CN210369330U

CN210369330U - Large-diameter thick plate steel structure hollow sphere

Info

Publication number: CN210369330U
Application number: CN201920823303.1U
Authority: CN
Inventors: 涂建敏; 李金文; 张纯; 曹永登; 杨勇
Original assignee: Best Way Steel Building Co ltd
Current assignee: Best Way Steel Building Co ltd
Priority date: 2019-06-03
Filing date: 2019-06-03
Publication date: 2020-04-21
Anticipated expiration: 2029-06-03

Abstract

The utility model discloses a large diameter thick plate steel structure hollow sphere, include: the device comprises a hollow sphere body, a hemispherical shell I and a hemispherical shell II; the hemisphere shell I and the hemisphere shell II both comprise the same: a sphere framework, M spherical shell watermelon petals and a spherical cap; the sphere skeleton includes: n main horizontal frameworks, P sub-horizontal frameworks I, Q sub-horizontal frameworks II, R sub-horizontal frameworks III and S vertical frameworks; the first hemispherical shell and the second hemispherical shell are connected to form a hollow sphere body, the M watermelon petals of the spherical shells are arranged outside the sphere framework, the sphere framework is hemispherical, and the watermelon petals of the spherical shells are in watermelon petal shapes. The utility model discloses a set up hollow spheroid body, hemisphere shell one, hemisphere shell two and realized low cost, efficient production hollow spheroidal effect.

Description

Large-diameter thick plate steel structure hollow sphere

Technical Field

The utility model relates to a hollow sphere, in particular to a large-diameter thick plate steel structure hollow sphere and a manufacturing method thereof.

Background

Since the 80 s in the 20 th century, the Chinese construction steel structure has been developed unprecedentedly, and the construction steel structure has a very important position in national economic construction. In a steel structure building system, the specific gravity of a high-rise and super high-rise structure is increased, and the quality of the manufactured product directly determines the quality level of the whole building. The manufacturing technology of the large-diameter ball body in the steel structure manufacturing is a difficult point in the steel structure manufacturing, and particularly, the large-diameter steel structure hollow ball body manufactured by adopting a steel plate with the thickness of more than 6mm is difficult to manufacture and extremely high in cost by adopting the traditional stamping technology. Meanwhile, the quality of engineering quality is directly influenced by the manufacturing quality, so that the steel structure manufacturing enterprise has to solve a great problem by adopting any technological method to manufacture the large-diameter spheres of the thick steel plates in the steel structure manufacturing.

Based on the above situation, a large-diameter thick-plate steel structure hollow sphere and a manufacturing method thereof are needed to solve the problems of difficulty in supporting the large-diameter sphere and high production cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hollow spheroid of major diameter thick plate steel construction, include:

the hollow spheroid body still includes: a hemispherical shell I and a hemispherical shell II; the hemisphere shell I and the hemisphere shell II both comprise the same: a sphere framework, M spherical shell watermelon petals and a spherical cap; the sphere skeleton includes: n main horizontal frameworks, P sub-horizontal frameworks I, Q sub-horizontal frameworks II, R sub-horizontal frameworks III and S vertical frameworks;

the first hemispherical shell and the second hemispherical shell are connected to form a hollow sphere body, the M spherical shell watermelon petals are arranged outside a sphere framework, the sphere framework is hemispherical, the spherical shell watermelon petals are in watermelon petal shapes, the M spherical shell watermelon petals cover the sphere framework and are hemispherical, a spherical cap is arranged at the top of the sphere framework and is connected with the tops of the M spherical shell watermelon petals, the N main horizontal frameworks are connected together to form a circular ring shape, the P secondary horizontal frameworks are connected together to form a circular ring shape, the Q secondary horizontal frameworks are connected together to form a circular ring shape, the R secondary horizontal frameworks are connected together to form a circular ring shape, the main horizontal framework, the secondary horizontal framework and the secondary horizontal framework are sequentially arranged from bottom to top, the S vertical frameworks are connected with the main horizontal framework, the secondary horizontal framework and the secondary horizontal framework, the M, N, P, Q, R, S are each greater than 1.

Preferably, the first hemispherical shell and the second hemispherical shell are both provided with antirust paint.

Preferably, the S vertical frameworks are welded with the main horizontal framework, the secondary horizontal framework I, the secondary horizontal framework II and the secondary horizontal framework III.

