EP1205419A1 - Step for escalator - Google Patents

Abstract

The travel step for an escalator has a tread step (2) with an arc-shaped connected apron (3), both the step and apron having reinforcement ribs (11) and/or reinforcement tracks on an inner surface. Between an edge area of the step arranged at the front in the direction of travel and a removed edge area of the apron, a connecting structure (4) is provided for connection of the step with a drive device.

Description

The invention relates to an escalator for escalators, comprising a Step and an arched apron adjoining the step, the step and the apron arranged on an inner surface reinforcing ribs and / or Have reinforcement rafters for reinforcing the driving step and wherein between an edge area of the kick arranged at the front in the direction of travel and a connection structure to a distant edge region of the apron Connection of the stage with a drive device is provided, the Speed step can be produced from a cast part made of light metal.

Escalators are used to promote people in public areas Alternatives to the passenger elevator used. Be at the escalator step different requirements. The step must be light in weight, stable and be insensitive to dirt and damage. The individual stages, which are manufactured and used in large quantities, must have tight tolerances with regard to dimensional accuracy, even with Temperature fluctuations.

An escalator step is known from EP 945 391 A2. The level is in one first manufacturing step from glass fiber reinforced plastic in one Injection molding process made. To the individual stage the necessary stability give the step in the rear edge of the step across the direction of travel reinforced the step with a hollow metal profile. The metal profile is after the Injection molding process in a further step in a support structure inserted and secured captive by dowel pins.

A generic escalator step is known from DE 196 51 585 A1. On the side edges and on the front edge of the step body is by means of Over-extrusion attached a plastic ledge. The step body points a flange area, which is introduced into an injection mold and overmolded can be. The injection mold is made from a molded body, a Counter-shaped body and from the flange area of the step body composed. Three must therefore be used for the plastic injection molding process Shaped bodies are brought together with a sufficient sealing force.

Based on this prior art, it is an object of the invention to Specify the speed level for escalators, the lowest possible total weight has and without additional installation effort in a simple Manufacturing process can be made.

This object is achieved by an escalator step comprising one Step and an arched apron adjoining the step, the step and the apron arranged on an inner surface reinforcing ribs and / or Have reinforcement rafters for reinforcing the driving step and wherein between an edge area of the kick arranged at the front in the direction of travel and a connection structure to a distant edge region of the apron Connection of the stage with a drive device is provided, the Speed step can be produced from a cast part made of light metal and the The outer surfaces of the step and the apron are injection molded Plastic are formed.

Preferred developments of the invention result from the dependent ones Claims.

It is an advantage that the speed level is insensitive to as much as possible Soiling is and can be cleaned as easily as possible. this will thereby achieved that on the outer surface of the step in the longitudinal direction Grooved grooves and webs are formed and that on the Outer surface of the apron further grooves and webs are formed, the Have a plastic coating covering all sides.

It is further of advantage that the gear step has a total weight that is as small as possible having. This is achieved in that on the outer surface of the step Grooves and webs extending in the longitudinal direction of the escalator are formed and that further grooves and webs are formed on the outer surface of the apron, the webs being made entirely of plastic in an injection molding process are trained. The plastic material for the coating can be chosen in this way the outer surface that is subject to the greatest wear and tear is light can be cleaned or even made dirt-repellent. The plastic material can be colored in different colors be printed or subsequently printed in color.

It is also advantageous that the speed step in a simple procedure can be manufactured. This is achieved in that in the casting between the outer surfaces and the inner surfaces of the step and the apron Passages are formed by injection molding from the outer surface injected with the plastic up to the inner surface. The speed step in a first process step as a cast part made of aluminum in one Die casting process is produced in the subsequent process step completely in an injection mold and is at least on the Outer surfaces overmoulded with the plastic material.

It is also advantageous that the plastic coating of the speed step is as possible is permanently bonded to the aluminum casting as well as possible. This is achieved in that in the area of the passages on the inner surface Anchoring from a single cast with the plastic coating on the Outside surface are formed.

