CN104370182A - Six-node compensating device for wire rope sets of elevator - Google Patents

Abstract

The invention discloses a six-node compensating device for wire rope sets of an elevator. The six-node compensating device is characterized in that each three-node compensating component rotates around a balance seat; the balance seat rotates around a base; three non-collinear spherical nodes are arranged on each three-node compensating component and rotate around the same; a rotating center of each three-node compensating component and rotating centers of the spherical nodes thereof are in the same horizontal plane; the rotating center of each three-node compensating component and a rotating center of the balance seat are in the same horizontal plane and collinear; The six-node compensating device has the advantages that stress on the six wire rope sets is automatically adjusted and balanced until the stable condition, and accordingly danger caused by unbalanced stress of the wire rope sets of the elevator is avoided, service lives of the wire ropes are prolonged and safety of the elevator is improved.

Description

A kind of six node compensating gears of steel wire rope for elevator group

Technical field

The present invention relates to a kind of improvement of compensating gear of steel wire rope for elevator group, particularly a kind ofly can to regulate the stressed of six groups of steel ropes, and the stressed six node compensating gears reaching identical steel wire rope for elevator group making often to organize steel rope.

Background technology

Current elevator both domestic and external adopts towing machine to drive elevator usually, and towed elevator hangs elevator system and is made up of major parts such as traction sheave, steel rope group, car, balance block systems; Described towed elevator is hung and to be wound around in the groove of traction sheave by the every root steel rope in steel rope group in elevator system and the friction force that produces provides the power of car lifting or decline; Under the adjustment of elevator drive technology development, hoisting depth and the moving velocity of elevator are all greatly improved, and also have higher requirement to the safety and reliability of elevator self simultaneously.In theory, in use, the stressed of the every root steel rope in steel rope group should be the same for elevator, and traction sheave is used for the shape and size of groove of lay winding wire ropes also should be the same; But in actual use procedure, because a variety of causes can make the stressed different of the every root steel rope in steel rope group, some steel rope will be caused so greatly stressed, and some steel rope is stressed little; Friction force between groove on the traction sheave that stressed large steel rope is corresponding with it can be relatively large, the friction of the groove on the traction sheave of its correspondence can be caused so more severe, time one is long, the shape and size of all right groove caused on the traction sheave of its correspondence change, and cause power suffered in stressed large steel rope work increasing.If radius reduces 0.1 millimeter after the groove wearing and tearing on traction sheave, traction sheave often revolves and turns around, and steel rope will lack motion 0.314 millimeter; For the building of 20 layers, traction sheave approximately will rotate 100 circles, so should will lack motion 31.4 millimeters with steel rope, and through overtesting, finding should be how stressed about 3000 Ns with steel rope; When the unbalance stress of in steel rope group steel rope, produce crawl between stressed little steel rope and traction sheave, the wriggling between steel rope and traction sheave can cause the wearing and tearing of steel rope and traction sheave; Floor is higher, and above-mentioned situation is more serious.Thus, the long-time stressed large steel rope used in use, easily ruptures, and causes elevator safety accident; Meanwhile, stressed little steel rope also can, because of the wearing and tearing with traction sheave, occur impaired, if seriously impaired, also can cause the fracture causing steel rope, and cause elevator safety accident; For this reason, we have developed a kind of can adjustment the stressed of six groups of steel rope groups, and the stressed six node compensating gears reaching identical steel wire rope for elevator group making often to organize steel rope group.

Summary of the invention

The present invention seeks to provide a kind of can regulate the stressed of six groups of steel ropes to overcome the deficiencies in the prior art, and the stressed six node compensating gears reaching identical steel wire rope for elevator group making often to organize steel rope.

