CS220137B1 - Moving stairs safety device - Google Patents

Abstract

The device called "escalator safety device" concerns the area of safe operation of these transport devices. In the event of a malfunction manifested by the lifting or lowering of the steps or the lowering of the traction chain, the drive must be switched off. This is achieved by including a switch in the drive control circuit, the functional state of which depends on the position of the lever rotatably mounted on the support frame and coupled to the portal, also rotatably mounted on the support frame. Templates are placed on the portal. Catches are created on the steps. During fault-free operation, the catches pass through the templates. In the event of a malfunction, the catch starts to carry the templates, and thus the portal. Turning the portal results in the lever swinging out and the switch being switched off, which stops the drive.

Description

BACKGROUND OF THE INVENTION The present invention relates to an escalator of escalators comprising a step zone and a power train.

In the interest of safe operation, escalators must be fitted with a safety device which switches off their propulsion if the stairway zone is lowered or raised. The known safety devices are of two types - electronic and mechanical.

The basic element of electronic safety devices is a photocell, whose signal during failure operation, ie when the level is raised or lowered in the monitored place, results in the drive being switched off.

A drawback of this type of safety device is the complexity that arises from the fact that the photocell is connected to an evaluation circuit consisting of a number of components. Complexity results in the relative cost of this electronic safety mechanism.

The mechanical safety device is usually made up of a stop, which is arranged along the path of the individual stages so that the stop of the stop will be deflected in the case of a failure operation. The stop is connected to a lever which is coupled to a switch controlling the drive.

The most common disadvantage of mechanical safety devices is that the cushion ensures an undesired change of the position of the steps in only one direction, ie only when the step is lifted. This means that for the second direction, ie for securing the degree of drop, the safety device must be equipped with a second stop coupled via a lever with its own switch. Additional stops and switches shall be provided in the safety device if it is desirable to monitor the operation of the towing chains. This means that the safety device constructed in this way is very complicated with the demands on a large number of elements used.

These disadvantages are substantially reduced by the escalator of the escalator according to the invention. The escalators are made up of a staircase and a power train. The step zone consists of steps connected by two tension chains. The actuator comprises a control circuit with an in-line switch. The switch is coupled to a lever rotatably mounted on a support frame. The principle of the invention consists in that the lever is provided with a support surface, by means of which it is supported on the thumb during operation of escalators. The thumb is fastened to the portal. The portal is rotatably mounted on a supporting frame. At least one template is attached to the portal. Each step of the step zone is provided with at least one catch on the underside. The template is stored in the capture path. The template is provided with a through recess in the direction of movement of the escalators. The recess has a bottom wall and a top wall. The clearance of the recess is larger than the cross-section of the catch. In order to determine whether the towing chain is not dropping, the locking device is provided with two stops which are attached to the portal. Each cue is terminated under one pull chain.

The safety device according to the invention has the advantage that it consists of several simple mechanical components and a single switch, and in this simplicity it is able to react to both the drop and lift of the steps and the drop of the tension chains.

1 is a cross-sectional view of the guiding track with a safety device nip (FIG. 2), FIG. 2 is a side view of the safety device, FIG. 3 is a section B - B of FIG. 2. The horizontal section of escalators is shown in the drawing.

The escalators are formed by individual steps 4 (Fig. 1j connected to each other by two tension chains 5. The steps 4 are provided with rollers 3 resting on a guide track 2. The guide tracks 2 are fastened to the support frame 1. At the point where the movement of the movable The portal 7 is provided with at least one template 9. Preferably, two templates 9 are attached to the portal 7, provided at the sides of the step zone. the number corresponds to the number of templates 9. The catches 6 preferably have the shape of an inverted letter T. The templates 9 are fixed to the portal 7 so as to interfere with the trajectory of the catches 6 as the steps 4 move. The recess 10 has a bottom wall and an upper wall. This means that, in the case of trouble-free operation of escalators, the catch 6 with its extended part freely passes through the recess 11 in the template 9. Two stops 11 are attached to the portal 7, which extend below the tension chains 5. a shaft 13 on which the lever 12 is rotatably mounted (FIG. 2 and 3). The lever 12 is provided with a surface 14 by which it is supported during operation by a thumb 15 fixed into the portal 7. On the support frame 1, a plate 16 is rotatably mounted by means of the axis 17 on which the mercury switch 18 is fixed. Instead of the mercury switch 18, any other switch whose operation is controlled by the position of the lever 12 can be attached to the support frame 1.

Before starting the escalator operation, the safety device is set to the basic position, that is, the portal 7 hangs freely down and its lever 15 is supported from above by a lever 12 (Fig. 2). A mercury switch 18 is supported on the lever 12 by which electrical current can flow in this position. After moving the escalators in their trouble-free operation, the catches 6 pass freely through the recess 10 in the templates 9. Also, the tension chains 5 pass freely above the stops 11 (Fig. 1j). Once a defect occurs, ie. As a result, the portal 7 will pivot around the pins 8. This will cause the thumb 15 (Fig. 3) to move away from the support surface 14. This causes the lever 12 Releasing the lever 12 results in releasing the switch 12. In this example, the position of the mercury switch plate 18 is changed, thereby interrupting the current flowing, which causes the drive to trip. if any branch of the towing chain 5 drops, the dropped towing chain 5 catches by the stop 11, carrying it with it, which results in 7, pivoting the lever 12 and switching off the drive.

The safety device according to the invention can be used on escalators both in the horizontal and in the inclined section of the track. The locking mechanism can be used for both directions of stairway movement.

Claims (2)

SUBJECT A staircase safety apparatus comprising a staircase and a power train, the stair belt comprising steps connected by two tension chains and the power train comprising a control circuit with an interlock switch, the switch being coupled to a lever pivotably mounted on a support frame, that the lever (12) is provided with a support surface (11) by which it is supported by a thumb (15) attached to the portal (7) during operation of escalators and the portal (7) is rotatably supported on the supporting frame (1) and portal (7) ) is attached to the at least one stencil (9) and each step (4) of the step zone is provided with at least one catch (6) on the underside and the stencil (9) is embedded in the catch path (6) and provided in the moving direction a through recess (10) having a bottom wall and an upper wall, wherein the clearance of the recess (10) is greater than the cross-section of the catch (6), Locking device according to claim 1, characterized in that two stops (11) are fixed to the portal (7), each of which extends under one pull chain (5j).