RU118301U1 - ESCALATOR STEP FRAME - Google Patents

Abstract

1. The frame of the escalator step, containing a base, a backbone, a pair of side diaphragms and a pair of fastening elements for the semi-axles of the main runners, characterized in that the base is made in the form of a stamped underfloor sheet, the backbone is made of a channel, and the fastening elements of the semi-axles of the main runners are made of rolled metal square profile and equipped with through holes for the axle shafts. ! 2. The frame according to claim 1, characterized in that it further comprises a pair of lateral support elements made of a pipe of square cross-section, wherein one end of each support element is attached to the backbone, and the other is a support for the lower edge of the sub-sheet and is provided with through holes. ! 3. The frame according to claim 2, characterized in that it further comprises the axis of the auxiliary runners fixed in the through holes of the side support elements. ! 4. The frame according to claim 3, characterized in that it further comprises a pair of strips with a section bent towards the corresponding auxiliary slider, mounted on the axis and attached to the side support elements. ! 5. The frame according to claim 3, characterized in that it further comprises a staple-shaped foot attached to one of the side support elements at the point of its connection with the axis and facing the shelves towards the auxiliary slider. ! 6. The frame according to claim 1, characterized in that the center beam is reinforced with stiffeners.

Description

The utility model relates to the field of escalator engineering, and in particular to the designs of escalator steps and passenger conveyors. More specifically, the utility model relates to the construction of the carcass of a tunnel escalator step.

The step frame is the main component of the escalator stage.

The known design of the escalator stage (SU 954345, IPC В66В 9/12, publ. 30.08.1982), which includes a frame with two diaphragms, to the inner surface of which a spinal beam strengthening it is attached. The through axis, on which the main runners and the traction chain are mounted, is attached to the spinal beam using the stops. The step of this design is not used in tunnel escalators.

A known design of the base of a step or platform of a moving device (RF application 2010117203, IPC В66В 23/12, publ. 10.11.2011), including the rear and front transverse beams of a complex profile made of a sheet of deep drawing, two outer sides, and the transverse beams welded, or riveted, or screwed, or glued, or connected by means of a clinch connection to the sidewalls in a supporting frame.

The known design of the escalator stage (RU 2209174, IPC В66В 23/12, publ. 07/27/2003), selected as a prototype. The prototype step contains a frame with side diaphragms, a spinal beam, main and auxiliary wheels. The frame with the supporting elements and side diaphragms, together with the bushings for the auxiliary drive axles located on the diaphragms, are made as a single unit of die-cast aluminum alloy. The spinal beam is fastened to the frame by means of fasteners, which are inserted into the holes in the diaphragm flanges and the corresponding holes in the plates and the beam shelf.

All of the above structures have a rather complicated structure and can be manufactured only on a large-scale production scale, since the known frames are made using technologies that are not applicable in the conditions of small-scale and medium-scale production, for example, injection molding.

The objective of the claimed utility model is to provide the possibility of manufacturing steps in small and medium-series production at repair facilities. An additional task is to simplify the design of the frame while maintaining its strength and rigidity.

To solve this problem, an escalator stage frame is proposed that contains a base, a spinal beam, a pair of lateral diaphragms and a pair of attachment elements for the semiaxes of the main runners. The claimed frame is characterized in that the base is made in the form of a stamped sheet, the spinal beam is made of a channel, and the fastening elements of the half shafts of the main runners are made of rolled square profile with through holes for the half shafts.

In a preferred embodiment, the frame further comprises a pair of lateral support elements made of a square cross-section pipe, with one end of each support element attached to the spine beam and the other supporting the lower edge of the bed sheet and provided with through holes.

Preferably, the frame further comprises an axis of auxiliary runners fixed in the through holes of the side support elements.

The frame may further comprise a pair of slats with a section bent towards the corresponding auxiliary runner mounted on an axis and attached to the side support elements.

The frame may also further comprise a staple-like tab attached to one of the side support elements at its junction with the axis and facing the shelves towards the auxiliary slider.

The technical result consists in simplifying the design and making it possible to manufacture steps in small and medium-series production at repair facilities. The technical result is achieved due to the fact that the proposed frame is constructed from standard elements, in particular, channel, rolled square profile, pipe of rectangular cross section, interconnected by welding. This greatly simplifies the design of the frame and allows it to be manufactured in small and medium-sized production at repair facilities.

The design of the claimed frame steps is presented in the accompanying drawings.

Figure 1 shows a General view of the frame of the step in front,

Figure 2 shows a General view of the frame of the step from the back.

The frame of the escalator stage, shown in Figs. 1 and 2, is a spatial welded structure consisting of a base in the form of a stamped sheeting 1, to which a spinal beam 2 is welded with two elements 3 for fixing the semiaxes of the main runners, which are brackets made of square rolled metal, in which holes were drilled under the semiaxis of the main runners; two lateral supporting elements 4 in the form of bent struts from a square steel pipe, one end resting on the spine beam 2, and the other along with the axis 5 of the auxiliary runners, which enters the holes in the struts forming a U-shaped contour; two diaphragms 6 stamped from a sheet, connecting, by welding, the struts 4 with the base sheet 1 into a single rigid structure. To the struts 4 and axis 5, two bent strips 7 and a staple-like foot 8 are welded, which ensure the safe passage of the step along the escalator route.

The spinal beam 1 is made of hot-rolled steel channel and reinforced with stiffeners. The axis 5, tightening the struts 4, is simultaneously the axis of the auxiliary runners.

This design of the frame of the step allows to obtain a technical result, which consists in providing the possibility of manufacturing steps in the conditions of small-scale and medium-series production at repair enterprises, due to the fact that the claimed frame is constructed from standard elements, in particular, a channel, rolled square profile, pipe of rectangular cross section interconnected by welding. This greatly simplifies the design of the frame and allows it to be manufactured in small and medium-sized production at repair facilities.

In addition, this design makes it possible to unify the use of frames for steps of various ET-type escalators, as well as to borrow parts (diaphragm, channel and struts) from the frame of an LT-type escalator stage.

Claims (6)

1. The frame of the escalator step, comprising a base, a spinal beam, a pair of side diaphragms and a pair of fastening elements for the half shafts of the main runners, characterized in that the base is made in the form of a stamped sheet, the spinal beam is made of a channel, and the fastening elements for the half shafts of the main runners are made of rolled metal square profile and equipped with through holes under the axle shaft. 2. The frame according to claim 1, characterized in that it further comprises a pair of lateral support elements made of square cross-section pipe, while one end of each support element is attached to the spine beam, and the other is a support for the lower edge of the sheeting and provided through holes. 3. The frame according to claim 2, characterized in that it further comprises an axis of auxiliary runners fixed in the through holes of the side support elements. 4. The frame according to claim 3, characterized in that it further comprises a pair of slats with a section bent towards the corresponding auxiliary runner, mounted on an axis and attached to the side support elements. 5. The frame according to claim 3, characterized in that it further comprises a staple-like tab attached to one of the side support elements at its junction with the axis and facing the shelves in the direction of the auxiliary slider. 6. The frame according to claim 1, characterized in that the spinal beam is reinforced with stiffeners.