For achieving the above object, the technical solution used in the present invention is: a kind of six node compensating gears of steel wire rope for elevator group, comprises balance base, the equal power assembly of 3 node; Described balance base can be rotatably set on base; The centre of gration of described balance base is positioned on the longitudinal plane of symmetry of balance base; The equal power assembly of described 3 node has 2, and the longitudinal plane of symmetry along balance base is arranged on balance base symmetrically; The equal power assembly of each 3 node all can rotate around balance base; The equal power assembly of each 3 node is provided with 3 sphere nodes; Described 3 sphere nodes are not on the same line; The centre of gration of each 3 node equal power assembly be located across this 3 node equal power assembly center of gravity and on the straight line of the vertical equal power assembly of this 3 node; The center of described each sphere nodes is provided with through hole; Described through hole is used for installing steel rope; Described sphere nodes can rotate by the winding equal power assembly of 3 node that is equipped with this sphere nodes; The centre of gration of each 3 node equal power assembly and the centre of gration of sphere nodes disposed thereon are in same level; The centre of gration of the equal power assembly of each 3 node and the centre of gration of balance base are in same level, and conllinear.

Preferably, the bottom of described balance base is provided with the first hemisphere jut; Described base is provided with the second spherical cavity; The longitudinal plane of symmetry of described balance base overlaps with the longitudinal plane of symmetry of the first hemisphere jut; Described first hemisphere jut is inserted in the second spherical cavity, and described first hemisphere jut can rotate around the second spherical cavity.

Preferably, the bottom of the equal power assembly of each 3 node is provided with the second hemisphere jut; The centre of gration of described second hemisphere jut be located across the 3 node equal power assembly being provided with this second hemisphere jut center of gravity and on the straight line of the vertical equal power assembly of this 3 node; Face, described balance base Shang Yanqi center is provided with 2 the first spherical cavities symmetrically; Each second hemisphere jut inserts in first spherical cavity respectively; Described second hemisphere jut can winding put this second hemisphere jut first spherical cavity rotate.

Preferably, the equal power assembly of described each 3 node is provided with 3 the second spherical cavities; Described 3 the second spherical cavities not conllinear; Be provided with sphere nodes in each second spherical cavity, described each sphere nodes can winding put this sphere nodes second spherical cavity rotate.

Preferably, the equal power assembly of described 3 node is provided with screw hole, and described screw hole is positioned at the center of gravity of the equal power assembly of 3 node; Swivel mount can be fixed on the bottom of the equal power assembly of 3 node by described screw hole by screw.

Preferably, described base is evenly equipped with fixed orifice, to facilitate mounting seat.

Due to the utilization of technique scheme, the present invention compared with prior art has following advantages:

The six symmetrical node compensating gears of steel wire rope for elevator group of the present invention, the equal power assembly of each 3 node can rotate around balance base; Described balance base can rotate around base, the equal power assembly of each 3 node is provided with the sphere nodes of 3 not conllinear, each sphere nodes all can rotate by the winding equal power assembly of 3 node that is equipped with this sphere nodes, and the centre of gration of each 3 node equal power assembly and the centre of gration of sphere nodes disposed thereon are in same level simultaneously; The centre of gration of the equal power assembly of each 3 node and the centre of gration of balance base are in same level, and conllinear; The present invention program can regulate the stressed of six groups of steel ropes, when the present invention reaches stabilized conditions, the stressed meeting often organizing steel rope is identical, thus can overcome steel wire rope for elevator stressed not identical and produce harm, improve the service life of steel rope, and improve the safety of elevator thus.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, technical solution of the present invention is described further:

Accompanying drawing 1 is the part sectional view of six node compensating gears of steel wire rope for elevator group of the present invention;

Accompanying drawing 2 is the front view of the equal power assembly of 3 node of six node compensating gears of steel wire rope for elevator group of the present invention;

Accompanying drawing 3 is the A-A cutaway view of accompanying drawing 2;

Wherein: 1, balance base; 2, the equal power assembly of 3 node; 3, base; 4, the first spherical cavity; 5, the first hemisphere jut; 6, the second spherical cavity; 7, fixed orifice; 21, the equal power module body of 3 node; 22, the second spherical cavity; 23, screw hole; 24, the second hemisphere jut; 25, sphere nodes; 26, through hole.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.

