Escalator or moving walkway with at least one access module

Abstract

An escalator or moving walkway comprises two access areas. The escalator or the moving walkway comprises components generating thermal losses that are arranged in at least one of the access areas in a component room. The escalator or the moving walkway comprises at least one walkable access module, which is arranged adjacent to the component compartment. The access module comprises a cavity, wherein at least one opening exists between the component compartment and the cavity, through which the thermal energy of the components generating thermal losses can be transferred from the component compartment to the cavity.

Claims

1. An escalator or moving walkway comprising: two access areas by which the escalator or the moving walkway can be entered or respectively exited; components generating thermal losses arranged in at least one of the access areas in a component compartment below a walkable cover; at least one walkable access module, which is arranged adjacent to the component compartment on an outside side of the component compartment; wherein the walkable access module has a walkable area and a cavity, and wherein at least one opening is present between the component compartment and the cavity through which the thermal energy of the components generating thermal losses can be transferred from the component compartment to the cavity.

2. The escalator or moving walkway according to claim 1, wherein the walkable area of the access module comprises heat-conducting material and the walkable area is the ceiling of the cavity.

3. The escalator or moving walkway according to claim 1, wherein at least some of the components generating thermal losses comprise cooling elements, wherein the cooling elements pass through the at least one opening and protrude into the cavity.

4. The escalator or moving walkway according to claim 3, wherein a cross section of the at least one opening is adapted to a cross section of the cooling elements so that the at least one opening is closed by the cooling elements that pass through it.

5. The escalator or moving walkway according to claim 3, wherein the air present in the cavity and serving as a transport medium of the thermal energy between the cooling elements and the walkable area can be conveyed by at least one blower arranged in the access module.

6. The escalator or moving walkway according to claim 1, wherein an air exchange takes place between the component compartment and the cavity by an air flow which is created because air heated by components generating thermal losses flows into the cavity from the component compartment through at least one opening, and cooler air flows from the cavity into the component compartment through at least one other opening.

7. The escalator or moving walkway according to claim 6, wherein the air flowing through the opening can be conveyed by at least one blower arranged in the access module.

8. The escalator or moving walkway according to claim 6, wherein the air flowing through the opening is conveyed by means of a blower arranged in the access area below the walkable cover.

9. The escalator or moving walkway according to claim 6, wherein the components generating thermal losses comprise a frequency converter or a frequency inverter, and the air flowing through the opening can be conveyed by at least one blower arranged in the frequency converter or the frequency inverter.

10. The escalator or moving walkway according to claim 1, wherein at least one flow baffle is arranged in the cavity of the access module.

11. The escalator or moving walkway according to claim 10, wherein at least a section of a flat extension of the at least one flow baffle is arranged at a parallel distance to the walkable area.

12. The escalator or moving walkway according to claim 11, wherein the flat extension of the at least one flow baffle is arranged vertically relative to the movable area.

13. The escalator or moving walkway according to claim 1, wherein the walkable area of the at least one walkable access module is designed as a ramp or stairs.

14. A method for modernizing an existing escalator or an existing moving walkway, wherein the existing escalator or the existing moving walkway is provided with at least one walkable access module that is adjacent to a component compartment of the existing escalator or the existing moving walkway on an outside side of the component compartment, and that the at least one walkable access module comprises a walkable area and a cavity, wherein at least one opening is created between the component compartment and the cavity, through which thermal energy of components generating thermal losses can be transferred from the component compartment to the cavity.

15. The escalator or moving walkway according to claim 2, wherein at least some of the components generating thermal losses comprise cooling elements, wherein the cooling elements pass through the at least one opening and protrude into the cavity.

16. The escalator or moving walkway according to claim 4, wherein the air present in the cavity and serving as a transport medium of the thermal energy between the cooling elements and the walkable area can be conveyed by at least one blower arranged in the access module.

17. The escalator or moving walkway according to claim 7, wherein the air flowing through the opening is conveyed by means of a blower arranged in the access area below the walkable cover.