Preferably, the method further comprises the following steps: the double-shaft tilt angle sensor is arranged on the main horizontal framework.

The utility model discloses at least, include following beneficial effect:

in the scheme, the first hemispherical shell and the second hemispherical shell are arranged, the first hemispherical shell and the second hemispherical shell are connected to form a hollow sphere body, the M spherical shell watermelon petals are arranged outside the sphere framework, the sphere framework is hemispherical, the spherical shell watermelon petals are in a watermelon petal shape, the M spherical shell watermelon petals cover the sphere framework and are hemispherical, the spherical cap is arranged at the top of the sphere framework and is connected with the tops of the M spherical shell watermelon petals, N main horizontal frameworks which are connected together to form a circular ring shape are arranged, P sub-horizontal frameworks which are connected together to form a circular ring shape are arranged, Q sub-horizontal frameworks which are connected together to form a circular ring shape are arranged, R sub-horizontal frameworks which are connected together to form a circular ring shape are arranged, the main horizontal frameworks, the sub-horizontal frameworks I, the sub-horizontal frameworks II and the sub-horizontal frameworks III are sequentially arranged from bottom to top, and the main horizontal frameworks, the sub-horizontal frameworks I, the sub-horizontal frameworks, The S vertical frameworks connected with the secondary horizontal framework II and the secondary horizontal framework III are respectively larger than 1 in M, N, P, Q, R, S, parts of the spherical framework are subjected to numerical control blanking and are spliced into the spherical framework on the platform, the spherical shell is equally divided into a plurality of spherical shell watermelon petals for blanking, the spherical shell is coiled into an arc shape by using a plate bending machine, then the spherical shell watermelon petals are installed on the spherical framework one by one, the spherical cap is installed on the spherical framework and is connected with the spherical shell watermelon petals, finally the hemispherical shell I and the hemispherical shell II are folded and welded into a sphere, the large-diameter sphere is split into a shell convenient to process, the problem that a large sphere is inconvenient to process is solved, the requirement on processing equipment is lowered, the production efficiency is high, and the production cost is lowered. Simultaneously, in this scheme, through setting up the anti-rust paint on hemisphere shell one and hemisphere shell two, like this, to hemisphere shell one and hemisphere shell two derusting then spraying anti-rust paint, can make hollow spheroid body can effectually prevent to be corroded by water, improved the durability of hollow spheroid body. Simultaneously, in this scheme, S vertical skeleton and main horizontal skeleton, secondary horizontal skeleton one, secondary horizontal skeleton two, three connected modes of secondary horizontal skeleton are the welding, like this, can be so that the spheroid skeleton is more firm, has guaranteed the steadiness of hollow spheroid body. Simultaneously, in this scheme, through setting up the biax angular transducer on main horizontal skeleton, like this, can assemble the completion back, when installing hollow spheroid body on other parts, under biax angular transducer's instruction for the inside main horizontal skeleton of spheroid is in horizontal position, has guaranteed keeping balance on the horizontal plane of spheroidal whole weight, makes hollow spheroid keep more stable state.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the hollow sphere of the present invention.

Fig. 2 is a schematic structural view of the spherical watermelon petal of the present invention.

Fig. 3 is a schematic structural diagram of the hollow sphere body of the present invention.

Description of the drawings: 1-hollow sphere body, 2-hemisphere shell I, 3-hemisphere shell II, 4-sphere skeleton, 5-sphere shell watermelon petal, 6-spherical cap, 7-main horizontal skeleton, 8-secondary horizontal skeleton I, 9-secondary horizontal skeleton II, 10-secondary horizontal skeleton III, 11-vertical skeleton and 12-double-shaft inclination angle sensor.

Detailed Description

The embodiments of the present invention will be described in more detail below with reference to the accompanying drawings and reference numerals, so that those skilled in the art can implement the embodiments after studying the specification. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "upper", "horizontal", "inner", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Fig. 1-3 show the utility model discloses a hollow spheroid of major diameter thick plate steel construction, include:

hollow spheroid body 1 still includes: a hemisphere shell I2 and a hemisphere shell II 3; the

hemisphere shells

2 and 3 comprise the same components: a sphere framework 4, M spherical shell watermelon petals 5 and a spherical cap 6; the sphere skeleton 4 includes: n main horizontal frameworks 7, P secondary horizontal frameworks I8, Q secondary horizontal frameworks II 9, R secondary horizontal frameworks III 10 and S vertical frameworks 11;

