CN210369313U - Compression-resistant structure - Google Patents

Abstract

The utility model provides a compression-resistant structure, which at least comprises two tubular columns and a compression-resistant unit, wherein the compression-resistant unit is connected and arranged between the two tubular columns and comprises an elastic body and two connecting components, the elastic body is provided with two opposite ends which respectively correspond to the two tubular columns and is formed with a virtual shaft which penetrates through the two ends, the two connecting components are respectively arranged at the two ends of the elastic body and can rotate relative to the elastic body by taking the virtual shaft as an axis and are respectively provided with a hook fixing part for hooking and sleeving each tubular column; therefore, the connecting structure can be freely connected and assembled according to the shape and can be widely applied to various structures to provide the effect of safe pressure resistance protection.

Description

Compression-resistant structure

Technical Field

The utility model relates to a resistance to compression design in the structure, especially one kind is convenient for connect, the equipment of shape-dependent body demand, and can fully use in steel body structure such as building, support frame and provide the compressive structure of safe resistance to compression protection.

Background

Earthquake disasters are one of natural disasters which can bring serious harm to human society, and the occurrence of major earthquakes can not only bring serious threats to the safety of human life and property, but also cannot be accurately predicted by the current science and technology to ensure that people can prevent the earthquakes carelessly, so that refuge and self-protection of the earthquake disasters are subjects to be paid attention to by everyone.

For refuge disposal during earthquake, most people know that people can hide in open places outdoors as quickly as possible to avoid damages caused by falling objects, and if the people are in buildings, firm furniture or large objects can be searched as quickly as possible to increase survival probability by masking; however, when a disaster occurs, people are inevitably confused and fail to make a correct judgment, and thus cannot properly avoid injury.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the utility model discloses the person provides the compressive structure who is convenient for use according to the way with the research disaster prevention and reduces the injury, through continuous improvement, finally the utility model discloses produce.

In order to achieve the above effects, the main technical means of the utility model at least comprises two pipe columns and a compression-resistant unit; wherein, the compression-resistant unit is connected and arranged between the two pipe columns and comprises an elastic body and two connecting components; the elastic body is provided with two opposite end parts which respectively correspond to the two pipe columns and form a virtual shaft penetrating through the two end parts; the two connecting components are respectively arranged at the two end parts of the elastic body and can rotate relative to the elastic body by taking the virtual shaft as an axis; furthermore, each connecting component is provided with a hooking part for hooking and sleeving each pipe column to form fixation.

According to the above structure, two ends of the elastic body are respectively provided with a positioning hole for inserting and fixing a buckle part of each connecting component.

According to the above structure, each pipe column is concavely provided with an annular concave portion for the hooking portion to hook and form positioning.

According to the above structure, the two columns are parallel or inclined to each other.

According to the above structure, the elastic body is further sleeved with a bundle of fasteners.

According to the above structure, the binding member is a sheet made of memory alloy.

According to the above structure, the hook-fixing portion is formed by two hook rings in butt joint, and at least one hook ring is fixedly connected to the insertion-fastening portion.

According to the above structure, the elastic system is a spherical body with a hollow part therein.

According to the above structure, wherein the elastic body is made of elastic rubber.

According to the above structure, each of the columns is made of a metal material.

According to the above structure, each of the hooking portions has a base thickness, and each of the ring recesses has a width that is one or several times the base thickness.

According to the above structure, two sides of each positioning hole are respectively provided with a gasket.

The utility model has the advantages that a compressive structure that can the wide application is provided, it can follow the shape body equipment, and has connection, the combination convenience concurrently, and extensive be applied to in the bearing structure of building structure, furniture or other steel body structures, overall structure can rely on most elastomer to reach the effect that the multiple spot utilized multiple spot dispersed pressure, so when unexpected calamity or danger take place, can provide the protection of resistance to compression in order to improve personal safety.

To gain a more complete understanding of the above objects, features and functions of the present invention, preferred embodiments of the present invention will be described below with reference to the accompanying drawings.

Drawings

Fig. 1 is a perspective view of the preferred embodiment of the present invention.

Fig. 2 is an exploded view of the preferred embodiment of the present invention.

Fig. 3 is another perspective view of the preferred embodiment of the present invention.

Fig. 4 is a schematic diagram of a set of connection modes according to a preferred embodiment of the present invention.

Fig. 5 is a schematic view of another assembly type according to the preferred embodiment of the present invention.

