EP1074507B1 - Support structure for long escalators or moving walkways - Google Patents

Description

The invention relates to a supporting structure for escalators and moving walks, which essentially consist of two sideways one Step or plate conveyor line arranged, mainly in Longitudinal and vertical direction, with each other Crossmember connected wall beams and constructive Adaptations for use with large spans.

Escalators or moving walks, the unsupported large distances bridging, require rigid and torsionally rigid designs their supporting structure to avoid disturbing bending or torsional vibrations to avoid in operation. Such vibrations can by periodic impulses from the drive or the revolving stage conveyor line, but also by moving Passengers are excited. Annoying or even dangerous large bending or torsional vibrations are the easiest by executing the supporting structure with high Stiffness and low mass, that means with corresponding high natural frequencies can be avoided.

Usual supporting structures for escalators and moving walks consist essentially of a step or on both sides Plate conveyor line arranged, with each other via cross beams connected, mainly in the longitudinal and vertical directions oriented so-called wall supports. These are mostly in Half-timbered construction made from rolled profiles or rectangular tubes, but can also by other methods such. B. in Solid wall or sandwich construction. Standardized wall brackets are for reasons of cost optimization designed so that the stability of them manufactured support structures for the majority of all occurring bridging distances is sufficient. For the remaining versions with larger bridging distances usually complex special solutions are to be used, such as supporting structures with wall supports of greater height, supporting structures made of thicker profiles or supporting structures with stiffening Additional structures.

A supporting structure according to the preamble of Claim 1 is known from US-A-4,674,615.

A solution is known from EP 0 866 019 Al, in which one such mentioned undervoltage - additional lower straps made of wire ropes or tie rods - the required increase in bending stiffness causes. A disadvantage of this solution is that aesthetic appearance of such an escalator as that the construction can be felt unsatisfactory requires more installation space in the vertical direction, and that specially designed and manufactured additional components Need to become.

The present invention is based on the object Increase required for long escalators and moving walks of bending and torsional rigidity of the supporting structure little effort for manufacturing and logistics and under To avoid the disadvantages described above.

According to the invention, this object is achieved in that both basic wall supports of the supporting structure each have at least one additional, usually identical additional wall bracket is flanged.

From a single wall bracket and an additional wall bracket this creates a double wall bracket, which increases the stability according to the supporting structure gives.

The solution according to the invention has significant advantages over those in which the geometry or the construction materials of the wall supports are each to be adapted to the bridging lengths or special constructions are to be used.
All wall brackets can be manufactured using the same normalized method from identical raw materials with the same machine settings and gauges. Raw materials and processing tools are only to be kept in stock for this version. For series production, only stocks of prefabricated wall brackets of one type are required.
The aesthetic appearance of the escalators and moving walks is not impaired by increased height or by visible additional structures.

Through the measures listed in the dependent claims are advantageous developments and improvements of Subject of the invention specified in the independent claim possible.

An advantage of the reinforcement principle described is that it for a wide variety of wall bracket designs, z. B. for wall brackets in truss, full panel, bending profile or Composite panel construction is applicable.

Under certain circumstances, there are benefits from the application of additional wall supports, the design of which is that of Base wall bracket differs, d. H. for example, it becomes a Additional wall brackets in solid panel construction on a basic wall bracket flanged in half-timbered construction.

In situations where disruptive vibrations unexpectedly look for Commissioning of the facility can occur the problem fixed by retrofitting additional wall brackets become.

Fig. 1

zeigt die Seitenansicht eines Fahrsteigs mit dessen Abstützzonen.

Fig. 2

zeigt einen Wandträger einer Tragkonstruktion in Fachwerkbauweise.

Fig. 3

zeigt einen Querschnitt durch einen Fahrsteig nach Fig. 1. Die linke Seite dieses Querschnitts zeigt einen unverstärkten, die rechte Seite einen verstärkten Wandträger (Doppel-Wandträger) in Fachwerkbauweise.

Fig. 4

zeigt einen vergrösserten Querschnitt durch einen Doppel-Wandträger in Fachwerkbauweise.

Fig. 5

zeigt einen Schnitt durch eine Strebe des DoppelWandträger nach Fig. 4

Fig. 6

zeigt den Aufbau eines Doppel-Wandträgers aus Rechteck-Stahlrohren.

Fig. 7

zeigt eine Draufsicht auf den Doppel-Wandträger nach Fig. 6.

Fig. 8

zeigt einen Schnitt durch einen Doppel-Wandträger bestehend aus einem Basis-Wandträger in Fachwerkbauweise und einem Zusatz-Wandträger in Vollplattenbauweise.

Fig. 9

zeigt eine Draufsicht auf den Doppel-Wandträger nach Fig. 8.

Exemplary embodiments of the invention are explained in more detail below with reference to FIGS. 1 to 6:

Fig. 1

shows the side view of a moving walk with its support zones.

Fig. 2

shows a wall bracket of a supporting structure in half-timbered construction.

Fig. 3

shows a cross section through a moving walk according to Fig. 1. The left side of this cross section shows an unreinforced, the right side a reinforced wall girder (double wall girder) in half-timbered construction.

Fig. 4

shows an enlarged cross section through a double wall bracket in half-timbered construction.

Fig. 5

shows a section through a strut of the double wall support according to FIG. 4

Fig. 6

shows the structure of a double wall bracket made of rectangular steel tubes.

Fig. 7

shows a plan view of the double wall bracket according to FIG. 6.

Fig. 8

shows a section through a double wall bracket consisting of a basic wall bracket in half-timbered construction and an additional wall bracket in solid panel construction.