18. The escalator or moving walkway according to claim 7, wherein the components generating thermal losses comprise a frequency converter or a frequency inverter, and the air flowing through the opening can be conveyed by at least one blower arranged in the frequency converter or the frequency inverter.

19. The escalator or moving walkway according to claim 8, wherein the components generating thermal losses comprise a frequency converter or a frequency inverter, and the air flowing through the opening can be conveyed by at least one blower arranged in the frequency converter or the frequency inverter.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Preferred exemplary embodiments of the invention are explained in more detail in the description below on the basis of the attached drawings in which corresponding elements are denoted by the same reference numbers. The following is shown:

(2) FIG. 1: A first embodiment is schematically illustrated in a partially cut layout part of an escalator arranged on level ground with a component compartment and with a walkable access module, which is arranged adjacent to the component compartment;

(3) FIG. 2: A second embodiment is schematically illustrated in a partially cut layout part of an escalator arranged on level ground with a component compartment and with a walkable access module, which is arranged adjacent to the component compartment;

(4) FIG. 3: A third embodiment is schematically illustrated in a partially cut layout part of a moving walkway with a component compartment and with a walkable access module, which is arranged adjacent to the component compartment;

(5) FIG. 4: A fourth embodiment is schematically illustrated in a partially cut layout part of an escalator or a moving walkway with a component compartment and with a walkable access module, which is arranged adjacent to the component compartment;

(6) FIG. 5: A fifth embodiment is schematically illustrated in a partially cut layout part of an escalator or a moving walkway with a component compartment and with a walkable access module, which is arranged adjacent to the component compartment;

(7) FIG. 6: A sixth embodiment is schematically illustrated in a partially cut layout part of an escalator or a moving walkway with a component compartment and with a walkable access module, which is arranged adjacent to the component compartment.

DETAILED DESCRIPTION

(8) FIG. 1 shows, schematically, a first embodiment of an access area 2 in a partially cut layout part of a moving walkway 1 arranged on level ground 20. The moving walkway 1 can be entered and exited from the access area 2. Furthermore, the moving walkway 1 comprises two balustrades 3 (only one visible), wherein a revolving hand rail 4 is arranged on each balustrade 3. The balustrades 3 are each affixed to a bearing structure 6 of the moving walkway 1 by means of a balustrade base 5. This bearing structure 6 also comprises a component compartment 7 in which the components generating thermal losses 8, 9 such as a drive motor 8, a controller 9, and in particular a frequency converter or inverter (integrated in the box of the controller 9) are arranged below a walkable cover 10. Furthermore, the moving walkway 1 comprises a walkable access module 18, which is arranged on the floor 20 adjacent to the component compartment 7.

(9) The other end of the moving walkway 1 is essentially built the same wherein there, instead of the drive motor 8, a clamping device or respectively a sprocket group for a pallet band driven by the drive motor 8 (not shown) can be arranged in the component compartment 7. Components generating thermal losses 9 such as, for example, a redundant controller 9 may, of course, be arranged there as well, as it is disclosed, for example, in EP 1 777 192 B1. At this end as well, the moving walkway 1 may have a walkable access module 18, which is adjacently arranged to the component compartment 7.

(10) The access module 18 essentially comprises a walkable area 12 or respectively a floor cover 12 and a cavity 15, whereas the walkable area 12 is configured in the form of stairs in the present embodiment. At least part of the components generating thermal losses 8, 9 arranged in the component compartment 7 comprise cooling elements 13.

(11) Between the component compartment 7 and the cavity 15, there is at least one opening 14 through which the heat energy of the components generating thermal losses 8, 9 can move from the component compartment 7 to the cavity 15. The at least one opening 14 can be a bore, a slot, a recess, a cutout, etc. The thermal energy is guided through the opening 14 by means of the cooling elements 13 because they are arranged such that they pass through the opening 14 and protrude into the cavity 15.

