CN110950210B - Steel sleeve guide shoe of counterweight device of earthquake ladder - Google Patents

Abstract

The invention relates to a steel sleeve guide shoe of a counterweight device of an earthquake ladder, which comprises a counterweight frame, an upper guide shoe, a lower guide shoe, an upper stop component and a lower stop component; the counterweight frame is provided with a counterweight frame upper frame assembly, counterweight upright beams which are symmetrically arranged are connected below the counterweight frame upper frame assembly, a counterweight frame lower frame assembly is fixedly connected below the counterweight upright beams, and a mounting cavity for mounting counterweight blocks is formed between the counterweight upright beams; the upper guide shoes are symmetrically arranged on two sides of the upper frame assembly of the counterweight frame, and the lower guide shoes are symmetrically arranged on two sides of the lower frame assembly of the counterweight frame; the upper stop assemblies are symmetrically arranged below the upper guide shoe on two sides of the counterweight frame, and the lower stop assemblies are symmetrically arranged above the lower guide shoe on two sides of the counterweight frame. The steel sleeve guide shoes of the counterweight device of the earthquake ladder are additionally arranged on the upper part and the lower part of the common counterweight device, and the stop component is arranged, so that the elevator can be prevented from falling off the guide rail.

Description

Steel sleeve guide shoe of counterweight device of earthquake ladder

Technical Field

The invention relates to the technical field of elevators, in particular to a steel sleeve guide shoe of a counterweight device of an earthquake ladder.

Background

At present, earthquakes frequently occur in parts of China and the world, when an earthquake comes temporarily, the elevator counterweight device can fall due to shock induction, a protection device is required to be designed, the common counterweight device is reinforced, and the elevator counterweight device is prevented from falling off a guide rail when the earthquake occurs.

Disclosure of Invention

The invention aims to solve the problems and provides a steel sleeve guide shoe of a counterweight device of an earthquake ladder, which improves the use safety of the elevator.

In order to achieve the above purpose, the technical scheme provided by the invention is as follows:

the steel sleeve guide shoe of the earthquake ladder counterweight device comprises a counterweight frame, an upper guide shoe, a lower guide shoe, an upper stop component and a lower stop component; the counterweight frame is provided with a counterweight frame upper frame assembly, counterweight upright beams which are symmetrically arranged are connected below the counterweight frame upper frame assembly, a counterweight frame lower frame assembly is fixedly connected below the counterweight upright beams, and a mounting cavity for mounting counterweight blocks is formed between the counterweight upright beams; the upper guide shoes are symmetrically arranged on two sides of the upper frame assembly of the counterweight frame, and the lower guide shoes are symmetrically arranged on two sides of the lower frame assembly of the counterweight frame; the upper stop assemblies are symmetrically arranged at the two sides of the counterweight frame below the upper guide shoe, and the lower stop assemblies are symmetrically arranged at the two sides of the counterweight frame above the lower guide shoe; the upper stop component and the lower stop component are composed of two right-angle fixing plates and a tail plate which is connected with right-angle edges of the two right-angle fixing plates and protrudes towards two sides, and the other right-angle edges of the two right-angle fixing plates are fixedly arranged on the counterweight frame.

Further, the upper guide shoe, the lower guide shoe, the upper stop assembly and the lower stop assembly are installed in a load distribution manner.

Further, the upper stop assembly is integrally mounted with the upper guide shoe, or the upper stop assembly is mounted adjacent to the upper guide shoe.

Further, the lower stop assembly is integrally mounted with the lower guide shoe, or the lower stop assembly is mounted adjacent to the lower guide shoe.

Further, the gap between the upper stop assembly and the lower stop assembly and the guide rail is not more than 5mm.

Compared with the prior art, the invention has the beneficial effects that:

the steel sleeve guide shoes of the counterweight device of the earthquake ladder are added on the upper part and the lower part of a common counterweight device, an upper stop component is arranged below the upper guide shoes, and a lower stop component is arranged above the lower guide shoes. When an earthquake occurs, the elevator can be prevented from falling off the guide rail.

Drawings

Fig. 1: the invention discloses a structural schematic diagram of a steel sleeve guide shoe of a counterweight device of an earthquake ladder.

Fig. 2: the invention relates to a schematic cross section of a steel sleeve guide shoe of a counterweight device of an earthquake ladder.