FIG. 6 is a schematic diagram of another exemplary embodiment of the present invention.

Fig. 7 is a perspective view of another preferred embodiment of the present invention.

Description of reference numerals: 1, a pipe column; 11 an annular recess; 2 a compression resistant unit; 20 an elastomer; 21 a hollow-out part; 22 end portions; 221 a positioning hole; 30 connecting the components; 31 a buckle part; 32 hook fixing parts; 321. 322 hook ring; 323 hook body; 324 a card fixing sheet; 33 a gasket; 34. 35 a locking member; 40 bundles of firmware.

Detailed Description

Referring to fig. 1 and 2, a schematic diagram of an assembly form and a main component disassembly of a foundation structure according to a first preferred embodiment of the present invention is shown, in which the present embodiment mainly includes two pipe columns 1 and a compression-resistant unit 2 connected between the two pipe columns 1, the compression-resistant unit 2 further includes an elastic body 20 and two connecting members 30, and the elastic body 20 is connected to the two pipe columns 1 by the two connecting members 30 to provide a compression-resistant effect between the two pipe columns 1.

The elastic body 20 is a spherical body mainly composed of hollow elastic rubber, a hollow part 21 is opened at the central part, end parts 22 are formed at the upper and lower ends respectively, and each end part 22 is provided with a positioning hole 221 penetrating to the hollow part 21; in this embodiment, a virtual axis is preset in the elastic body 20 to longitudinally penetrate the two end portions 22, and the two positioning holes 221 are located at positions corresponding to the virtual axis.

Two connecting components 30 are respectively arranged at the upper and lower sides of the elastic body 20, each connecting component 30 comprises a buckle part 31 and a hook fixing part 32; wherein, the buckle part 31 protrudes with a section capable of being inserted into the positioning hole 221, and a flange is formed at the end, so that the buckle part 31 can be inserted into the positioning hole 221 and fixed, and the buckle part 31 can rotate relative to the elastic body 20 with the virtual axis as the axis; the hooking part 32 includes two arc- shaped hooking rings 321, 322, two ends of the two hooking rings 321, 322 can be fixed by a locking member 35 respectively, so that the two hooking rings 321, 322 can be assembled relatively to each other to hook and sleeve the predetermined tubular column 1, and one of the hooking rings 321 is fixed to the inserting part 31 through a locking member 34, so that the hooking part 32 can rotate integrally with the inserting part 31 relative to the elastic body 20.

In a practical embodiment, each pipe column 1 is mainly made of metal material, and at least one annular concave portion 11 is concavely arranged on the peripheral side of the pipe column 1 for hooking and sleeving the hooking portion 32 of the connecting component 30, so as to form a better positioning effect; the positioning holes 221 can be respectively provided with a gasket 33 on both sides for the insertion and fixation of the buckling portion 31 together, so as to form a more stable connection effect and facilitate a smoother rotation of the connecting element 30 relative to the elastic body 20. As shown in fig. 3, the compression-resistant unit 2 can further include a fastener 40, the fastener 40 is mainly made of a memory alloy sheet, and the fastener 40 is sleeved on the periphery of the elastic body 20, so as to provide the effect of tightening and deformation resistance for the elastic body 20, and further improve the overall compression resistance; the fastening member 40 may be designed in various ways, such as partially hollowed-out or net-shaped loop structure, to improve the pressure resistance of the elastic body 20.

As mentioned above, the connection assembly 30 can freely adjust the angle for connection (as shown in fig. 1) according to the requirements of different angles of the pipe column 1, so as to meet the requirements of various different structures and achieve the effect of wide application; in practical use, a user can make the plurality of pipe columns 1 in the structure parallel or skew to each other according to the requirement of the whole structure, and then arrange the predetermined number of the compression-resistant units 2 according to the requirement, and respectively hook and sleeve the two connecting assemblies 30 of the compression-resistant units 2 onto the two predetermined pipe columns 1 to form fixation, so that the compression-resistant units 2 can be easily installed between the two pipe columns 1 to form connection, and corresponding compression strength can be provided between the two pipe columns 1 according to the number of the elastic bodies 20.