(12) So that no air heated by the cooling elements 13 in the cavity 15 can flow into the component compartment 7, the cross section of the at least one opening 14 is preferably adapted to the cross section of the cooling elements 13 so that the at least one opening 14 is closed by the cooling elements 13 that pass through it.

(13) Since the walkable area 12, as a component of the cavity 15, ends upward relative to the direction of gravity and therefore forms the ceiling of the cavity 15, the walkable area 12 of the access module 18 is preferably made from heat-conducting material. The air heated by the cooling elements 13 raises to the bottom side 16 of the walkable area 12 and can cool off there. This can create a circular air flow S. To support this circular air flow S, at least one flow baffle 17 can be arranged in the cavity 15. At least a section of the flat extension of at least one flow baffle 17 shown in FIG. 1 may be arranged at a parallel distance to the walkable area 12.

(14) FIG. 2 also shows a moving walkway 21 arranged on level ground 20 with a component compartment 7 and with a walkable access module 28, which is arranged adjacent to the component compartment 7. With the exception of the access module 28, the moving walkway 21 shown in FIG. 1 is designed identically with the moving walkway 1 shown, which is why the same reference numbers are used for the same parts.

(15) In FIG. 2, the cooling elements 13 also pass through the opening 14 into the cavity 25 of the access module 28. Contrary to the access module 18 of FIG. 1, the access module 28 shown in FIG. 2 comprises a walkable area 22 or respectively a floor cover 22 that is configured as a ramp. At least a section of the flat extension of at least one flow baffle 27 is also arranged at a parallel distance to the walkable area 22 in cavity 25 of the access module 28. Furthermore, a blower 29 is arranged in the cavity 25 which circulates the air in the cavity 25 and thus assists with the thermal energy transfer from the cooling elements 13 to the walkable area 22. The remaining parts provided with reference numbers have already been described in connection with FIG. 1.

(16) FIG. 3 shows, schematically, a third embodiment of an access area 32 in a partially cut layout part of an escalator 31 supported by the floor 50 of a level 51 of a building. The escalator 31 can be entered and/or exited through the access area 32. Furthermore, the escalator 31 comprises two balustrades 33 (only one visible) wherein a revolving hand rail 34 is arranged on each balustrade 33. The balustrades 33 are each affixed to a bearing structure 36 of the escalator 31 by means of a balustrade base 35. This bearing structure 31 also comprises a component compartment 37 in which the components generating thermal losses 38, 39 such as a drive motor 38, a controller 39, and in particular a frequency converter or inverter are arranged below a walkable cover 40. Furthermore, the escalator 31 comprises a walkable access module 48, which is arranged adjacent to the component compartment 37.

(17) The other end of the escalator 31 is also essentially built the same wherein there, instead of the drive motor 38, a clamping device for a step band (not shown) driven by the drive motor 38 can be arranged in the component compartment 37. Components generating thermal losses 39 such as, for example, a redundant controller 39 may, of course, be arranged there as well, as it is disclosed, for example, in EP 1 777 192 B1. At this end as well, the moving walkway 31 may have a walkable access module 48 which is adjacently arranged to the component compartment 37.

(18) The access module 48 comprises a cavity 45. An air exchange takes place between the component compartment 37 and the cavity 45 such that the air heated by the components generating thermal losses 38, 39 can flow from the component compartment 37 through at least one opening 41 into the cavity 45, and cooler air from the cavity 45 can flow from the cavity 45 through at least another opening 42 into the component compartment 37. To support the air flow S of this air exchange, the air flowing through the openings 41, 42 can be supported by means of at least one blower 49 arranged in the access module 48. Since the walkable cover 40 of the access area 32 of the escalator 31 is arranged on the same horizontal level as the adjacent floor 50 of the building, the access module 48 comprises a level, horizontally arranged, walkable area 52 or respectively floor cover 52.