the first hemispherical shell 2 and the second hemispherical shell 3 are connected to form a hollow sphere body 1, the M spherical shell watermelon petals 5 are arranged outside the sphere framework 4, the sphere framework 4 is hemispherical, the spherical shell watermelon petals 5 are in a watermelon petal shape, the M spherical shell watermelon petals 5 cover the sphere framework 4 and are hemispherical, the spherical cap 6 is arranged at the top of the sphere framework 4, the spherical cap 6 is connected with the tops of the M spherical shell watermelon petals 5, the N main horizontal frameworks 7 are connected together to form a circular ring shape, the P sub horizontal frameworks I8 are connected together to form a circular ring shape, the Q sub horizontal frameworks II 9 are connected together to form a circular ring shape, the R sub horizontal frameworks III 10 are connected together to form a circular ring shape, the main horizontal framework 7, the sub horizontal framework I8, the sub horizontal framework II 9 and the sub horizontal framework III 10 are sequentially arranged from bottom to top, the S vertical frameworks 11 are connected with the main horizontal framework 7, the sub horizontal framework I8, The second secondary horizontal framework 9 and the third secondary horizontal framework 10 are connected, and the M, N, P, Q, R, S is larger than 1.

By adopting the scheme, the hollow sphere body 1 is formed by arranging the hemisphere shell I2 and the hemisphere shell II 3, the hemisphere shell I2 and the hemisphere shell II 3 are connected, the M sphere shell watermelon petals 5 are arranged outside the sphere framework 4, the sphere framework 4 is in a hemisphere shape, the sphere shell watermelon petals 5 are in a watermelon petal shape, the M sphere shell watermelon petals 5 cover the sphere framework 4 and are in a hemisphere shape, the spherical cap 6 is arranged at the top of the sphere framework 4, the spherical cap 6 is connected with the tops of the M sphere shell watermelon petals 5, N main horizontal frameworks 7 which are connected together in a circular ring shape are arranged, P secondary horizontal frameworks I8 which are connected together in a circular ring shape are arranged, Q secondary horizontal frameworks II 9 which are connected together in a circular ring shape are arranged, R secondary horizontal frameworks III 10 which are connected together in a circular ring shape are arranged, the main horizontal frameworks 7, the secondary horizontal frameworks I8, the secondary horizontal frameworks II 9 and the secondary horizontal frameworks III 10 are sequentially arranged from bottom to top, s vertical frameworks 11 connected with the main horizontal framework 7, the secondary horizontal framework I8, the secondary horizontal framework II 9 and the secondary horizontal framework III 10 are arranged, m, N, P, Q, R, S are all larger than 1, thus, the parts of the spherical skeleton 4 adopt numerical control blanking, splicing a sphere framework 4 on the platform, equally dividing the spherical shell into a plurality of spherical shell watermelon petals 5, blanking, rolling the spherical shell into an arc shape by using a plate rolling machine, then install ball shell watermelon lamella 5 on spheroid skeleton 4 one by one, install ball cap 6 on spheroid skeleton 4, again with ball cap 6 and the connection of spheroid shell watermelon lamella 5, fold the dress with hemisphere shell one 2 and hemisphere shell two 3 and weld into the spheroid at last, split into the casing of a block easy to process with the spheroid of major diameter, solved the inconvenient problem of processing of big spheroid, reduced the requirement to processing equipment, production efficiency is high, has reduced manufacturing cost.

In another example, the semi-spherical shell I2 and the semi-spherical shell II 3 are both provided with antirust paint.

By adopting the scheme, through the antirust paint arranged on the first hemispherical shell 2 and the second hemispherical shell 3, the first hemispherical shell 2 and the second hemispherical shell 3 are derusted and then are sprayed with the antirust paint, so that the hollow sphere body 1 can be effectively prevented from being corroded by water, and the durability of the hollow sphere body 1 is improved.

In another example, the connection mode of the S vertical frameworks 11 and the main horizontal framework 7, the secondary horizontal framework one 8, the secondary horizontal framework two 9 and the secondary horizontal framework three 10 is welding.

By adopting the scheme, the connection mode of the S vertical frameworks 11 and the main horizontal framework 7, the secondary horizontal framework I8, the secondary horizontal framework II 9 and the secondary horizontal framework III 10 is welding, so that the ball framework 4 is firmer, and the stability of the hollow ball body 1 is ensured.