Fig. 3: the stop assembly is schematically constructed.

In the figure: the device comprises a 1-counterweight frame upper frame assembly, a 2-counterweight frame lower frame assembly, a 3-counterweight vertical beam, a 4-upper guide shoe, a 5-lower guide shoe, a 6-upper stop assembly, a 7-lower stop assembly, an 8-right angle fixing plate and a 9-tail plate.

Detailed Description

The invention will be further illustrated with reference to specific examples.

The steel sleeve guide shoe of the earthquake ladder counterweight device comprises a counterweight frame, an upper guide shoe 4, a lower guide shoe 5, an upper stop component 6 and a lower stop component 7; the counterweight frame is provided with a counterweight frame upper frame assembly 1, counterweight vertical beams 3 which are symmetrically arranged are connected below the counterweight frame upper frame assembly 1, a counterweight frame lower frame assembly 2 is fixedly connected below the counterweight vertical beams 3, and a mounting cavity for mounting counterweight blocks is formed between the counterweight vertical beams 3; the upper guide shoes 4 are symmetrically arranged on two sides of the counterweight frame upper frame assembly 1, and the lower guide shoes 5 are symmetrically arranged on two sides of the counterweight frame lower frame assembly 2.

The upper stop assemblies 6 are symmetrically arranged below the upper guide shoes 4 on two sides of the counterweight frame, and the lower stop assemblies 7 are symmetrically arranged above the lower guide shoes 5 on two sides of the counterweight frame.

The upper stop component 6 and the lower stop component 7 are respectively composed of two right-angle fixing plates 8 and a tail plate 9 which is connected with right-angle edges of the two right-angle fixing plates 8 and protrudes towards two sides, and the other right-angle edges of the two right-angle fixing plates 8 are fixedly arranged on the counterweight frame.

The upper guide shoe 4, the lower guide shoe 5, the upper stop assembly 6 and the lower stop assembly 7 are installed in a load distribution manner.

The upper stop assembly 6 is integrally mounted with the upper guide shoe 4, or the upper stop assembly 6 is mounted adjacent to the upper guide shoe 4.

The lower stop assembly 7 is integrally mounted with the lower guide shoe 5, or the lower stop assembly 7 is mounted adjacent to the lower guide shoe 5.

The gap between the upper stop assembly 6 and the lower stop assembly 7 and the counterweight frame is not more than 5mm.

The present invention is not limited to the preferred embodiments, and any simple modification, equivalent replacement, and improvement made to the above embodiments by those skilled in the art without departing from the technical scope of the present invention, will fall within the scope of the present invention.

Claims (1)

1. The utility model provides an earthquake ladder counterweight steel bushing guide shoe which characterized in that: comprises a counterweight frame, an upper guide shoe, a lower guide shoe, an upper stop component and a lower stop component; the counterweight frame is provided with a counterweight frame upper frame assembly, counterweight upright beams which are symmetrically arranged are connected below the counterweight frame upper frame assembly, a counterweight frame lower frame assembly is fixedly connected below the counterweight upright beams, and a mounting cavity for mounting counterweight blocks is formed between the counterweight upright beams; the upper guide shoes are symmetrically arranged on two sides of the upper frame assembly of the counterweight frame, and the lower guide shoes are symmetrically arranged on two sides of the lower frame assembly of the counterweight frame; the upper stop assemblies are symmetrically arranged at the two sides of the counterweight frame below the upper guide shoe, and the lower stop assemblies are symmetrically arranged at the two sides of the counterweight frame above the lower guide shoe; the upper stop component and the lower stop component are composed of two right-angle fixing plates and a tail plate which is connected with right-angle edges of the two right-angle fixing plates and protrudes towards two sides, and the right-angle edges of the other sides of the two right-angle fixing plates are fixedly arranged on the counterweight frame; the upper guide shoe, the lower guide shoe, the upper stop assembly and the lower stop assembly are installed in a load distribution mode; the upper stop component and the upper guide shoe are integrally arranged, or the upper stop component is arranged close to the upper guide shoe; the lower stop component and the lower guide shoe are integrally arranged, or the lower stop component is arranged close to the lower guide shoe; the gap between the upper stop component and the lower stop component and the guide rail is not more than 5mm.