(19) Because the access module 48 is arranged between the floor 50 and the bearing structure 36 or respectively the framework 36, it must have a sufficiently stable, supporting structure. Preferably, this stable, supporting structure (not shown) is formed as framework and arranged in the cavity 45.

(20) FIGS. 4 to 6 described below all show, schematically, a partially cut layout a part of the moving walkway 1, 21 or an escalator 31 with a component room 7, 37 and with a walkable access module 68, 78, 88. These access modules 68, 78, 88 can therefore be used with the escalator 31 according to FIG. 3 as well as the moving walkway 1, 21 of FIGS. 1 and 2, which is why the components shown in FIGS. 4 to 6 are provided with the same reference numbers, provided they correspond to the components described in FIGS. 1 to 3.

(21) In FIG. 4, the components generating thermal losses 8, 9, 38, 39, 101 arranged in the component compartment 7, 37 comprise a frequency converter 101 or an inverter 101 commercially available on the market. These commercially available components usually have a blower 109 arranged in the frequency converter 101 or the inverter 101. Since the exhaust opening of the blower 109 of the frequency converter 101 is arranged flush against a first opening 61, the cooling air of this component generating lost air 101 is conveyed directly through the opening 61 into the cavity 65 of the walkable access module 68. To guide the cooling air in the cavity 65 of the walkable access module 68, several flow baffles 64A to 64D are arranged in the cavity 65. To ensure that the cooling air can be guided as much as possible along the entire bottom side of the walkable area (not shown due to the chosen section plane), so that it can transfer its thermal energy as efficiently as possible to the walkable area, the flow baffles 64A to 64D shown in the fourth embodiment are arranged in the cavity 65 in a meandering pattern and with its flat extension vertical to the walkable area. The cooled air is guided through the flow baffles 64A to 64D and flow towards a second opening 62 through which it can get to the component compartment 7, 37.

(22) In contrast with FIG. 4, FIG. 5 shows a fifth embodiment of a walkable access module 78 in which only a vertical flow baffle 74 is arranged in the cavity 75 of the walkable access module 78. A blower 79 is arranged in the area of a first opening 71 in the component room 7, 37. The air cooled by the walkable access module 78 is suctioned. A second opening 72 is arranged so that the air flowing from the cavity 75 to the component compartment 7, 37 flows around the drive motor 8, 38.

(23) FIG. 6 shows a sixth embodiment of a walkable access module 88, which is arranged adjacent to the component compartment 7, 37 of the escalator 31 or the moving walkway 1, 21. In this embodiment, there are three openings 81, 82, 83, wherein a blower 89 is arranged corresponding with the first opening 81. The blower 89 is arranged in the component compartment 7, 37 or respectively in the access area 2, 32 below the walkable cover, which is not shown. The cooling air flow generated by this blower 89 is divided in the cavity 85 of the walkable access module 88 by means of two flow baffles 84A, 84B wherein one half of the cooling air flow is guided to the second opening 82 and the other half of the cooling air flow to the third opening 83.

(24) Although the invention has been described by showing specific exemplary embodiments, it is obvious that numerous other embodiment variants can be created with the knowledge of the present invention, for example, by combining the features of the individual embodiments with one another and/or exchanging individual functional units of the embodiments. One possible combination of the embodiments depicted in FIGS. 1 to 6 would result, for instance, if flow baffles were arranged both vertically and horizontally to the walkable area in the cavity. Of course, flow baffles can be arranged in the component compartment as well. Furthermore, the moving walkway can also be inserted in a pit of a structure, and its access modules can comprise a walkable area configured as stairs or a ramp.

(25) In addition, it is possible to use more than one blower in all of the exemplary embodiments. For the sake of better overview, a depiction of drive units, step bands, pallet bands, signal transmitting means, power supply lines, and the like was largely forgone in FIGS. 1 to 6. These would, however, necessarily need to be provided so that the escalator or the moving walkway can be used properly. Consequently, correspondingly configured escalators and moving walkways are covered by the scope of protection of the present claims.