Accompanying drawing 1-3 is six node compensating gears of a kind of steel wire rope for elevator group of the present invention, comprises the equal power assembly 2 of balance base 1,3 node; Described balance base 1 can be rotatably set on base 3; The centre of gration of described balance base 1 is positioned on the longitudinal plane of symmetry of balance base 1; The equal power assembly 2 of described 3 node has 2, and the longitudinal plane of symmetry along balance base 1 is arranged on balance base 1 symmetrically; The equal power assembly 2 of each 3 node all can rotate around balance base 1; The equal power assembly 2 of each 3 node is provided with 3 sphere nodes 25; Described 3 sphere nodes 25 are not on the same line; The centre of gration of each 3 node equal power assembly 2 be located across this 3 node equal power assembly 2 center of gravity and on the straight line of the vertical equal power assembly 2 of this 3 node; The center of described each sphere nodes 25 is provided with through hole 26; Described through hole 26 is used for installing steel rope; Described sphere nodes 25 can rotate by the winding equal power assembly 2 of 3 node that is equipped with this sphere nodes 25; The centre of gration of each 3 node equal power assembly 2 and the centre of gration of sphere nodes 25 disposed thereon are in same level; The centre of gration of the equal power assembly 2 of each 3 node and the centre of gration of balance base 1 are in same level, and conllinear.

In the present embodiment, as illustrated in the accompanying drawings from 1 to 3, the bottom of described balance base 1 is provided with the first hemisphere jut 5; Described base 3 is provided with the second spherical cavity 6; The longitudinal plane of symmetry of described balance base 1 overlaps with the longitudinal plane of symmetry of the first hemisphere jut 5; Described first hemisphere jut 5 is inserted in the second spherical cavity 6, and described first hemisphere jut 5 can rotate around the second spherical cavity 6; The bottom of the equal power assembly 2 of each 3 node is provided with the second hemisphere jut 24; The centre of gration of described second hemisphere jut 24 be located across the 3 node equal power assembly 2 being provided with this second hemisphere jut 24 center of gravity and on the straight line of the vertical equal power assembly 2 of this 3 node; Face, described balance base 1 Shang Yanqi center is provided with 2 the first spherical cavities 4 symmetrically; Each second hemisphere jut 24 inserts in first spherical cavity 4 respectively; Described second hemisphere jut 24 can rotate by winding the first spherical cavity 4 of putting this second hemisphere jut 24; The equal power assembly 2 of described each 3 node is provided with 3 the second spherical cavities 22; Described 3 the second spherical cavities 22 not conllinear; Be provided with sphere nodes 25 in each second spherical cavity 22, described each sphere nodes 25 can rotate by winding the second spherical cavity 22 of putting this sphere nodes 25; The equal power assembly 2 of described 3 node is provided with screw hole 23, and described screw hole 23 is positioned at the center of gravity of the equal power assembly 2 of 3 node; Second hemisphere jut 24 can be fixed on the bottom of the equal power assembly 2 of 3 node by described screw hole 23 by screw (not shown); Described base 3 is evenly equipped with fixed orifice 7, to facilitate mounting seat 3.

As shown in accompanying drawing 2,3, the equal power assembly 2 of described 3 node, comprises the equal power module body 21 of 3 node; Described 3 node equal power module body 21 is triangular in shape; Described second spherical cavity 22 has 3, is not arranged on collinearly in the equal power module body 21 of 3 node.

Six node compensating gears of steel wire rope for elevator group of the present invention can, as a unit, be applied in multinode compensating gear, and as 12 node compensating gears, 10 node compensating gears, now, base 3 is balance bases 1.

