CN106395642A - Manufacturing method of light-weight tower crane - Google Patents

Abstract

The invention discloses a manufacturing method of a light-weight tower crane. The manufacturing method comprises the steps of determining parameters, determining structural forms of structural components, conducting parametric modeling and stress analysis, conducting structure optimization and light-weight design, conducting light-weight calibration and producing the tower crane. The method is simple, visualized and clear; the light-weight degree of the tower crane can be directly and definitely understood through the K value; and a solid foundation is laid for light-weight design and manufacturing of the tower crane.

Description

A kind of lightweight tower crane manufacture method

Technical field

The present invention relates to a kind of tower crane manufacture method, belong to engineering machinery field, specifically a kind of lightweight tower crane manufacturer Method.

Background technology

With the development of industry, the Lightweight Technology of current tower crane product is progressively universal, but Lightweight Technology standard is concrete How this weighs, and does not have related criterion and index inside industry, and this patent combines reality in tower crane weight reduction process In application example, tower crane lightweight index and computational methods are in industry proposed first.

Content of the invention

The problem existing for above-mentioned prior art, the present invention provides a kind of lightweight tower crane manufacture method, can achieve light Quantify the manufacturing standard of tower crane, unitize.

To achieve these goals, the technical solution used in the present invention is：A kind of lightweight tower crane manufacture method, including with Lower step：

First, determine tower crane parameter：

Determine the parameter of the main unattached height of tower crane, lift heavy according to the major demands of tower crane；

2nd, determine structural member version：

According to parameter determination main components version；

3rd, parametric modeling and force analysis：

Tower crane is carried out with parametric modeling and simulation force analysis；

4th, structure optimization and light-weight design：

Structure optimization and light-weight design are carried out to tower crane according to simulation force analysis result；

5th, carry out lightweight demarcation using K value：

A, determine lifting series：

Determine the maximum W of the lifting capacity summation that tower crane needs to provide；

B, determine lifting altitude：

Determine that tower crane needs the maximum lifting height H providing；

C, determine raising amplitude：

Determine that tower crane needs maximum raising amplitude F providing；

D, determine operation weight：

Operation weight G that need to provide during operation is provided；

E, calculating lightweight index K value：

K=∑W*H*F/G；

6th, tower crane produces.

The invention has the beneficial effects as follows：By K value can intuitively, be expressly understood that the light-weighted degree of tower crane, be that tower crane is light Solid foundation has been established in Quantitative design manufacture.

Specific embodiment

The invention will be further described below.

A kind of lightweight tower crane manufacture method, comprises the following steps：

First, determine tower crane parameter：

Determine the parameter of the main unattached height of tower crane, lift heavy according to the major demands of tower crane；

2nd, determine structural member version：

According to parameter determination main components version；

3rd, parametric modeling and force analysis：

Tower crane is carried out with parametric modeling and simulation force analysis；

4th, structure optimization and light-weight design：

Structure optimization and light-weight design are carried out to tower crane according to simulation force analysis result；

5th, carry out lightweight demarcation using K value：

A, determine lifting series：

Determine the maximum W of the lifting capacity summation that tower crane needs to provide；

B, determine lifting altitude：

Determine that tower crane needs the maximum lifting height H providing；

C, determine raising amplitude：

Determine that tower crane needs maximum raising amplitude F providing；

D, determine operation weight：

Operation weight G that need to provide during operation is provided；

E, calculating lightweight index K value：

K=∑W*H*F/G；

6th, tower crane produces：

Carry out assembling, the production of tower crane in workshop.

In sum, the inventive method is simple, simple and clear, by K value can intuitively, be expressly understood that tower crane is light-weighted Degree, is that solid foundation has been established in tower crane light-weight design manufacture.

Claims (1)

1. a kind of lightweight tower crane manufacture method is it is characterised in that comprise the following steps：

First, determine tower crane parameter：

Determine the parameter of the main unattached height of tower crane, lift heavy according to the major demands of tower crane；

2nd, determine structural member version：

According to parameter determination main components version；

3rd, parametric modeling and force analysis：

Tower crane is carried out with parametric modeling and simulation force analysis；

4th, structure optimization and light-weight design：

Structure optimization and light-weight design are carried out to tower crane according to simulation force analysis result；

5th, carry out lightweight demarcation using K value：

A, determine lifting series：

Determine the maximum W of the lifting capacity summation that tower crane needs to provide；

B, determine lifting altitude：

Determine that tower crane needs the maximum lifting height H providing；

C, determine raising amplitude：

Determine that tower crane needs maximum raising amplitude F providing；

D, determine operation weight：

Operation weight G that need to provide during operation is provided；

E, calculating lightweight index K value：

K=∑W*H*F/G；

6th, tower crane produces.