CN105110140A - Load change adaptive steel wire rope traction lifting system - Google Patents

Abstract

A load change adaptive steel wire rope traction lifting system is suitable for lifting systems of large-tonnage goods elevators, mining elevators and mines. The load change adaptive steel wire rope traction lifting system comprises a lifting container and a rope pulley lifting system. The rope pulley lifting system comprises a hoist engine house control system, fixed pulley sets arranged in an engine house and a shaft bottom pit, and rope pulley sets arranged on the upper side and the lower side of the lifting container. The rope pulley sets arranged on the upper side and the lower side of the top and bottom of the lifting container are each symmetrically provided with a plurality of pulleys in a front row, a middle row and a rear row, the fixed pulley sets in a hoister and a shaft bottom each comprise a plurality of fixed pulleys corresponding to the pulleys at the top and bottom of the lifting container in position, and a middle steel wire rope driven by a traction sheave is symmetrically divided towards two side edges and is symmetrically wound for lifting, so that the starting and operating stability of the lifting system is improved. When the system operates, no matter how lifting loads change within a nominal load range, the specific value of tension in the rope on the two sides of the traction sheave is constant, and a traditional mode of balance weight balancing is not needed for reducing the requirement for the full load and large idle load fluctuation.

Description

The adaptive rope traction elevator system of a kind of loads change

Technical field

The present invention relates to the adaptive rope traction elevator system of a kind of loads change, be applicable to large-tonnage Cargo Lift, mine elevator and mine hoisting system.

Background technology

Along with improving constantly of socioeconomic development and automation of industry level, be on the increase in the demand of industrial numerous areas to large-tonnage Cargo Lift.For traditional elevator system, the elevator system that lifting weight is larger adopts counterweight to carry out equilibrium load mostly, reduces gig power consumption, but for large-tonnage elevator system, weight mass used is large, and consumptive material is many, and shaft space occupation is large.

Summary of the invention

Technical matters: the object of the invention is the deficiency overcome in prior art, a kind of compact conformation is provided, operates steadily, consumptive material is few, the adaptive rope traction elevator system of loads change that shaft space occupation is little.

Technical scheme: the adaptive rope traction elevator system of loads change of the present invention, comprise the rope sheave jacking system controlling lifting container, described rope sheave jacking system comprises and is located at traction sheave in gig and machine room fixed pulley group, the pit fixed pulley group being located at shaft bottom is moved and running block, be located at the pulley set of upper and lower both sides at the bottom of lifting container top, the described pulley set being located at upper and lower both sides at the bottom of lifting container top comprises the multiple pulleys be arranged symmetrically with by three rows after in front respectively, described being located in gig comprises multiple fixed pulleys corresponding with multiple pulley position of lifting container top/bottom part respectively with the fixed pulley group in shaft bottom, described traction sheave is positioned at side in the middle part of machine room fixed pulley group, the corresponding shaft bottom of traction sheave is provided with a fixed pulley, the both sides of fixed pulley are respectively equipped with a movable pulley, row's two fixed pulleys and two pulleys being fixed on lifting container intermediate symmetry in the middle of machine room are walked around through traction sheave by steel rope, to dual-side symmetry point rope, and symmetry walks around each pulley of front two rows, on the upside of lifting container, two cable wire ends of point rope are separately fixed on the movable pulley of fixed pulley both sides, divide two cable wire ends of rope to walk around this movable pulley respectively on the downside of lifting container and be fixed on pit.

Multiple pulleys that at the bottom of described lifting container top, upper and lower bilateral symmetry is arranged are respectively 6.

Multiple fixed pulleys in described gig and in shaft bottom are respectively 12.

Beneficial effect: owing to have employed technique scheme, when the present invention realizes hoist load change by baudrier lifting container being carried out to 6 suspentions, traction counterbalanced weight, with load self-align elevator system, reaches the traction conditional request that fully loaded and unloaded fluctuation is large.Without the need to counterweight, compact conformation, consumptive material is few, shaft space occupation is little, compared with prior art, mainly as advantage has:

1, the middle wirerope driven by traction sheave, by restricting and the lifting of symmetrical wiring to dual-side symmetry point, improves the stationarity of elevator system Start-up and operating performance;

2, adopt the extraordinary mode of the winding of steel rope and each wheels to make elevator system self form counterweight, save material and hoistway space;

3, when elevator system is run, no matter how hoist load changes within the scope of rated load, and in the rope of traction sheave both sides, tension force Ratio invariableness is 2, meets the large pulling ability requirement of fully loaded and unloaded fluctuation without the need to using the traditional approach of counterweight balance.

