RU2223214C2 - Escalator action stairs - Google Patents

Abstract

FIELD: escalators for lifting and lowering of loads and people. SUBSTANCE: escalator contains moving belt forming steps on inclined sections. Steps are platform, each consisting of several metal box frameworks, first of which is driving member connected with traction chains and last is driven member furnished with driven rollers installed in corresponding guides. Frameworks are hinge-connected to each other through axles. Platform occupy horizontal position on inclined part of stairs. Driven rolls are installed in additional shaped guide preventing their falling out in case of reverse movement of platform. EFFECT: decreased overall dimensions. 12 dwg

Description

 An escalator staircase for lifting and lowering loads and continuous people in an inclined plane.

 Known lifting device escalator, inclined plate conveyor with a moving stepped canvas. This stationary lifting machine has a large diameter drive and tension sprockets, since the step represents a steel frame of an unchanging shape.

 The closest analogue is an escalator staircase, which has a moving canvas, forming steps that are platforms on inclined sections, and traction chains for moving these steps, the steps have rollers resting on their guides, and the steps are connected to the chains by means of connecting links, on of the inclined part, the guide rollers and the guide chains are offset relative to each other to the depth of the step tread (US 3515253 A, 06/02/1970). The disadvantage of this device is the multi-linking of musculoskeletal connections having spherical surfaces, which is structurally non-technological, since special treatment is required, a complicated configuration of the shape of the steps, the likelihood of frequent descent of the steps from the rails, since there are a large number of them.

 The objective of the invention is to create a device - stairs escalator action, small-sized mobile, allowing the descent and lifting of goods and people.

 This technical result in the device is achieved by the fact that the moving web is made of steps, platforms that can be folded in one direction and stiffness and emphasis in the other, while steps, platforms serve as the leading node of the whole structure.

 Steps are platforms, each of which consists of several box-shaped metal frames connected by axes in the lower parts. The first carcass along the way is connected by means of curly plates with comparative links of the traction chains. The last frame has driven rollers (rollers) moving along separate guides. The guides of the chains and rollers (rollers) on the inclined part are parallel to each other to the lifting height and are spaced apart in a vertical plane to the width of the tread. Due to the parallelism of the guides on the inclined part, with simultaneous exit, on them from the horizontal part of the device (escalator steps), the canvas forms horizontal platforms-steps of a moving staircase.

 The connection of the box-shaped metal frames in the lower parts through the axles ensures the rigidity of the step and the possibility of bearing a vertical load in a horizontal position on the inclined part of the device, and the articulation makes it possible to bend the drive and tension sprockets of the diameter as small as possible in technical capabilities. There is a figured guide for driven rollers, preventing them from falling out during reverse movement.

The graphic part shows the following:
figure 1 is a General diagram of a device with a local section, explaining the relative position of the traction chains and steps when moving towards the traction sprocket;
figure 2 is a section along the vertical diameter of the traction sprocket, the location of the guide rollers, guide traction chains and a figured plate connecting the steps with the traction chains;
figure 3 is a view of the frames of the stage (relative to the load);
FIG. 4 is a view of the step frame on the left with a local section showing the attachment of the figured plate to the step;
FIG. 5 - the inclined part of the guide rollers, guide chains and the position of the step in the section on an inclined plane;
FIG. 6 is a sectional view of the position of the traction chain and rollers during reverse movement;
Fig.7 - the relative position of the two box-shaped metal frames and the axis connecting them;
Fig - the location of adjacent steps and rollers;
Fig.9 - figured plate;
figure 10 is the same side view;
11 - connection of a figured plate with a connecting link of the traction chain;
12 is the same side view.

 The device comprises a traction sprocket 1, traction chains 2, steps 3, a deflecting sprocket 4, guides of the traction chains 5, 13, 16, guides 6, 14, 15 for driven rollers 18 of step 3. Step 3, which is a platform, consists of several box-shaped metal frames 7, 9, 10, interconnected pivotally by the axis 19. The step 3 by the axis 11 is connected to a figured plate 12 connecting the first frame of the stage, which is the leading node, with the connecting element 17 of the traction chains. The driven rollers 18 are mounted on the last frame of the stage, which is the driven unit. The guide 15 is made curly to prevent the rollers 18 from falling out during the reverse movement of the steps. In this case, the guides 5, 13, 16 form one guide for the traction chain, and the guides 6, 14, 15 form one guide for the driven roller. Metal frames have a rectilinear shape and a box section.

 The device operates as follows.

 The traction sprocket 1 selects the traction chains 2 that move in their guides 5. To the connecting links 17 of the traction chains by means of a figured plate 12 freely sitting on the axis 11 and rigidly fixed to the connecting link of each traction chain, a box-shaped metal frame 7 (leading unit) of the step is attached 3. The dimensions of each frame correspond to: the width is equal to the distance between the guides of the traction chain, the length is equal to the pitch of a flat or double pitch of a round link chain. Due to the box-like cross-section of the articulation along the axes 19 located in the lower articulating curved part of the frames, the step has rigidity and horizontality to carry the load on the inclined part of the device, the articulation when bending around the drive 1 and tension 4 stars.

 The diameter of the sprocket 1 in the calculation depends only on the strength of the chain, and this in turn affects the parameters and dimensions of the device. The last box-shaped metal frame of step 10 has rollers (rollers) 18 mounted on axis 8. The steps fixed by a figured plate 12 to endless traction chains 2 represent a web moving from the drive by a traction sprocket, which on the inclined part of the device becomes a structure of traction chains 5 13 and guide rollers 6, 14 spaced parallel to each other to the depth of the tread and the height of the lift. Traction chains simultaneously and horizontally extend the first and roll out the last frames to the inclined part, while converting the canvas into moving horizontal platforms of the flight of stairs. On the upper part of the device, the traction chains extend the steps-platforms 3, at the same time the first and last curly box-shaped metal frames to the horizontal part, forming a moving web enveloping the sprocket 4 without hindrance due to the articulation of the step frames. In reverse mode, the action occurs in the reverse order.

Claims (1)

An escalator staircase containing a moving canvas forming steps on inclined sections, which are platforms having driven rollers resting on their guides, traction chains for moving the steps and connecting links of the traction chains for connecting the steps to these chains, and the guiding chains and guides the driven rollers are displaced in a vertical plane to the depth of the step tread for placing the step platforms horizontally on the inclined part of the staircase on which The guides of the driven rollers and the guides of the chains are parallel to each other, characterized in that the stage platforms consist of each of several box-shaped metal frames interconnected by through axes in the lower parts to form the leading node of the stage connected by means of a figured plate to the corresponding connecting link of the traction chains, envelopes of the corresponding sprockets, intermediate and driven units, the last of which is connected to the said driven rollers, with the ladder provided with FIG. molecular guide roller for the respective slave stages, preventing it from falling with reciprocating motion.

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