CN222206763U - Cable membrane structure based on chargeable box body - Google Patents

Abstract

The utility model discloses a cable film structure based on a chargeable box body, wherein the bottom of a telescopic rod is fixedly connected with the ground, the top of each chargeable box body is provided with a lifting hole, one end of a cable is connected with the telescopic rod, the other end of the cable is connected with the lifting hole of the chargeable box body, the cable film covers a gap between the cables and is fixedly connected with the cable, a plurality of chargeable box bodies are circumferentially arranged outside the telescopic rod by taking the telescopic rod as the center and are circumferentially arranged at equal intervals, and the intervals between the inner wall surfaces of the plurality of chargeable box bodies are the distances between the two corner points at the top of the inner wall surface. The utility model has few component specifications, and the inhaul cable and the corresponding cable film type are fewer because the chargeable box bodies are equidistantly arranged, so that the standardized production can be realized, the construction is convenient and quick, and the time for searching components with different specifications is saved. The construction process can be completed by only lifting the telescopic rod, and no overhead operation is needed.

Description

Cable membrane structure based on chargeable box body

Technical Field

The utility model belongs to the technical field of large-span large-space houses, and particularly relates to a cable membrane structure based on a chargeable box body.

Background

The housing with the large span and large space structure is generally built into a fixed building by adopting a traditional steel structure such as a portal rigid frame, a truss and the like, but the storage, transportation and installation of the building components are extremely difficult, and the development and the use of standardized equipment and equipment are difficult to realize. The film structure has light dead weight, large span, good light transmission and lighting performance, and better earthquake resistance than other structures, has good economy and safety, and can be designed into movable houses such as detachable large-span large-space type storehouses, living houses and the like. The cable membrane structure is formed by reinforcing the membrane structure by using a steel cable. However, the existing cable membrane structure cannot fully utilize the on-site chargeable box body during construction. The existing cable membrane structure is mainly fixed facilities, and a foundation, an embedded member and an installation structure are required to be cast in situ during construction, so that the existing cargoes box body resources on site are not fully utilized, and the container is difficult to transport in a containerized mode and realize repeated disassembly and assembly.

The patent application with the patent publication number of CN105863061B is named as a foldable cylindrical cable membrane structure with a rigid pressure rod, and comprises a net shell structure and a membrane structure arranged on the net shell structure, wherein the net shell structure is formed by connecting a plurality of folding arch units, each folding arch unit is formed by connecting n rectangular pyramid basic units along the structure span direction, each rectangular pyramid basic unit is formed by four forward folding rod shearing units, the membrane structure is formed by an opening and closing membrane unit arranged on each rectangular pyramid unit, the opening and closing membrane unit comprises a rigid pressure rod, a membrane material attached to the rigid pressure rod and four cables, the upper part of the rigid pressure rod is connected with the upper part of the membrane material, the lower part of the rigid pressure rod is connected with one end of each four cables, the lower part of the membrane material is respectively fixed on four nodes of the rectangular pyramid units, and the other ends of the four cables are connected on four annular connection points of the rectangular pyramid units. The rope film structure cannot be built by utilizing the chargeable box body, and the rapid and stable building cannot be realized.

Disclosure of utility model

In order to overcome the problems in the prior art, the utility model aims to provide a cable membrane structure based on a chargeable box body, which can reduce the types of required components by adopting the chargeable box body as a fixed object of a cable and fixing the distance between the chargeable box bodies, thereby realizing the rapid and stable construction of a large-span housing.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a flexible membrane structure based on a stowable body, comprising:

the bottom of the telescopic rod is fixedly connected with the ground;

a plurality of chargeable container bodies, the top of each chargeable container body having a hanger hole;

One end of the guy cable is connected with the telescopic rod, and the other end of the guy cable is connected with the lifting appliance hole of the chargeable box body;

The cable film covers the gaps among the inhaul cables and is fixedly connected with the inhaul cables;

The chargeable box bodies are cuboid, the telescopic rods are used as centers, and the chargeable box bodies are annularly arranged outside the telescopic rods and are annularly arranged at equal intervals; the outer shape and the size of the plurality of the chargeable container bodies are the same, the wall surface of one side of the chargeable container body facing the telescopic rod is an inner wall surface, the size of the inner wall surface of each chargeable container body is the same, the intervals between the inner wall surfaces of the plurality of chargeable container bodies are the distance between the two top corner points of the inner wall surface, the cable film is triangular, and the length of the bottom edge of the cable film is the distance between the two top corner points of the inner wall surface.

