EA033696B1 - Support frame for a transport device - Google Patents

Abstract

The present invention relates to a support frame (100) for a transport device, in particular for an escalator or moving walkway, having a bottom surface (103) and two side surfaces (101, 102), and to a corresponding transport device. At least one of the side surfaces (101, 102) of the support frame (100) is made of sheet metal (105, 106). A supporting structure (130) is mounted on the metal sheet (105, 106) forming at least one of the side surfaces (101, 102), wherein spacing elements (131, 132) of the supporting structure are mounted diagonally or vertically on one or more portions of the metal sheet of the at least one of the side surfaces, wherein the metal sheet of the at least one of the side surfaces comprises a folding (120) for attaching a balustrade (220) of the transport device disposed directly on the support frame.

Description

The invention relates to a supporting structure of a conveying device, in particular, an escalator or travelator, with a lower surface and two side surfaces.

Transporting devices can be made, for example, in the form of escalators or travelators. Such a conveying device comprises a supporting structure in which various elements of the conveying device are installed, for example a closed circulating conveying web, as well as elements for driving this conveying web.

Such load-bearing structures in most cases are made in the form of half-timbered structures and consist of many longitudinal, vertical and / or diagonal load-bearing girders, struts or beams, which in most cases are made of metal or steel.

These half-timbered constructions are made massive, voluminous, bulky and occupying a large space. As a result of this kind of half-timbered constructions, the area required for the installation of the entire conveying device increases. In addition, half-timbered structures are expensive and require large costs for manufacturing and installation.

From the publication IP S6145880 A, a supporting structure for an escalator with a lower surface and two side surfaces is known. Moreover, the side surfaces are respectively located on one profile, passing along the longitudinal direction of the supporting structure. Additionally, the supporting structure contains spacers to further strengthen the supporting structure.

From the publication EP 2196426 A1, a supporting structure with side surfaces and a lower surface for a transport device is known.

Further from the publication IP 2010189131 A, a transportation device with a supporting structure is known. This supporting structure comprises side surfaces in the form of a lattice structure, the side surfaces being reinforced with spacers.

It is desirable to present an improved supporting structure for a conveying device, for example, escalators or travelators.

In accordance with the invention, there is provided a supporting structure for a conveying device, as well as a conveying device with features of the independent claims. Preferred embodiments are the objects of the respective dependent claims, as well as the following description.

The supporting structure comprises a lower surface and two side surfaces. In accordance with the invention, at least one of the side surfaces of the bearing surface is made of a metal sheet. Under a metal sheet should be understood not only, but one or more metal sheets. On this metal sheet, at least one of the side surfaces is a supporting structure. In particular, both side surfaces are respectively made of a metal sheet on which one supporting structure is located, respectively. The side surfaces and the lower surface can be suitably interconnected, for example, by welding.

The supporting structure according to the invention is intended, in particular, for conveying devices such as escalators or travelators. In particular, the conveying device is configured as a device for transporting people. The supporting structure is made, in particular, in the form of a frame or frame structure of a conveying device. The supporting structure is intended, in particular, to accommodate various elements of the conveying device.

The conveying device comprises, in particular, an endless, encircling, moving conveying web. In the case of an escalator, this transporting web is made, for example, in the form of a staircase, and in the case of a travelator, it is made in the form of a flat transporting web. Further, a moving handrail may be provided. Various elements can be provided for the conveyor belt and / or the moving handrail to move, for example, an engine, shafts, transmission, gears, chains, guide rails, etc. The transporting web, the moving handrail, as well as the elements for driving them can be completely or at least partially located inside the supporting structure.

Preferably, the supporting structure does not contain a half-timbered structure. To create the necessary stability of the supporting structure, no supporting runs, beams or the like are provided. The necessary stability and span length is achieved, in particular, exclusively due to the metal sheet or metal sheets and supporting structures placed on them.

By means of the invention, a supporting structure with particularly high stability is proposed, which is manufactured using low-cost manufacturing, inexpensive elements in the form of metal sheets and a supporting structure. Thus, for the construction of a supporting structure with high stability, there is no longer a need for massive, voluminous and bulky half-timbered structures.

