, the glass fiber composite tube is stacked in order to fully utilize the warehouse space, but the glass fiber composite tube is of a hollow structure and has heavy weight, and the stacking can definitely lead to deformation or damage of the glass fiber composite tube.

Disclosure of Invention

The utility model aims to provide a storage component for a glass fiber composite tube, which aims to solve the problem that the glass fiber composite tube is difficult to stack for storage in the background technology.

In order to solve the technical problems, the aim of the utility model is realized as follows:

a storage assembly for glass fiber composite pipes, each glass fiber composite pipe needs at least two support assemblies, and each support assembly comprises an upper fixing frame, a lower fixing frame and a positioning plate; connecting pieces are symmetrically arranged on two sides of opposite ends of the upper fixing frame and the lower fixing frame respectively; the positioning plate is provided with a channel; the glass fiber composite pipe penetrates through the channel, and the inner diameter of the channel is not smaller than the outer diameter of the glass fiber composite pipe;

after the upper fixing frame and the lower fixing frame are buckled up and down, the positioning plate is fixed between the upper fixing frame and the lower fixing frame after being connected by the connecting piece;

one end of the upper fixing frame, which is far away from the lower fixing frame, is fixedly provided with a positioning assembly;

the support assemblies may be stacked in a vertical direction; the lower fixing frame part of the supporting component positioned on the upper layer is embedded in the positioning component of the upper fixing frame positioned on the lower layer.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the connecting piece comprises a first fixing lug and a second fixing lug which are respectively and symmetrically fixed on the outer edges of opposite ends of the upper fixing frame and the lower fixing frame, and a first bolt hole and a second bolt hole are respectively formed in the first fixing lug and the second fixing lug; and nuts are screwed after the bolts pass through the first bolt holes and the second bolt holes.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the locating plate is of a half-section structure and is divided into an upper half locating plate and a lower half locating plate.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the upper fixing frame and the lower fixing frame are U-shaped, and are mutually buckled to form a rectangular locating plate accommodating cavity, and the locating plate is partially embedded in the locating plate accommodating cavity.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: an upper clamping groove is formed in the upper fixing frame, and a lower clamping groove is formed in the lower fixing frame; the upper half positioning plate is partially embedded in the upper fixing frame, and the lower half positioning plate is embedded in the lower fixing frame.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the locating plate is rectangular.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the upper fixing frame and the lower fixing frame are made of steel; the locating plate is made of wood.

Compared with the prior art, the utility model has the following outstanding and beneficial technical effects: the glass fiber composite pipe penetrates into the channel through the upper fixing frame, the lower fixing frame and the positioning plate, so that the glass fiber composite pipe can be supported and suspended by using at least two supporting components, and the glass fiber composite pipe is protected; and set up locating component on last mount, then when stacking in the direction of height, the lower fixed bolster of upper strata inlays and locates in the locating component of the upper fixed bolster that is located the lower floor to realize steadily stacking, and every layer of glass fiber composite pipe that stacks all has two at least supporting component unsettles, then the weight in the stacking process just all is exerted on upper mount, locating plate and lower fixed bolster, once transmits ground, thereby avoids glass fiber composite pipe to receive upper strata weight extrusion, leads to deformation and damage's problem. In addition, the locating plate is half-sectioned into an upper half locating plate and a lower half locating plate, so that the locating plate can be wrapped outside the glass fiber composite pipe through up-down buckling, and the locating plate is more convenient and quicker than the installation mode of sleeving the locating plate into the glass fiber composite pipe.

Drawings

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

FIG. 2 is a schematic view of the disassembled structure of the present utility model;

FIG. 3 is a schematic illustration of an inventive fixed glass fiber composite tubular state;

FIG. 4 is a schematic view of the connection structure of the upper and lower holders;

fig. 5 is a schematic view of a stacked structure of glass fiber composite tubes.

Description of the embodiments

For the purposes of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings in the embodiments, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments, based on the examples given, which a person of ordinary skill in the art would obtain without undue burden, are within the scope of protection of the present application.

In the description of the present application, it should be understood that the azimuth or positional relationship indicated by the terms "upper", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of description of the present application and to simplify the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present application.

In the description of the present application, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

As shown in connection with fig. 1-5, the present application discloses a warehouse assembly for glass fiber composite tubes, each glass fiber composite tube requiring at least two support assemblies 10, each support assembly comprising an upper mount 11, a lower mount 12, and a positioning plate 13; the two sides of the opposite ends of the upper fixing frame 11 and the lower fixing frame 12 are symmetrically provided with connecting pieces respectively, specifically, the connecting pieces comprise a first fixing lug 111 and a second fixing lug 121 which are symmetrically fixed on the outer edges of the opposite ends of the upper fixing frame 11 and the lower fixing frame 12 respectively, and a first bolt hole 1111 and a second bolt hole 1211 are respectively formed in the first fixing lug 111 and the second fixing lug 121; after passing through the first bolt hole 1111 and the second bolt hole 1211, the bolt 14 is screwed with a nut 15, thereby achieving a fixed connection of the mountain holder 11 and the lower holder 12. In this embodiment, the positioning plate 13 is provided with a channel 131; the glass fiber composite tube is arranged in the channel 131 in a penetrating way, and the inner diameter of the channel is not smaller than the outer diameter of the glass fiber composite tube, so that after the glass fiber composite tube is arranged in the channel, the external force only acts on the upper fixing plate 11, the lower fixing plate 12 and the positioning plate 13, thereby avoiding the damage or deformation of the glass fiber composite tube caused by the external force. After being buckled up and down through the upper fixing frame 11 and the lower fixing frame 12, the positioning plate 13 is fixed between the upper fixing frame 11 and the lower fixing frame 12 after being connected by a connecting piece. Further preferably, the upper fixing frame 11 and the lower fixing frame 12 are U-shaped, and after being mutually buckled, the two are enclosed to form a rectangular locating plate accommodating cavity, and the locating plate 13 is partially embedded in the locating plate accommodating cavity, so that the assembly and the locating of the locating plate and the upper fixing frame 11 and the lower fixing frame 12 are realized.