Optionally, two adjacent chargeable container bodies are connected through a rigid connecting rod.

Optionally, the pull rope comprises an inner layer pull rope and an outer layer pull rope, wherein lifting holes are formed in four corner points of the top of the chargeable box body, the inner layer pull rope is connected with two lifting holes on the chargeable box body, which are close to one end of the telescopic rod, and the outer layer pull rope is connected with two lifting holes on the chargeable box body, which are far away from one end of the telescopic rod.

Optionally, the inner-layer guy cables are connected through inner-layer circumferential cables, the outer-layer guy cables are connected through outer-layer circumferential cables, and the inner-layer circumferential cables and the outer-layer circumferential cables are connected through connecting nets.

Optionally, an inner cable membrane is arranged between the inner cable and the outer cable, and an outer cable membrane is arranged between the outer cable and the inner cable.

Optionally, the telescopic rod is a motor driving rod or a manual hydraulic rod.

Optionally, a counterweight is disposed on a surface of the chargeable container body facing away from the telescopic rod.

Optionally, the counterweight adopts a chargeable container body of the same model as the chargeable container body.

Optionally, the cable is connected through the link between hoist hole, but the bottom of the dress box body is fixed with ground through angle bar or angle steel, the bottom and the independent basis of telescopic link are connected.

Optionally, the bottom of the chargeable container body is fixed with the ground through angle irons or angle steels.

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

The utility model has few component specifications, and the inhaul cable and the corresponding cable film type are fewer because the chargeable box bodies are equidistantly arranged, so that the standardized production can be realized, the construction is convenient and quick, and the time for searching components with different specifications is saved. The construction process can be completed by quickly installing all roof inhaul cables and cable membranes on the ground completely by manpower, only the lifting and shrinking rod is required to be lifted, no overhead operation is required, and the whole construction process is safe, quick, simple, convenient, firm in installation and high in construction speed.

Furthermore, the inhaul cable and the inhaul cable film can be assembled in the body of the chargeable container, and the storage and transportation are convenient.

Furthermore, when the utility model is used, the counterweight can be added on the periphery according to the requirements of wind resistance and supporting working rooms, thereby meeting the requirements of structural bearing and various service rooms.

The utility model can utilize the abandoned and idle on-site chargeable box body and the chargeable box body for transporting the self members as the basic wall bodies and also serve as auxiliary building devices, realizes the on-site material taking of the large-span space structure house, does not need a foundation, shares the wall bodies, quickly builds the low-cost and high-benefit construction and quick deployment guarantee, and meets the requirements of parking, maintenance and indoor living large-space house guarantee.

Furthermore, the arrangement form of the utility model enables the vehicle to have a plurality of inlets and outlets, thereby being convenient for people, vehicles and materials to come in and go out.

Drawings

The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way. In addition, the shapes, proportional sizes, and the like of the respective components in the drawings are merely illustrative for aiding in understanding the present utility model, and are not particularly limited. In the drawings:

FIG. 1 is a schematic perspective view of embodiment 1 of the present utility model;

FIG. 2 is a schematic illustration of the placement of weights according to the present utility model;

1, a telescopic rod; 2, a box body, 3, an inner layer guy cable, 4, an outer layer guy cable, 5, an inner layer circumferential cable, 6, an outer layer circumferential cable, 7, a connecting net, 8, a rigid connecting rod, 9 and a counterweight.

Detailed Description

In order to make the technical solution of the present utility model better understood by those skilled in the art, the technical solution of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, shall fall within the scope of the utility model.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The present utility model will be described in detail with reference to the accompanying drawings.

The utility model relates to a cable membrane structure based on a chargeable box body, which comprises a telescopic rod 1, a plurality of chargeable box bodies 2, a guy cable and a cable membrane.