By using a metal sheet, the supporting structure according to the invention can be constructed in a lightweight structure. The supporting structure according to the invention has a comparatively low or lower weight in comparison with the supporting structures of fach- 1,033,696 rack structures. Further, the supporting structure according to the invention has a smaller volume, a smaller length and, therefore, requires less space required for installation compared to conventional supporting structures made of half-timbered structures.

The supporting structure can be manufactured at low cost and cost-effectively. For example, the metal can be reduced to the required shape at low cost or made by pressing in the form of a metal sheet with the desired shape and finally folded. In particular, the metal sheet is made of steel, aluminum or, if necessary, of a polymeric material (fiberglass).

Using the support structure, the stability of the metal sheet is increased. In particular, with this support structure, the span of the supporting structure is increased, that is, the maximum length between two support points between which the support structure and, therefore, the transporting device can be freely fixed without using additional support points or without additional intermediate supports. Intermediate supports which are located below the supporting structure to support the supporting structure from below can be discarded by using this supporting structure, or at least the necessary distance between such intermediate supports can be increased.

Preferably, at least one spacer is arranged on the metal sheet of at least one of the side surfaces as a supporting structure. These spacers can be made, for example, in the form of pylons or load-bearing beams made of metal, for example, steel. The support structure can, in particular, be made of these spacers as a regular reference.

Preferably, the struts of the supporting structure are placed diagonally or vertically on one or more sections of the metal sheet of at least one of the side surfaces. By a diagonal or vertical arrangement it should be understood that the struts of the supporting structure are located diagonally and vertically with respect to the direction of expansion or extension of the supporting structure, in particular with respect to the longitudinal passage, the main axis or the main direction of extension of the supporting structure. In this case, the supporting structures can be located on the sheet both from the inside and from the outside.

When viewed statically, diagonal structures are reinforcing elements with which particularly high stability can be achieved. By using vertical structures, a further increase in stability can be achieved. In particular, each section of the metal sheet contains respectively one diagonal and one vertical spacer. Preferably, the metal sheets of both side surfaces comprise a plurality of such sections adjacent to one another. Thus, the metal sheet preferably contains on its side surfaces a reference of these struts of the supporting structure.

Preferably, the metal sheet / metal sheets of at least one of the side surfaces comprises / comprise a fold for mounting a balustrade of the conveying device. This balustrade is located, in particular, directly on the supporting structure. The possibility of installing a balustrade is provided with an appropriate fold. In particular, a beam or support is located on this fold, on which, in turn, a balustrade can be fixed. In particular, on the upper edge of the metal sheets of the right and left side surfaces, respectively, there is one fold, each for one balustrade of the conveying device.

Preferably, at least one strut of the supporting structure is mounted as a supporting structure on a metal sheet of at least one of the side surfaces, the supporting structure being mounted on the inner and / or outer side of the corresponding side surface.

Preferably, the support structure is mounted on a metal sheet of at least one of the side surfaces by screwing and / or welding and / or otherwise. In this case, the supporting structure can be screwed or welded on the inner and / or outer side of the corresponding side surface.

Preferably, the metal sheet of at least one of the side surfaces comprises at least one hole. This hole or recess may be made in a metal sheet, for example, in the form of a drilled hole or opening. Using this opening, for example, maintenance work and / or repair work can be carried out on the conveying device. Further, these openings can also serve for stability purposes. Due to the hole, the weight of the steel sheet is reduced. The metal sheet with holes is, in particular, less flexible or more difficult to deform than a metal sheet without such holes.

Preferably, at least one hole is made in the form of at least one circular hole. Thus, each hole has a particularly circular shape. Alternatively or additionally, the openings may also have other suitable shapes, for example, oval or elliptical.