Figur 1 eine perspektivische Teilansicht einer erfindungsgemässen Fahrstufe,

Figur 2 eine weitere perspektivische Teilansicht der Fahrstufe von Figur 1,

Figur 3 eine Sicht auf die Fahrstufe von Figur 2,

Figur 4 eine weitere Sicht auf die Fahrstufe von Figur 2,

Figur 5 einen Schnitt durch die Fahrstufe entlang der Linie AA von Figur 4,

Figur 6 einen weiteren Schnitt durch die Fahrstufe entlang der Linie AA von Figur 4 und

Figur 7 einen Schnitt durch ein weiteres Ausführungsbeispiel der Fahrstufe entlang der Linie BB von Figur 4.

An embodiment of the invention is described with reference to the figures. Show it:

FIG. 1 shows a perspective partial view of a driving step according to the invention,

FIG. 2 shows a further partial perspective view of the drive step from FIG. 1,

FIG. 3 shows a view of the driving step from FIG. 2,

FIG. 4 shows a further view of the driving step from FIG. 2,

FIG. 5 shows a section through the driving step along the line AA from FIG. 4,

FIG. 6 shows a further section through the driving step along the line AA from FIG. 4 and

FIG. 7 shows a section through a further exemplary embodiment of the driving step along the line BB from FIG. 4.

In Figure 1 and Figure 2, a stage 1 for escalators is perspective shown. In both figures, only half of a speed level 1 is shown. Drive level 1 is, seen in the direction of travel of the escalator, left and right mirror-symmetrical with respect to the center line. In Figure 1 the Speed level 1 with a view of the outside surfaces, d. H. the normal Operating status visible areas shown. In Figure 2, speed level 1 is with View of the inner surfaces 5,6, i.e. the normally invisible areas shown. Driving step 1 essentially consists of a step 2, one Apron 3 and a connecting structure 4. The speed level 1 is in a first Process step of the manufacturing process in one piece as a casting Light metal, for example an aluminum alloy. The kick 2 consists essentially of a horizontal plate on which in Longitudinal direction of the escalator on the outer surface of grooves 7 and webs 8 be formed. At step 2, the apron 3 closes at the rear in the direction of travel on. The apron 3 is essentially an arcuate plate the grooves 9 and webs 10 are also formed. When operating the Escalator move the ends of the webs 8 of the step 2 into the grooves 9 of the Apron 3 of the front and rear driving levels. Hereby will achieved that the speed levels remain movable relative to each other and that at the same time the space between two consecutive speed steps is made as inaccessible as possible for the user of the escalator. Herewith is achieved that the risk of injury to the user of the escalator is excluded as far as possible. The connection structure 4 essentially serves for connecting speed step 1 with the drive device not shown here the escalator. In Figure 2 it is particularly clear how the speed level 1 on the Has inner surfaces 5, 6 reinforcing ribs 11. Together with the Connection structure 4, the reinforcing ribs 11 serve to increase the Stiffness of the driving step 1. The webs 8, 10 on the outer surfaces of the step 2 and the apron 3 are not for increasing the rigidity of speed level 1 required and could also be omitted. You only increase the Grip of the outer surfaces and the grooves formed between the webs make room for contamination.

In FIG. 2, anchors 12, 13 can be seen on the inner surfaces 5, 6. The Anchors 12, 13 consist of plastic material that is in a second Process step of the manufacturing process of speed level 1 from External surface through passages 14 described below to Inner surface 5.6 is sprayed through.

In Figure 3, speed level 1, seen from the side of the escalator, is shown. Here are the anchorages 12, 13 made of plastic material on the inner surfaces 5,6 of the step 2 and the apron 3 are also clearly visible. The Connection structure 4 points to a connection not shown Endless chain connected to the drive motor, also not shown is, an axle bushing 15 and a stub axle 16. The connection structure 4 of speed level 1 can also be used with the connection structures of further speed levels can be coupled together to form a chain-like structure.

FIG. 4 shows the driving step 1, seen on the inner surface 6. Here is clearly visible, as the ends of the webs 8 of the step 2 in the grooves 9 of the apron 3 fit.

In FIGS. 5 and 6, the driving step 1 is cut in sections along the Line AA of Figure 4 is shown enlarged. In Figure 5 it can be seen how the Passages 14 with the plastic material from the outer surfaces of the apron 3 and the step 2 have been sprayed through to the inner surface 5,6. Through the Formation of the anchors 12.13 on the inner surface 5.6 of the driving step the plastic coating or the extruded plastic mass additionally secured. In Figure 6 it is shown how the plastic material of the coating can be secured at the end of step 2. The coating can, depending on Strain on the coated surfaces, a layer thickness of a few Have tenths of a millimeter up to several millimeters.