In another example, the method further comprises: a dual-axis tilt sensor 12, said dual-axis tilt sensor 12 being arranged on the main horizontal skeleton 7.

With this solution, through the dual-axis tilt sensor 12 arranged on the main horizontal frame 7, the model of the dual-axis tilt sensor 12 is: BWS2500, like this, can assemble the back, when installing hollow spheroid body 1 on other parts, under the instruction of biax tilt angle sensor 12 for the inside main horizontal skeleton 7 of spheroid is in horizontal position, has guaranteed keeping balance on the horizontal plane of the whole weight of spheroid, makes hollow spheroid keep more stable state.

The utility model discloses a method for making large diameter thick plate steel structure hollow sphere, a serial communication port, including following step:

step 1: m main frameworks are connected together to form a circular ring, P secondary horizontal frameworks I8 are connected together to form a circular ring, Q secondary horizontal frameworks II 9 are connected together to form a circular ring, and R secondary horizontal frameworks III 10 are connected together to form a circular ring; then sequentially arranging the main horizontal framework 7, the secondary horizontal framework I8, the secondary horizontal framework II 9 and the secondary horizontal framework III 10 from bottom to top; then, connecting the S vertical frameworks 11 with the main horizontal framework 7, the secondary horizontal framework I8, the secondary horizontal framework II 9 and the secondary horizontal framework III 10;

step 2: welding M spherical shell watermelon petals 5 on a sphere framework 4, welding a spherical cap 6 on the sphere framework 4, and welding the spherical cap 6 and the spherical shell watermelon petals 5 together to form a first hemispherical shell 2 and a second hemispherical shell 3;

and step 3: and welding the hemispherical shell I2 and the hemispherical shell II 3 together to form a hollow sphere body 1, and manually removing rust on the hollow sphere body 1 and coating antirust paint on the hollow sphere body.

The problem of inconvenient processing of big spheroid is solved, reduced the requirement to processing equipment, production efficiency is high, has reduced manufacturing cost.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims

1. A large diameter thick plate steel structure hollow sphere, comprising: hollow spheroid body (1), its characterized in that includes: a hemisphere shell I (2) and a hemisphere shell II (3); the hemisphere shell I (2) and the hemisphere shell II (3) both comprise the same: a sphere framework (4), M spherical shell watermelon petals (5) and a spherical cap (6); the sphere skeleton (4) comprises: n main horizontal frameworks (7), P sub-horizontal frameworks I (8), Q sub-horizontal frameworks II (9), R sub-horizontal frameworks III (10) and S vertical frameworks (11);

the semi-spherical shell I (2) and the semi-spherical shell II (3) are connected to form a hollow sphere body (1), M spherical shell watermelon petals (5) are arranged outside a sphere framework (4), the sphere framework (4) is semi-spherical, the spherical shell watermelon petals (5) are watermelon petals, the M spherical shell watermelon petals (5) cover the sphere framework (4) and are semi-spherical, a spherical cap (6) is arranged at the top of the sphere framework (4), the spherical cap (6) is connected with the top of the M spherical shell watermelon petals (5), N main horizontal frameworks (7) are connected together to form a ring, P sub horizontal frameworks I (8) are connected together to form a ring, Q sub horizontal frameworks II (9) are connected together to form a ring, R sub horizontal frameworks III (10) are connected together to form a ring, the main horizontal frameworks (7), the sub horizontal frameworks I (8), the sub horizontal frameworks II (9), The third secondary horizontal frameworks (10) are sequentially arranged from bottom to top, the S vertical frameworks (11) are connected with the main horizontal framework (7), the first secondary horizontal framework (8), the second secondary horizontal framework (9) and the third secondary horizontal framework (10), and the M, N, P, Q, R, S is larger than 1.

2. The large-diameter thick plate steel structure hollow sphere according to claim 1, wherein the first hemispherical shell (2) and the second hemispherical shell (3) are both provided with antirust paint.

3. The large-diameter thick plate steel structure hollow sphere of claim 1, wherein the connection mode of the S vertical frameworks (11) and the main horizontal framework (7), the secondary horizontal framework I (8), the secondary horizontal framework II (9) and the secondary horizontal framework III (10) is welding.

4. The large diameter thick plate steel structure hollow sphere of claim 1, further comprising: the inclination angle sensor (12) is arranged on the main horizontal framework (7).