As shown in fig. 4, the structure shown in the figure includes three pipe columns 1, each pipe column 1 is provided with a circular recess 11 with a unit width (equal to the thickness of the hooking portion 32 of the connecting member 30) at a corresponding position, the plurality of compression units 2 are alternately arranged between any two pipe columns 1, and the circular recesses 11 of the two pipe columns 1 are hooked and sleeved by the two connecting members 30 of each compression unit 2 to form a fixing, i.e., the corresponding compression effect can be provided by the number of the elastic bodies 20 between the three pipe columns 1, and furthermore, each elastic body 20 can be sleeved with a fastening member 40 for reinforcing the compression capacity.

Referring to fig. 5, another form of assembly application of this embodiment is shown, in which a cylindrical structure is applied, the cylindrical structure includes a plurality of stacked rectangular frames, each rectangular frame is connected by a plurality of pipe columns 1, the pipe columns 1 on each side are respectively provided with a ring recess 11 with two unit widths (equal to the thickness of the hook portion 32 of the connecting component 30) at opposite positions, four compression units 2 are arranged between the rectangular frames on each layer to connect the rectangular frames on the next layer, and the four compression units 2 connect the rectangular frames on the upper layer, so that each ring recess 11 can be connected by one hook portion 32 of two connecting components 30, and a positioning effect is achieved; according to the connection structure, the rectangular frame body formed by the pipe column 1 and the compression-resistant unit 2 can be easily extended upwards or downwards to form a predetermined columnar structure, and the plurality of elastic bodies 20 and the binding members 40 are connected and arranged among layers, so that the corresponding compression-resistant effect is provided.

As shown in fig. 6, the present embodiment is still another assembly application, which is an extended application, and utilizes a combination of a plurality of columns 1 and a plurality of compression units 2 to surround a structure with a predetermined space inside, and practically, each surface of the structure can be applied to a wall surface of a building, furniture, etc. to provide a corresponding compression capacity to the internal space.

Referring to fig. 7, a schematic view of a compression unit 2 according to a second preferred embodiment of the present invention is shown, in which the compression unit 2 includes an elastic body 20 and two connecting members 30, each connecting member 30 includes a buckle portion 31 and a hook portion 32, wherein the elastic body 20 and the buckle portion 31 are substantially similar to the characteristic description of the first embodiment, and the hook portion 32 is replaced by a hook 323 having a hook shape, the bottom end of which is fixed to the buckle portion 31, the hook 323 is shaped to hook a predetermined tubular column, and the hook 323 is capable of being engaged with the fastening piece 324 of the tubular column to fix the relative positions of the hook 323 and the tubular column, so that the present invention can be applied to various structural types and provide a more convenient assembly mode.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (12)

1. A compression resistant structure comprising at least:

two pipe columns; and a process for the preparation of a coating,

a pressure-resistant unit, which is connected and arranged between the two pipe columns, comprising:

an elastic body, which is provided with two opposite end parts respectively corresponding to the two pipe columns and is formed with a virtual shaft penetrating through the two end parts;

two connecting components which are respectively arranged at two end parts of the elastic body and can rotate relative to the elastic body by taking the virtual shaft as an axis, and each connecting component is provided with a hooking and fixing part for hooking and sleeving each pipe column to form fixation.

2. The crush-resistant structure as recited in claim 1, wherein: two ends of the elastic body are respectively provided with a positioning hole for inserting and fixing a buckle part of each connecting component.

3. The crush-resistant structure as recited in claim 2, wherein: each pipe column is concavely provided with an annular concave part for the hooking part to hook and sleeve and form positioning.

4. The crush-resistant structure as recited in claim 3, wherein: the two pipe columns are parallel or inclined to each other.

5. The crush-resistant structure as recited in claim 4, wherein: the elastic body is also sleeved with a bundle of fixing pieces.

6. The crush-resistant structure as recited in claim 5, wherein: the binding member is in the form of a sheet of memory alloy.

7. The crush-resistant structure as recited in claim 5, wherein: the hook fixing part is formed by butt joint of two hook rings, and at least one hook ring is fixedly connected to the inserting buckle part.

8. The crush-resistant structure as recited in any one of claims 4 to 7, wherein: the elastic body is a spherical body with a hollow part inside.

9. The crush-resistant structure as recited in claim 8, wherein: the elastic body is made of elastic rubber.

10. The crush-resistant structure as recited in claim 9, wherein: each pipe column is made of metal materials.

11. The crush-resistant structure as recited in claim 10, wherein: each hooking part has a basic thickness, and each ring recess has a width which is one or several times of the basic thickness.

12. The crush-resistant structure as recited in claim 11, wherein: a gasket is respectively arranged on two sides of each positioning hole.

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