CN203767834U - Module turnover hoisting system - Google Patents

Abstract

The utility model relates to a module turnover hoisting system. The module turnover hoisting system is characterized by consisting of a first hoisting assembly and a second hoisting assembly, wherein the first hoisting assembly and the second hoisting assembly comprise a horizontal balance beam A or a horizontal balance beam B, and the balance beam A and the balance beam B are connected with hooks of two cranes respectively; a pair of fixed pulleys A is arranged at two ends of the balance beam A, a steel wire rope A is arranged on the two fixed pulleys A, one end of the steel wire rope A is connected with an upper layer hoisting point of one end of a module, and the other end of the steel wire rope A is connected with a middle upper layer hoisting point of the module; and a pair of fixed pulleys B is arranged at two ends of the balance beam B, a steel wire rope B is arranged on the two fixed pulleys B, one end of the steel wire rope B is connected with an upper layer hoisting point of the other end of the module, and the other end of the steel wire rope B is connected with a lower layer hoisting point of the other end of the module. Under the coordination of the balance beams, the fixed pulleys and the steel wire ropes, turnover and transition of the module between a vertical placement state and a vertical placement state are stably and reliably realized, the transportation is convenient, and the installation time is reduced.

Description

A kind of module upset Lift-on/Lift-off System

Technical field

The utility model relates to a kind of Lift-on/Lift-off System, particularly a kind of module upset Lift-on/Lift-off System.

Background technology

Modularization refers to that at Industrial Engineering special secondary school the equipment, pipeline of whole system, electric, instrument are assembled in several steel frames that can transport fractionation and form single transportation unit---module by certain technological requirement, all modules are transported to behind erecting stage, and hoisted in position is mounted to the device that can bring into play certain process function.Commercial plant module generally all adopts steel structure as its supporting construction, in carrying out device, when equipment, pipeline, electric, instrument disposition, should consider major equipment external form feature and size, module segmentation position and dimensional characteristic.Due to module traffic requirements, vertical module upset of placing originally must be fallen, become horizontal laying state and transport.The module of laterally placing is transported to behind scene, then carries out that just it becomes vertical laying state by horizontal laying state, is convenient to installation in position.For guaranteeing the safety in whole module switching process, guarantee to be arranged on the systems such as equipment in module, pipeline, electric, instrument in overturning and hoisting process steadily and be not damaged, research and develop a kind of steady and non-damageable module upset Lift-on/Lift-off System of guaranteeing to overturn imperative.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of steady and non-damageable module upset Lift-on/Lift-off System of guaranteeing to overturn.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of module upset Lift-on/Lift-off System, and its innovative point is: by the first lifting group and the second lifting group, formed,

The first lifting group comprises a horizontally disposed equalizing bar A, and the axis of equalizing bar A is parallel with module width direction, and equalizing bar A is connected with the suspension hook of loop wheel machine by hoist cable A;

The two ends of equalizing bar A arrange a pair of fixed pulley A, on two described fixed pulley A, steel rope A are set, and one end of this steel rope A is connected with upper strata, one end suspension centre of module, and the other end of steel rope A is connected with upper strata, the middle part suspension centre of module;

The second lifting group comprises a horizontally disposed equalizing bar B, and the axis of equalizing bar B is parallel with module width direction, and equalizing bar B is connected with the suspension hook of loop wheel machine by hoist cable B;

The two ends of equalizing bar B arrange a pair of fixed pulley B, on two described fixed pulley B, steel rope B are set, and one end of this steel rope B is connected with the other end upper strata suspension centre of module, and the other end of steel rope B is connected with the other end lower floor suspension centre of module.

The utility model has the advantage of: in module upset hoisting process, by module overturn the first lifting group of Lift-on/Lift-off System and the upset that the second lifting group is carried out control module, in switching process, utilize equalizing bar and fixed pulley in first and second lifting group to coordinate with steel rope, steady, failure-free is realized module in laterally upset, the transition between laying state and vertical laying state; Guarantee to be arranged on the systems such as equipment in module, pipeline, electric, instrument in overturning and hoisting process steadily and be not damaged, accelerate module fractionation, transportation and on-the-spot installation rate and quality, reduce the set-up time.