Accompanying drawing explanation

Fig. 1 is the structural representation of loads change adaptive lifting system of the present invention.

In figure: 1 is traction sheave, 3,4,6,7,9,10,12,13,14,16,17,19 is machine room fixed pulley, 2,5,8,11,15,18 is top pulleys, 20 is fixed pulley, 22,23,25,26,28,29,31,33,34,36,37,39 is pit fixed pulley, and 21,24,27,30,35,38 is bottom pulley, and 32,40 is movable pulley, 41 is lifting container, and 42 is steel rope.

Detailed description of the invention

Below in conjunction with accompanying drawing, one embodiment of the present of invention are further described:

Shown in Fig. 1, the adaptive rope traction elevator system of loads change of the present invention, comprise the rope sheave jacking system controlling lifting container 41, described rope sheave jacking system comprises and is located at traction sheave 1 in gig and machine room fixed pulley group, the pit fixed pulley group being located at shaft bottom is moved and running block, be located at the pulley set of upper and lower both sides at the bottom of lifting container top, the described pulley set being located at upper and lower both sides at the bottom of lifting container top comprises 6 pulleys be arranged symmetrically with by three rows after in front respectively, the i.e. pulley 2 at lifting container top, 5, 8, 11, 15, 18 and lifting container bottom pulley 21, 24, 27, 30, 35, 38, described being located in gig comprises 12 corresponding with 6 pulley position of lifting container top/bottom part respectively fixed pulleys with the fixed pulley group in shaft bottom, i.e. machine room fixed pulley 3, 4, 6, 7, 9, 10, 12, 13, 14, 16, 17, 19 and pit fixed pulley 22, 23, 25, 26, 28, 29, 31, 33, 34, 36, 37, 39, described traction sheave 1 is positioned at side in the middle of machine room fixed pulley group, the corresponding shaft bottom of traction sheave 1 is provided with a fixed pulley 20, the both sides of fixed pulley 20 are respectively equipped with a movable pulley, i.e. movable pulley 32, 40, row's two fixed pulleys and two pulleys being fixed on lifting container intermediate symmetry in the middle of machine room are walked around through traction sheave by steel rope 42, to dual-side symmetry point rope, and symmetry walks around each pulley of front two rows, on the upside of lifting container, two cable wire ends of point rope are separately fixed on the movable pulley of fixed pulley both sides, divide two cable wire ends of rope to walk around this movable pulley respectively on the downside of lifting container and be fixed on pit.

Traction ratio is 8:1, the fixed pulley group be arranged in hoistway overhead machine room comprises fixed pulley 3,4,6,7,9,10,12,13,14,16,17,19, the pulley set being arranged on lifting container 41 top comprises top pulleys 2,5,8,11,15,18, the pulley set be arranged on bottom lifting container 41 comprises bottom pulley 21,24,27,30,35,38, pit fixed pulley 22,23,25,26,28,29,31,33,34,36,37,39, and be positioned at the movable pulley 32 of forward plane and the movable pulley 40 of rearward plane.

As shown in fig. 1, the pulley flanks of mid-plane is black flour, and the pulley flanks of forward plane is filled by oblique line, and the pulley flanks of rearward plane is filled by mesh lines, and side plane pulley flanks is fine flour.