Preferably, the area of at least one opening is from 10 to 50%, in particular from 12 to 35% of the area of at least one of the side surfaces. The ratio of the area of holes that are located on one side surface to the area of this corresponding side surface is from 1:10 to 1: 2. Preferably, the width of the individual holes is respectively from 10 to 50%, in particular from 12 to 35% of the width of the side surfaces. If the holes are made, in particular, round, the radius of the holes is preferably from 10 to 50%, in particular from 12 to 35% of the width of the side surfaces. Thus, the holes are preferably made not in the form of relatively small holes, as is the case in the case of a perforated sheet, but in the form of relatively large holes. As the width of the holes or the width of the side surfaces, it is appropriate to understand the length of the holes or side surfaces in a direction that is oriented perpendicular to the longitudinal expansion, the main axis or the main direction of the extension of the supporting structure.

Preferably, one or more sections of the metal sheet of at least one of the side surfaces comprise at least two openings. These at least two openings are preferably diagonally offset relative to each other. At least two holes are offset relative to each other both in the vertical and horizontal directions of expansion or extension of the supporting structure. In this way, a diagonal structure arises between the two holes in the corresponding section of the metal sheet, with which a particularly high stability can be achieved. Due to this arrangement of the two holes respectively, a further increase in the stability of the supporting structure can be achieved while reducing weight.

Preferably, the metal sheet contains on both side surfaces a plurality of such sections adjacent to each other. Thus, the metal sheet preferably has a regular hole pattern on the side surfaces, each two holes being respectively diagonally offset from each other.

Preferably, the struts of the supporting structure are located between two holes respectively. Since the two holes are preferably located diagonally offset relative to each other, the spacer of the supporting structure, in turn, can be located on the metal sheet diagonally between respectively two holes. These spacers are located, in particular, in the diagonal structures described above between the two holes. Further, the struts of the supporting structure can also be arranged vertically between the two holes on the metal sheet.

The supporting structure preferably has a U-shaped profile. Alternatively, the support structure may also have another suitable profile, for example, a double U-shaped profile, a N-shaped profile or an L-shaped profile.

According to a preferred embodiment, the lower surface and the side surfaces of the supporting structure are made of one common metal sheet. Thus, the bottom surface and the side surfaces can be made of one single, common, interconnected metal sheet, however, alternatively, it is also possible to use several sheets. The desired shape of the supporting structure is achieved, in particular, by folding the common metal sheet in the required positions of the metal sheet.

Preferably, the metal sheet of at least one of the sides contains a fold for mounting the bottom plate of the conveying device. This bottom plate is made, in particular, as a landing zone or as an entry and exit area for entering or leaving the conveying device.

Preferably, the metal sheet / metal sheets of at least one of the side surfaces has / have a thickness of 5 to 15 mm, in particular a thickness of 8 mm. Due to this, it is possible to maintain the width of the overall supporting structure extremely small. Preferably, the supporting structure has a maximum width of 1000 to 1500 mm, further preferably 1350 mm.

Further, the invention relates to a conveying device with at least one supporting structure in accordance with the above description. The embodiments of this conveying device according to the invention likewise follow from the above description of the supporting structure according to the invention.

The conveying device is made, in particular, in the form of an escalator or travelator. In particular, the conveying device is designed as a device for transporting people.

If the conveying device is made, for example, in the form of an escalator, then the conveying device may contain, in particular, three load-bearing structures. The first, in particular, horizontally oriented load-bearing structure may be located at one lower level of landing or disembarking for entering or leaving the conveying device, the second, in particular, horizontally oriented supporting structure may be located at the upper level of landing or disembarkation. The third supporting structure may be beveled between the first and second supporting structures. The three supporting structures can be suitably interconnected, for example by welding or bolting.

Alternatively, the conveyor device configured as an escalator may comprise

- 3 033696 is also a general supporting structure. In this case, the supporting structure can be made, in particular, from a single common metal sheet, which has been folded in the corresponding positions.

Other advantages and embodiments of the invention follow from the description and the attached drawings.

It goes without saying that the features mentioned above and still to be explained in the following can be used not only in the correspondingly indicated combination, but also in other combinations or individually without going beyond the scope of the present invention.

The invention is schematically depicted in the drawing based on one embodiment and described in the following with reference to the drawings.

FIG. 1 schematically shows two preferred embodiments of the supporting structure according to the invention of FIGS. 1a and 1b.

FIG. 2 schematically shows a preferred embodiment of a conveying device according to the invention.