Of course, in order to improve space utilization, it is preferable in the present embodiment that the support assemblies 10 may be stacked in a vertical direction; preferably, a positioning component is fixedly arranged at one end of the upper fixing frame 11 far away from the lower fixing frame 12; the lower fixing frame 12 of the supporting component 10 positioned at the upper layer is partially embedded in the positioning component of the upper fixing frame 11 positioned at the lower layer.

Furthermore, if the positioning plate 13 is sleeved outside the glass fiber composite tube, the sleeving becomes very difficult due to the long length of the glass fiber composite tube and the large total amount. For this reason, the positioning plate 13 of the present embodiment is preferably a half-cut structure, and is divided into an upper half positioning plate 13b and a lower half positioning plate 13a. The upper fixing frame 11 is provided with an upper clamping groove 112, and the lower fixing frame 12 is provided with a lower clamping groove 122; the upper half positioning plate 13b is partially embedded in the upper fixing frame 11, and the lower half positioning plate 13a is embedded in the lower fixing frame 12. The positioning plate 13 is preferably rectangular, so that the structure of the upper fixing frame and the lower fixing frame can be matched better, and the processing is convenient. Moreover, the connecting structure of the locating plate, the upper fixing frame and the lower fixing frame can process the corresponding inner diameter of the locating plate channel according to the glass fiber composite pipes with different pipe diameters, so that when the glass fiber composite pipes with different pipe diameters are stored and used, the corresponding locating plate is only required to be replaced, the universality of the supporting component is improved, and the use cost is reduced.

Of course, in order to improve the strength of the whole support assembly, in this embodiment, the upper fixing frame 11 and the lower fixing frame 12 are preferably made of steel, and the fixed connection is performed by welding after the fixed length cutting can be performed by selecting channel steel according to the requirement; of course, in order to conveniently realize the positioning assembly, the channel steel with the width larger than that of the lower fixing frame 12 can be completely selected to be welded on the edge of the upper end of the upper fixing frame 11, so that the lower fixing frame 12 is positioned. Meanwhile, in order to prevent the positioning plate 13 in contact with the glass fiber composite tube from scratching the surface thereof, the positioning plate 13 of the present embodiment is preferably made of wood, which is perforated and cut to obtain an upper half positioning plate 13b, a lower half positioning plate 13a, and a passage.

The above embodiments are only preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (7)

1. The storage subassembly for the glass fiber composite tube is characterized in that: each glass fiber composite tube requires at least two support assemblies (10), and each support assembly comprises an upper fixing frame (11), a lower fixing frame (12) and a positioning plate (13); connecting pieces are symmetrically arranged on two sides of opposite ends of the upper fixing frame (11) and the lower fixing frame (12) respectively; a channel (131) is formed in the positioning plate (13); the glass fiber composite tube is arranged in the channel (131) in a penetrating way, and the inner diameter of the channel is not smaller than the outer diameter of the glass fiber composite tube;

after the upper fixing frame (11) and the lower fixing frame (12) are buckled up and down, the positioning plate (13) is fixed between the upper fixing frame and the lower fixing frame after being connected by the connecting piece;

one end of the upper fixing frame (11) far away from the lower fixing frame (12) is fixedly provided with a positioning assembly;

the support assembly (10) is stackable in a vertical direction; the lower fixing frame (12) of the supporting component (10) positioned at the upper layer is partially embedded in the positioning component of the upper fixing frame (11) positioned at the lower layer.

2. A warehouse assembly for a fiberglass composite in accordance with claim 1, wherein: the connecting piece comprises a first fixing lug (111) and a second fixing lug (121) which are respectively and symmetrically fixed on the outer edges of opposite ends of the upper fixing frame (11) and the lower fixing frame (12), and a first bolt hole (1111) and a second bolt hole (1211) are respectively formed in the first fixing lug (111) and the second fixing lug (121); a nut (15) is screwed after the bolt (14) passes through the first bolt hole (1111) and the second bolt hole (1211).

3. A warehouse assembly for a fiberglass composite in accordance with claim 2, wherein: the positioning plate (13) is of a half-section structure and is divided into an upper half positioning plate (13 b) and a lower half positioning plate (13 a).

4. A warehouse component for a fiberglass composite pipe as claimed in claim 3, wherein: the upper fixing frame (11) and the lower fixing frame (12) are U-shaped, a rectangular locating plate accommodating cavity is enclosed after the upper fixing frame and the lower fixing frame are buckled with each other, and the locating plate (13) is partially embedded in the locating plate accommodating cavity.

5. A warehouse component for a fiberglass composite in accordance with claim 4, wherein: an upper clamping groove (112) is formed in the upper fixing frame (11), and a lower clamping groove (122) is formed in the lower fixing frame (12); the upper half positioning plate (13 b) is partially embedded in the upper fixing frame (11), and the lower half positioning plate (13 a) is embedded in the lower fixing frame (12).

6. A warehouse assembly for a fiberglass composite in accordance with claim 1, wherein: the positioning plate (13) is rectangular.

7. A warehouse component for a glass fiber composite tube as defined in any one of claims 1-6, wherein: the upper fixing frame (11) and the lower fixing frame (12) are made of steel; the locating plate (13) is made of wood.