Fig. 9

shows a plan view of the double wall bracket according to FIG. 8.

In Fig. 1 is a usual rising moving walk 1 in side view shown, with two vertical arrows Mark the position of its support 2 through the building and point out that the intermediate zone of the supporting structure of the moving walk as a free bending beam is.

Fig. 2 shows the support structure 3 of a moving walk in Half-timbered construction, which essentially consists of two by means of cross beams connected wall supports. Is shown here already the embodiment according to the invention with double wall supports. Length-related separations in are not visible the tension and compression straps 12, 13 of the wall beams, because of limited raw material lengths as well as from manufacturing or assembly reasons are unavoidable. The angle profile belts 12, 13 are welded at the separation points Provide flanges over which the wall brackets during assembly can be assembled using screw connections.

Fig. 3 shows a cross section through a moving walk, wherein the left half of the cross section the standard version of the Supporting structure with basic wall brackets 4 and the right one Half with an additional wall bracket 5 according to the invention represent reinforced execution. Can be seen below the upper and lower cross members 6, 7, which together with the side wall beams 4, 5 form the supporting structure, Conveyor plates 8 of the rotating plate conveyor chain, guide rails 9 for the upper and lower run of the plate conveyor chain as well as two so-called glass balustrades 10 (Railing) and two circumferential handrail bands 11.

Fig. 4 shows an enlarged cross section through a Double wall bracket, which is flanged to one side Additional wall bracket (5) to a base wall bracket (4) is. Wall trusses in half-timbered construction are shown, consisting of upper angle profile tension belts 12, lower Angle profile pressure belts 13 and the ones welded to them Truss struts 14. It is clear from Fig. 4 that like a double wall bracket by flanging them together two identical but mirror-image wall brackets arises, with the base wall bracket on one side the supporting structure is identical to the additional wall bracket on the other hand. The connection between basic and Additional wall supports are made by screwing 15, can but also be carried out by means of rivets or welding. Sectional view V-V (Fig. 5) shows one of these connections as a screw connection 15 in the area of the truss struts 14, with an intermediate piece 16 inserted between the struts is.

Similar wall brackets can also be made from rectangular hollow profiles. They are suitable as basic and additional wall brackets and enable their identical, symmetrical structure for left and right versions.
Fig. 6 shows an embodiment of wall supports which are constructed from rectangular hollow profiles 17 in a framework arrangement. At their length-related separating points, the wall support sections have intermediate flanges 18 which are braced against one another during assembly by means of screw connections 19.
FIG. 7 shows how, in the case of wall supports made of rectangular hollow profiles 17, the additional wall supports with screw connections 20 are flanged to the side of the base wall supports in the area of the connecting flanges 18.

FIG. 8 shows a further possible embodiment of double wall supports, in which case the additional wall support 21 consists of solid steel plates. Where necessary, these are provided with through openings 22 and connected to the base wall bracket by screws.
FIG. 9 shows how the additional wall bracket 21 is assembled at length-related separating points via welded-on angle flanges 23 by means of screw connections 24.

Of course, with the various embodiments different combinations in terms of wall supports Can be implemented as a basic or additional wall bracket.

LIST OF REFERENCE NUMBERS

1.

Moving walk or escalator

Second

support zone

Third

supporting structure

4th

Basic wall supports

5th

Additional wall support

6th

Cross member above

7th

Crossbeam below

8th.

slats

9th

guide rail

10th

Glass balustrades

11th

Hand Treadmill

12th

Angle profile traction belt

13th

Angle profile compression chord

14th

Truss strut

15th

screw

16th

connecting piece

17th

Rectangular hollow section

18th

Wafer

19th

screw

20th

screw

21st

Additional wall bracket made of full steel plate

22nd

Through opening

23rd

angle flange screw

Claims (8)

1. Support construction (3) for escalators and moving walkways, which substantially consists of two basic wall supports (4), which are arranged laterally of a step or plate conveying run and oriented predominantly in longitudinal and vertical direction and which are connected together by crossbeams (6), and has constructional adaptations for use for large support widths, characterised in that at least one respective supplementary wall support (5) is flange-mounted to each of the two basic wall supports (4) of the support construction for increase in the rigidity thereof.
2. Support construction (3) for escalators and moving walkways according to claim 1, characterised in that its basic wall supports (4) and supplementary wall supports (5) are constructed as framework supports.
3. Support construction for escalators and moving walkways according to claims 1 and 2, characterised in that its basic wall supports (4) and supplementary wall supports (5) are produced in framework mode of construction from open rolled profile members or from rectangular hollow profile members.
4. Support construction for escalators and moving walkways according to claim 1, characterised in that its basic wall supports (4) or supplementary wall supports (5) or both are constructed as a solid plate construction.
5. Support construction for escalators and moving walkways according to one or more of the preceding claims, characterised in that the constructional executions of its basic wall supports (4) and its supplementary wall supports (5) are identical.
6. Support construction for escalators and moving walkways according to one or more of the preceding claims, characterised in that in the case of asymmetrically constructed wall supports the constructional executions of one of its basic wall supports (4) and one of its supplementary wall supports (5) are identical each time.
7. Support construction for escalators and moving walkways according to one or more of the preceding claims, characterised in that its basic wall supports (4) and supplementary wall supports (5) are laterally flange-mounted to one another by means of screw, rivet or weld connections at locations intended and prepared for that purpose.
8. Support construction for escalators and moving walkways according to one or more of the preceding claims, characterised in that its base wall supports (4) have prepared connecting points so that supplementary wall supports (5) can be flange-mounted to the basic wall supports (4) subsequently, i.e. after installation of the escalator or moving walkway has been carried out.

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