In FIG. 1 are schematically depicted and equipped with a reference numeral 100 of two preferred embodiments of a supporting structure according to the invention. The supporting structure 100 is suitable for conveying devices such as, for example, escalators or travelators. The corresponding conveying device is explained in detail below with reference to FIG. 2.

The supporting structure 100 comprises a left side surface 101, a right side surface 102 and a lower surface 103. The side surfaces 101 and 102 are made of a metal sheet 105 or 106, respectively. The lower surface 103 can, for example, also be made of a metal sheet 107. The metal sheets 105 , 106 and 107 are suitably interconnected, for example, welded to each other. Alternatively, the lower surface 103, as well as the left and right side surfaces 101 and 102, can also be made of a common metal sheet, which is suitably folded to form the desired shape of the supporting structure 100.

The metal sheets 105 and 106 of the side surfaces 101 or 102 respectively comprise several holes 110. The holes 110 are formed by circular openings in the metal sheet 105 or 106, respectively.

Each of the side surfaces 101 and 102 is subdivided respectively into several (imaginary) sections 140. In FIG. 1, by way of example only, respectively depicted are two sections 140 on each side. On each of these sections 140 of the respective side surface 101 or 102, respectively, two holes 110 are located.

Two holes 110 of each section 140 are located respectively offset relative to each other, that is, offset relative to each other both in the vertical and horizontal direction of the extension of the respective side surfaces 101 or 102.

On the metal sheets 105 and 106, respectively, the supporting structure is strengthened. In the example of FIG. 1a, the supporting structures 130 are mounted respectively on the outside of the left and right side surfaces 101 and 102, and in the example of FIG. 1b are mounted respectively on the inner side of the side surfaces 101 and 102. A combination of FIG. 1a and 1b.

The support structure 130 comprises spacers 131 and 132 that are welded and / or screwed onto the metal sheet 105 or 106. Each spacer 131 and 132 may have, for example, a U-shaped, double U-shaped, H-shaped or L-shaped profile.

Vertical struts 131 are mounted on metal sheets 105 and 106 vertically with respect to the longitudinal extent of the supporting structure 100, and diagonal struts 132 are mounted diagonally with respect to this longitudinal extent.

In each section 140 of metal sheets 105 and 106, two struts, one vertical and one diagonal struts, respectively, are reinforced. The diagonal struts 132 are respectively located between the two holes 110 of the corresponding section 140. The vertical struts 131 are located respectively between the two holes of the adjacent sections 140.

The upper edge of the metal sheets 105 and 106 is respectively folded. On the resulting fold 120, one balustrade and / or base plate of the conveying device can be respectively supported.

In FIG. 2 schematically shows and is equipped with a reference numeral 200, a preferred embodiment of the conveying device according to the invention. In this example, the conveying device 200 is designed as an escalator.

The escalator 200 in this example contains three load-bearing structures 100A, 100B and 100C, similar to the load-bearing structure of FIG. 1.

The first supporting structure 100A is horizontally located at the lower level 201 of embarkation or disembarkation for entering or leaving the escalator 200. The second supporting structure 100B is horizontally located at the upper landing or disembarking level 202.

The third supporting structure 100C is installed at an angle between the first and second supporting structures 100A and 100B. The supporting structures 100A, 100B and 100C can, for example, be welded to each other or alternatively also made of one whole metal sheet, which is folded accordingly.

On the folds 120 of the left and right side surfaces 101 and 102 of the third supporting structure

100С accordingly, the balustrade 220 of the escalator 200 is strengthened. In this case, directly on the fold

120, the support 221C is respectively reinforced, which again serves as the possibility of attaching the corresponding balustrade 220.

Similarly, on the folds 120 of the side surfaces 101 and 102 of the first and second supporting structures 100A and 100B, respectively, the supports 221A or 221B of the balustrade are strengthened.

Further, on the folds 120 of the side surfaces 101 and 102 of the first and second supporting structures 100A and 100B, the lower escalator plate 210 is respectively reinforced. On this bottom plate 110, you can enter the escalator or leave it at the lower and upper levels 201, 202 of embarkation and disembarkation.