Due to the utilization of technique scheme, the present invention compared with prior art has following advantages:

The six symmetrical node compensating gears of steel wire rope for elevator group of the present invention, the equal power assembly of each 3 node can rotate around balance base; Described balance base can rotate around base, the equal power assembly of each 3 node is provided with the sphere nodes of 3 not conllinear, each sphere nodes all can rotate by the winding equal power assembly of 3 node that is equipped with this sphere nodes, and the centre of gration of each 3 node equal power assembly and the centre of gration of sphere nodes disposed thereon are in same level simultaneously; The centre of gration of the equal power assembly of each 3 node and the centre of gration of balance base are in same level, and conllinear; The present invention program can regulate the stressed of six groups of steel ropes, when the present invention reaches stabilized conditions, the stressed meeting often organizing steel rope is identical, thus can overcome steel wire rope for elevator stressed not identical and produce harm, improve the service life of steel rope, and improve the safety of elevator thus.

Above-described embodiment is only for illustrating technical conceive of the present invention and feature; its object is to person skilled in the art can be understood content of the present invention and be implemented; can not limit the scope of the invention with this; all equivalences done according to Spirit Essence of the present invention change or modify, and all should be encompassed in protection scope of the present invention.

Claims (6)

1. six node compensating gears of steel wire rope for elevator group, comprise balance base, the equal power assembly of 3 node; Described balance base can be rotatably set on base; The centre of gration of described balance base is positioned on the longitudinal plane of symmetry of balance base; The equal power assembly of described 3 node has 2, and the longitudinal plane of symmetry along balance base is arranged on balance base symmetrically; The equal power assembly of each 3 node all can rotate around balance base; It is characterized in that: the equal power assembly of each 3 node is provided with 3 sphere nodes; Described 3 sphere nodes are not on the same line; The centre of gration of each 3 node equal power assembly be located across this 3 node equal power assembly center of gravity and on the straight line of the vertical equal power assembly of this 3 node; The center of described each sphere nodes is provided with through hole; Described through hole is used for installing steel rope; Described sphere nodes can rotate by the winding equal power assembly of 3 node that is equipped with this sphere nodes; The centre of gration of each 3 node equal power assembly and the centre of gration of sphere nodes disposed thereon are in same level; The centre of gration of the equal power assembly of each 3 node and the centre of gration of balance base are in same level, and conllinear.

2. six node compensating gears of steel wire rope for elevator group according to claim 1, is characterized in that: the bottom of described balance base is provided with the first hemisphere jut; Described base is provided with the second spherical cavity; The longitudinal plane of symmetry of described balance base overlaps with the longitudinal plane of symmetry of the first hemisphere jut; Described first hemisphere jut is inserted in the second spherical cavity, and described first hemisphere jut can rotate around the second spherical cavity.

3. six node compensating gears of steel wire rope for elevator group according to claim 1, is characterized in that: the bottom of the equal power assembly of each 3 node is provided with the second hemisphere jut; The centre of gration of described second hemisphere jut be located across the 3 node equal power assembly being provided with this second hemisphere jut center of gravity and on the straight line of the vertical equal power assembly of this 3 node; Face, described balance base Shang Yanqi center is provided with 2 the first spherical cavities symmetrically; Each second hemisphere jut inserts in first spherical cavity respectively; Described second hemisphere jut can winding put this second hemisphere jut first spherical cavity rotate.

4. six node compensating gears of the steel wire rope for elevator group according to claim 1 or 2 or 3, is characterized in that: the equal power assembly of described each 3 node is provided with 3 the second spherical cavities; Described 3 the second spherical cavities not conllinear; Be provided with sphere nodes in each second spherical cavity, described each sphere nodes can winding put this sphere nodes second spherical cavity rotate.

5. six node compensating gears of steel wire rope for elevator group according to claim 1, is characterized in that: the equal power assembly of described 3 node is provided with screw hole, and described screw hole is positioned at the center of gravity of the equal power assembly of 3 node; Swivel mount can be fixed on the bottom of the equal power assembly of 3 node by described screw hole by screw.

6. six node compensating gears of steel wire rope for elevator group according to claim 1, is characterized in that: described base is evenly equipped with fixed orifice, to facilitate mounting seat.