In FIG, hoist ropes 1 one end walks around the traction sheave 1 being positioned at mid-plane successively in lifting container 41 side, sedan-chair top block 2, machine room fixed pulley 3, machine room fixed pulley 4, two strands are divided into after sedan-chair top block 5, from mid-plane approaching side plane, two strands are defined as A-share hoist ropes and B stock hoist ropes, machine room fixed pulley 6 walked around by A-share hoist ropes in side plane, machine room fixed pulley 7, turn to forward plane, walk around sedan-chair top block 8 successively, machine room fixed pulley 9, machine room fixed pulley 10, after walking around machine room fixed pulley 12 on sedan-chair top block 11 is backward, fag end is fixed on the movable pulley 32 of hoistway bottom.B stock hoist ropes wiring and A-share rope symmetry, walk around machine room fixed pulley 13, machine room fixed pulley 14, turn to forward plane, walk around successively sedan-chair top block 15, machine room fixed pulley 16, machine room fixed pulley 17, sedan-chair top block 18 backward on walk around machine room fixed pulley 19 after, fag end is fixed on the movable pulley 40 of hoistway bottom.

Hoist ropes 1 other end is positioned at balance heavy side, the traction sheave 1 being positioned at mid-plane walked around successively by this hoist ropes, pit fixed pulley 20, pulley 21 at the bottom of sedan-chair, pit fixed pulley 22, pit fixed pulley 23, two strands are divided into after pulley 24 at the bottom of sedan-chair, i.e. A-share hoist ropes and B stock hoist ropes, approaching side plane, pit fixed pulley 25 walked around by A-share hoist ropes, after pit fixed pulley 26, pulley 27 at the bottom of the sedan-chair of anteriorly plane, pit fixed pulley 28, pit fixed pulley 29, pit fixed pulley 31 is walked around under pulley 30 at the bottom of sedan-chair is backward, up walk around again after the movable pulley 32 of hoistway bottom, fag end is down fixed in well pit, then the power of top A-share rope is balanced by movable pulley 32 by bottom A-share rope, and in the A-share rope of top in tension force and bottom A-share rope tension force ratio be 2, meanwhile, after B stock hoist ropes walks around pit fixed pulley 33, pit fixed pulley 34, at the bottom of the sedan-chair of anteriorly plane pulley 38 at the bottom of pulley 35, pit fixed pulley 36, pit fixed pulley 37, sedan-chair backward under walk around pit fixed pulley 39, up walk around after the movable pulley 40 of hoistway bottom again, fag end is down fixed in well pit, then the power of top B strand is balanced by movable pulley 40 by bottom B strand, and in the B strand of top in tension force and bottom B strand tension force ratio be 2.

Adopt above-mentioned baudrier, hoist ropes is divided into two gangs of A and B, respectively around to lifting container front and rear, and rope lifting container side tail of rope is fixed on movable pulley, this movable pulley is balanced by 2:1 mode by counterweight-side steel rope, reaches to promote steadily, start and reduce deflection and realize self adaptation counterweight.

Claims (3)

1. the adaptive rope traction elevator system of loads change, comprise the rope sheave jacking system controlling lifting container, it is characterized in that: described rope sheave jacking system comprises and is located at traction sheave in gig and machine room fixed pulley group, the pit fixed pulley group being located at shaft bottom is moved and running block, be located at the pulley set of upper and lower both sides at the bottom of lifting container top, the described pulley set being located at upper and lower both sides at the bottom of lifting container top comprises the multiple pulleys be arranged symmetrically with by three rows after in front respectively, described being located in gig comprises multiple fixed pulleys corresponding with multiple pulley position of lifting container top/bottom part respectively with the fixed pulley group in shaft bottom, described traction sheave is positioned at side in the middle part of machine room fixed pulley group, the corresponding shaft bottom of traction sheave is provided with a fixed pulley, the both sides of fixed pulley are respectively equipped with a movable pulley, row's two fixed pulleys and two pulleys being fixed on lifting container intermediate symmetry in the middle of machine room are walked around through traction sheave by steel rope, to dual-side symmetry point rope, and symmetry walks around each pulley of front two rows, on the upside of lifting container, two cable wire ends of point rope are separately fixed on the movable pulley of fixed pulley both sides, divide two cable wire ends of rope to walk around this movable pulley respectively on the downside of lifting container and be fixed on pit.

2. the adaptive rope traction elevator system of loads change according to claim 1, is characterized in that: multiple pulleys that at the bottom of described lifting container top, upper and lower bilateral symmetry is arranged are respectively 6.

3. the adaptive rope traction elevator system of loads change according to claim 1, is characterized in that: the multiple fixed pulleys in described gig and in shaft bottom are respectively 12.