A moving handrail 230 is respectively guided along the balustrades 220. The escalator further comprises a staircase, which is not shown clearly in FIG. 2. Inside the supporting structures 100A, 100B and 100C are located, for example, various elements for driving the staircase and the moving handrail 230, for example, the engine, shafts, transmission, gears, chains and guide rails.

Claims (19)

CLAIM 1. The supporting structure (100) for the conveying device (200), comprising a lower surface (103) and two side surfaces (101, 102), at least one of the side surfaces (101, 102) of the supporting structure (100) is made of a metal sheet (105, 106) on which at least one of the side surfaces (101, 102) is supported by a supporting structure (130), and the spacers (131, 132) of the supporting structure (130) are mounted diagonally or vertically on one or more sections (140) of the metal sheet (105, 106) of at least one of the lateral surfaces hnost (101, 102), characterized in that the metal sheet (105, 106) of at least one of the side surfaces (101, 102) contains a fold (120) for installing the balustrade (220) of the conveying device (200), located directly on supporting structure. 2. The supporting structure (100) according to claim 1, characterized in that at least one spacer (131, 132) of the supporting structure is mounted as a supporting structure on a metal sheet (105, 106) of at least one of the side surfaces (101 , 102), wherein the support structure is mounted on the inside or outside of the corresponding side surface. 3. The supporting structure (100) according to claim 1, characterized in that at least one spacer (131, 132) of the supporting structure is mounted as a supporting structure on a metal sheet (105, 106) of at least one of the side surfaces (101 , 102), while the supporting structure is mounted on the inside and outside of the corresponding side surface. 4. The supporting structure (100) according to any one of the preceding paragraphs, characterized in that the supporting structure (130) is screwed and / or welded to the metal sheet (105, 106) of at least one of the sides (101, 102). 5. The supporting structure (100) according to any one of the preceding paragraphs, characterized in that the metal sheet (105, 106) of at least one of the side surfaces (101, 102) contains at least one hole (110). 6. The supporting structure (100) according to claim 5, characterized in that the area of at least one hole (110) is from 10 to 50%, in particular from 12 to 35%, the area of at least one of the side surfaces (101, 102). 7. The bearing surface (100) according to claim 5 or 6, characterized in that at least one hole (110) is made in the form of at least one circular hole. 8. The supporting structure (100) according to any one of the preceding paragraphs, characterized in that one or more sections (140) of the metal sheet (105, 106) of at least one of the side surfaces (101, 102) contain at least two holes ( 110) located with a diagonal offset relative to each other. 9. The supporting structure (100) according to claim 8, characterized in that the spacers (131, 132) of the supporting structure (130) are fixed between two holes (110), respectively. 10. The supporting structure (100) according to any one of the preceding paragraphs, characterized in that the supporting structure (130) has a U-shaped, H-shaped or L-shaped profile. 11. The supporting structure (100) according to any one of the preceding paragraphs, characterized in that the lower surface (103) and the side surfaces (101, 102) of the supporting structure are made of one common metal sheet. 12. The supporting structure according to any one of the preceding paragraphs, characterized in that the metal sheet (105, 106) of at least one of the side surfaces (101, 102) contains a fold (120) for mounting the bottom plate (210) of the conveying device (200) . 13. The supporting structure (100) according to any one of the preceding paragraphs, characterized in that the metal sheet (105, 106) of at least one of the side surfaces (101, 106) has a thickness of 5 - 5,033,696 to 15 mm, in particular a thickness of 8 mm. 14. The supporting structure (100) according to any one of the preceding paragraphs, characterized in that it has a maximum width of from 1000 to 1500 mm, in particular 1350 mm. 15. The supporting structure (100) according to any one of claims 1 to 14, characterized in that the conveying device is an escalator. 16. The supporting structure (100) according to any one of claims 1 to 14, characterized in that the conveying device is a travelator. 17. A conveying device (200) with at least one supporting structure (100A, 100B, 100C) according to any one of the preceding paragraphs. 18. The transporting device (200) is an escalator. 19. The transporting device (200) is a travelator. according to claim 17, characterized in that the transporting device according to claim 17, characterized in that the transporting device