In FIG. 7, the tread surface of driving step 1 is along line BB of FIG. 4 cut and shown enlarged. In the embodiment of Figure 7 is can be seen how the webs 8 and the outer surface of the step 2 completely Plastic material can be made. The more plastic material for that Coating is used, the more metal can be saved for the speed level and the easier the speed step becomes. This will reduce energy consumption reduced for the operation of the escalator. The plastic material can in the Mass can be colored or printed in color on the visible surfaces become. The plastic material can be treated so that it is dirt-repellent that the escalator can be cleaned more easily.

In a first step, a one-piece is made to produce the speed step Casting made of light metal in a metal die-casting mold. The production the die-casting mold is much easier than the production of the previous one Die casting molds for speed levels. After the casting is made, they are The outer surfaces of the step 2 and the apron 3 are flat and have no webs 8.10. Only the passages 14 for the plastic material must be in the Manufacture of the metal die casting mold are taken into account. In the next Process step, the casting is placed in a plastic injection mold. The plastic injection mold is designed such that at least the Outer surfaces of the driving position can be completely accommodated in the shape. Herewith is achieved that the plastic injection mold with the simplest possible Sealing surfaces can be produced. The plastic injection mold is like this formed that the plastic material on the side of the outer surfaces of the Kick 2 and the apron 3 is fed. The shape is such that the grooves and the webs 8, 10 are made entirely of plastic material become. The plastic material is injected through the passages 14. The plastic injection mold for the inside of the gear step is like this formed that the anchors 12,13 on the inner surfaces 5,6 Plastic material are formed.

Claims (7)

Driving step for escalators comprising a step (2) and an arcuate apron (3) adjoining the step, the step and the apron having reinforcing ribs (11) and / or reinforcing rafters arranged on an inner surface (5, 6) for strengthening the step and A connecting structure (4) for connecting the step to a drive device is provided between an edge region of the step (2) arranged at the front in the direction of travel and a distant edge region of the apron (3), wherein the drive step can be produced from a cast part made of light metal, characterized in that that the outer surface of the step (2) and the apron (3) is made of plastic in an injection molding process. Escalator for escalators according to claim 1, characterized in that grooves (7) and webs (8) extending in the longitudinal direction of the escalator are formed on the outer surface of the step (2) and that further grooves (9) are formed on the outer surface of the apron (3) ) and webs (10) are formed, the webs (8, 10) having a plastic coating on all sides covering the outer surface of the drive step. Escalator for escalators according to claim 1, characterized in that grooves (7) and webs (8) extending in the longitudinal direction of the escalator are formed on the outer surface of the step (2) and that further grooves (9) are formed on the outer surface of the apron (3) ) and webs (10) are formed, at least the webs being made entirely of a plastic material in an injection molding process. Driving stage for escalators according to one of claims 1 to 3, characterized in that passages (14) are formed in the casting between the outer surfaces and the inner surfaces of the step (2) and the skirt (3), which are injection molded from the outer surface to the inner surface (5,6) with the plastic material. Escalator for escalators according to one of claims 1 to 4, characterized in that in the area of the passages (14) on the inner surface anchors (12, 13) are formed from one casting with the plastic coating on the outer surface. Driving stage for escalators according to one of claims 1 to 5, characterized in that the plastic material is colored with pigment pigment. Method for producing an escalator for escalators according to one of claims 1 to 6, comprising the method steps of die-casting a one-piece casting made of light metal, and over-extruding the casting with a coating of plastic material, characterized in that the step (2) and the apron (3) the driving step in die casting with an essentially flat, continuous outer surface with passages (14) from the outer surface to the inner surface (5, 6) of the driving step, that when over-extruding at least the step (2) and the apron (3) of the driving step be inserted into the extrusion mold, consisting of a molded body and a counter-molded body, in such a way that it can be taken up completely, that the one-piece cast part on the outer surfaces of the step and the apron is over-extruded with webs (8, 10) made of plastic and that the plastic coating passes through the passages (14) from the outer surface to the inner surface with veran dents (12, 13) made of plastic material are permanently anchored.

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