Accompanying drawing explanation

Fig. 1 is module upset Lift-on/Lift-off System front view in the utility model.

Fig. 2 is module upset Lift-on/Lift-off System lateral plan in the utility model.

Fig. 3 ~ 5 are that in the utility model, module upset Lift-on/Lift-off System is used constitution diagram.

The specific embodiment

Embodiment

Refer to Fig. 1,2, the utility model has disclosed a kind of module upset Lift-on/Lift-off System, by the first lifting group and the second lifting group, formed,

The first lifting group comprises a horizontally disposed equalizing bar A5, and the axis of equalizing bar A5 is parallel with module width direction, and equalizing bar A5 is connected with the suspension hook of crane A by hoist cable A7;

The two ends of equalizing bar A5 arrange a pair of fixed pulley A3, on this two fixed pulley A3, steel rope A1 are set, and one end of this steel rope A1 is connected with upper strata, one end suspension centre of module 9, and the other end of steel rope A1 is connected with upper strata, the middle part suspension centre of module 9.

The second lifting group comprises a horizontally disposed equalizing bar B6, and the axis of equalizing bar B6 is parallel with module width direction, and equalizing bar B6 is connected with the suspension hook of crane B by hoist cable B8.

The two ends of equalizing bar B6 arrange a pair of fixed pulley B4, on this two fixed pulley B4, steel rope B2 are set, and one end of this steel rope B2 is connected with the other end upper strata suspension centre of module 9, and the other end of steel rope B is connected with the other end lower floor suspension centre of module.

The length of steel rope A1, steel rope B2, hoist cable A7, hoist cable B8 can meet hoisting wirerope angle according to hoisting point position and require to select corresponding length.

Principle of work: as shown in Figures 3 to 5,

Above-mentioned module travelling position is laterally to place, and is transported to behind scene; Two steel rope A1 are connected with the corresponding suspension centre of module 9 respectively with two steel rope B2, after each parts are connected firmly above, by two crane A and B co-operating, first hoist two crane A, crane B to certain altitude simultaneously, then keep the crane A of lifting 4 Heave Heres, module bottom motionless, the crane B of 4 Heave Heres, the module that simultaneously hoists top, make module progressively be converted to the lifting state of vertical placement, finally unclamp the crane A of 4 Heave Heres, module bottom, only the crane B of 4 Heave Heres, module top lifting module is carried out installation in position.

When module splits, adopt module upset Lift-on/Lift-off System, after each parts and module and crane are connected firmly, above two crane A and B reverse operating, the travelling position from the lifting status transition of vertical placement to horizontal placement.

Two crane co-operatings rise simultaneously and are raised to certain height and are not less than 1 meter.

Claims (1)

1. module upset Lift-on/Lift-off System, it is characterized in that: by the first lifting group and the second lifting group, formed, the first lifting group comprises a horizontally disposed equalizing bar A, and the axis of equalizing bar A is parallel with module width direction, and equalizing bar A is connected with the suspension hook of loop wheel machine by hoist cable A; The two ends of equalizing bar A arrange a pair of fixed pulley A, on two described fixed pulley A, steel rope A are set, and one end of this steel rope A is connected with upper strata, one end suspension centre of module, and the other end of steel rope A is connected with upper strata, the middle part suspension centre of module; The second lifting group comprises a horizontally disposed equalizing bar B, and the axis of equalizing bar B is parallel with module width direction, and equalizing bar B is connected with the suspension hook of loop wheel machine by hoist cable B; The two ends of equalizing bar B arrange a pair of fixed pulley B, on two described fixed pulley B, steel rope B are set, and one end of this steel rope B is connected with the other end upper strata suspension centre of module, and the other end of steel rope B is connected with the other end lower floor suspension centre of module.