The bottom of the telescopic rod 1 is fixedly connected with the ground, the top of each chargeable box body 2 is provided with a lifting hole, one end of each guy cable is connected with the telescopic rod 1, the other end of each guy cable is connected with the lifting hole of each chargeable box body 2, and the guy cable film covers the gaps among the guy cables and is fixedly connected with the guy cables. The chargeable box bodies 2 are cuboid, the chargeable box bodies 2 are circumferentially arranged outside the telescopic rods 1 by taking the telescopic rods 1 as the center, the chargeable box bodies 2 are circumferentially arranged at equal intervals, the appearance and the size of the chargeable box bodies 2 are identical, the wall surface of one side of each chargeable box body 2 facing the telescopic rods 1 is an inner wall surface, the size of the inner wall surface of each chargeable box body 2 is identical, the intervals between the inner wall surfaces of the chargeable box bodies 2 are the distance between the two top corner points of the inner wall surface, the cable film is triangular, and the bottom edge length of the cable film is the distance between the two top corner points of the inner wall surface.

Specifically, two adjacent cargo box bodies 2 are connected through a rigid connecting rod 8, so as to improve the stability of the whole structure. Specifically, the bottom of the chargeable container body 2 is fixed with the ground through angle irons or angle irons.

The guy cable comprises an inner guy cable 3 and an outer guy cable 4, wherein hanger holes are formed in four corner points of the top of the chargeable box body 2, the inner guy cable 3 is connected with two hanger holes on the chargeable box body 2, which are close to one end of the telescopic rod 1, and the outer guy cable 4 is connected with two hanger holes on the chargeable box body 2, which are far away from one end of the telescopic rod 1.

Specifically, the length of each inner layer cable 3 is the same and the length of each outer layer cable 4 is the same.

The inner-layer guy cables 3 are connected through inner-layer circumferential cables 5, the outer-layer guy cables 4 are connected through outer-layer circumferential cables 6, and the inner-layer circumferential cables 5 and the outer-layer circumferential cables 6 are connected through connecting nets 7. An inner cable film 31 is arranged between the inner cable 3, and an outer cable film 41 is arranged between the outer cable 4. The inner cable membrane 31 and the outer cable membrane 41 are both triangular, and the inner cable membrane 31 and the outer cable membrane 41 are the same in size, and the outer cable membrane 41 is the same in size.

Optionally, the inner layer guy cable 3 is connected with the middle part or the upper part of the telescopic rod 1, and the outer layer guy cable 4 is connected with the top of the telescopic rod 1.

Optionally, the cable membrane is made of a heat-insulating membrane material.

Optionally, the inner layer inhaul cable 3 and the outer layer inhaul cable 4 are marked by different colors.

Optionally, the inner cable film 31 and the outer cable film 41 are marked with different colors.

Optionally, the telescopic rod 1 is a motor driving rod or a manual hydraulic rod.

Optionally, the telescopic rod 1 is a hollow metal mast.

Optionally, the chargeable container body 2 is a container or a shelter.

Optionally, the side of the stowable body 2 facing away from the telescopic rod 1 is provided with a counterweight 9 as shown in fig. 2. Further alternatively, a counterweight is provided on the side of each chargeable body 2 facing away from the telescopic rod 1. Further alternatively, the weight 9 is a chargeable container body of the same type as the chargeable container body 2, and the long axis of the weight 9 is perpendicular to the long axis of the chargeable container body 2.

Examples

A specific embodiment of the present utility model will be further described with reference to fig. 1.

In this embodiment, as shown in fig. 1, the telescopic rod 1 is driven by a motor, and the chargeable container body 2 is a standard chargeable container body. The number of the chargeable box bodies 2 is eight, and the chargeable box bodies are provided with sixteen inner-layer guys 3, sixteen outer-layer guys 4 and sixteen inner-layer cable films 31, sixteen outer-layer cable films 41, one inner-layer circumferential cable 5 and one outer-layer circumferential cable 6. Wherein, the inner layer guy cable 3 adopts different colour mark with outer layer guy cable 4. The inner 31 and outer 41 films are marked with different colours. The annular shape enclosed by the chargeable body 2 has an inner diameter of 26.6m and an outer diameter of 31.5m. The large-span house area can reach 1764m ², and the total weight of the inhaul cable and the rope film is 2t.

The utility model relates to a cable membrane structure based on a chargeable box body, which is characterized in that when in use:

The inner layer guy rope 3, the outer layer guy rope 4, the inner layer circumferential rope 5, the outer layer circumferential rope 6, the inner layer rope film 31, the outer layer rope film 41 and the telescopic rod 1 are placed in the chargeable box body 2 to be transported to a required place.

Firstly, leveling the field and fixing the telescopic rod 1 on an independent basis.

The diameter of the field is determined and the placement position of the chargeable box body 2 is determined by paying off.

The pre-placement position of the chargeable body 2 is tamped and the site in the ring shape surrounded by the chargeable body 2 is tamped.

One end of an inner layer guy cable 3 is connected with a lifting hole of the chargeable box body 2, and the other end is connected with the upper part of the telescopic rod 1;

The upper parts of a plurality of inner-layer inhaul cables 3 are connected through inner-layer circumferential cables 5;

The upper parts of a plurality of outer layer guy ropes 4 are connected through outer layer circumferential ropes 6;

The outer cable film 41 is fixed between two adjacent outer cables 4, while the inner cable film 31 is fixed between two adjacent inner cables 3.

Finally, the telescopic rod 1 is lifted by the motor and the guy cable is tightened.

The device elements in the above embodiments are conventional device elements unless otherwise specified, and the structural arrangement, operation or control modes in the embodiments are conventional arrangement, operation or control modes in the art unless otherwise specified.

Finally, it is noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present utility model, and that other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (10)

1. Rope film structure based on can dress box body, characterized by, include:

the telescopic rod (1), the bottom of the telescopic rod (1) is fixedly connected with the ground;

A plurality of chargeable box bodies (2), wherein the top of each chargeable box body (2) is provided with a lifting appliance hole;

one end of the guy cable is connected with the telescopic rod (1), and the other end of the guy cable is connected with the lifting appliance hole of the chargeable box body (2);

The cable film covers the gaps among the inhaul cables and is fixedly connected with the inhaul cables;

The chargeable box bodies (2) are cuboid, the telescopic rods (1) are used as centers, and the chargeable box bodies (2) are annularly arranged outside the telescopic rods (1) and are annularly arranged at equal intervals; the outer shape and the size of the plurality of the chargeable box bodies (2) are the same, the wall surface of one side of the chargeable box bodies (2) facing the telescopic rod (1) is an inner wall surface, the size of the inner wall surface of each chargeable box body (2) is the same, the intervals between the inner wall surfaces of the plurality of chargeable box bodies (2) are the distance between the two angular points at the top of the inner wall surface, the cable film is triangular, and the length of the bottom edge of the cable film is the distance between the two angular points at the top of the inner wall surface.

2. A structure of a pallet based cable membrane according to claim 1, characterized in that two adjacent pallet bodies (2) are connected by a rigid connecting rod (8).

3. The wire film structure based on the chargeable box body according to claim 1, wherein the wire film structure comprises an inner wire film (3) and an outer wire film (4), lifting holes are formed in four corner points of the top of the chargeable box body (2), the inner wire film (3) is connected with two lifting holes on the chargeable box body (2) close to one end of the telescopic rod (1), and the outer wire film (4) is connected with two lifting holes on the chargeable box body (2) far away from one end of the telescopic rod (1).

4. A cargo box body-based cable membrane structure according to claim 3, wherein a plurality of inner-layer cables (3) are connected through inner-layer circumferential cables (5), a plurality of outer-layer cables (4) are connected through outer-layer circumferential cables (6), and the inner-layer circumferential cables (5) and the outer-layer circumferential cables (6) are connected with each other through a connecting net (7).

5. A cargo box based cable membrane structure according to claim 3, wherein an inner cable membrane (31) is arranged between the inner cables (3) and an outer cable membrane (41) is arranged between the outer cables (4).

6. A structure of a cable membrane based on a chargeable body according to claim 1, characterized in that the telescopic rod (1) is a motor-driven rod or a manual hydraulic rod.

7. A structure of a rope film based on a chargeable body according to claim 1, characterized in that the side of the chargeable body (2) facing away from the telescopic rod (1) is provided with a counterweight (9).

8. A structure of a rope film based on a chargeable body according to claim 7, characterized in that said counterweight (9) is of the same type as the chargeable body (2).

9. The rope film structure based on the chargeable box body according to claim 1, wherein the guy rope is connected with the lifting appliance hole through a hanging ring, the bottom of the chargeable box body (2) is fixed with the ground through angle iron or angle steel, and the bottom of the telescopic rod (1) is connected with an independent foundation.

10. A structure of a cable membrane based on a chargeable container body according to claim 1, characterized in that the bottom of the chargeable container body (2) is fixed to the ground by angle iron or angle iron.