FI90962C - Guide system for a chair lift or the like - Google Patents

Abstract

A rail system (2) for a chair lift (1) or the like to be mounted along a flight of stairs (4) and comprising a rail (5, 6) having a direction of displacement with a horizontal and a vertical component and having an end portion (6) which, with respect to a lower end of a rail portion (5) to be mounted in a fixed position, is adapted to swivel between a position wherein said end portion (6) in the direction of displacement blends with said rail portion (5) and a position wherein said end portion (6) is swivelled upwards into a vertical position abutting against the lower end of said rail portion (5).

Description

90962 wiring for chairlifts or the like

The invention relates to a system as defined in the preamble of claim 1.

5 When installing the end section so that it can turn to the side, the lower part of the guide path is minimized. In fact, when guiding a chairlift to the floor level in front of the stairs in the desired and necessary manner, the guide must extend a distance over the stairwell 10. By constructing the extending guide portion into a laterally extending end portion, the resulting barrier can be reduced.

Several factors must be taken into account in such a rotating structure. The conductor has a guiding function that must not be disturbed. The guide surfaces of the tate must remain free of the projections of the hinges and the fastening parts of the hinges. In addition, it is necessary that the forces and moments be selected between the fixed guide part and the end part so that this does not affect the smooth transition from the conductor part to the end part in the same way. In known conductor systems such as those described above, for this purpose, the end portions are designed and shaped to pivot to the right or left relative to a fixed conductor portion. The substantially vertically extending articulated shaft provides a good starting point for the displacement of the guide surface and the silencing of the forces as desired.

However, turning the head or swinging to the right or left can be very tricky. Depending on whether the guide system is installed on the left or right side of the stairs, the curvature of the end portion 35 to the right or left means that this interferes with or even prevents normal use of the stairs. Such a system is not preferred, but it 2 may be necessary in certain cases, e.g. because a wall or door prevents turning away from the stairs.

The object of the invention is to design the end part in such a way that in the tilted position it hardly disturbs the normal use of the steps and that any doors or walls do not impede pivoting or oscillating movement and that a good transmission and smooth control is created.

The above-mentioned objects are achieved according to the invention in that the end part is arranged to pivot into a fixed position mounted on the fixedly mounted guide part upwards and in the direction of the guide part to a vertical position to rest against the lower end of the guide part.

These features make it possible to place the part in an inclined / pivotable manner against a fixed guide part. No obstacles are to be expected in this direction, as this is the space through which the elevator chair must move in order to reach floor level in front of the stairs. In addition, the tilting / pivoting movement has the effect that when the end part 20 is turned downwards, it can come into contact with the fixed end part, whereby the desired transmission and a smooth displacement of the guide surfaces can be realized.

A further advantageous feature of the invention is that the structure has become more general, i.e. rotating movements in one or the other direction do not have to be taken into account, as in the prior art, and similar parts can be used regardless of whether the guide system is mounted on the left or right side of the stairs. This enables cheaper and simpler manufacturing and storage of parts.

The tilting / pivoting movement can be realized in a relatively simple manner when, according to a further embodiment of the invention, in the position where the end part connects to the fixed guide part, the end part is provided at least at a distance from the lower end of the fixed part. - 90962 3 parts to the desired vertical position. In this case, the end of the fixed guide part can act as a second support or support surface for the end part. However, preferably in the end part, two articulated shafts are arranged at a distance from one another in the longitudinal direction, of which at least one articulated shaft can be subjected to the desired movement by means of an input and transfer device. In this way, it can be ensured in a simple manner that the end part moves in a precisely controlled manner throughout its movement.

10 One or both PTO shafts may consist of camshaft-guided pins or shaft pins. However, it is preferred that the articulated shafts are each connected to the head of the carrier lever and the other ends of the carrier levers are connected by articulated shafts to two fixed points at a distance 15 and at least one of the carrier arms forms part of the input and transfer device. The up-and-down pivoting movement of the end of the tate can be carried out in a simple manner by rotating one of the PTO shafts at the other ends of the pivot levers, 20 e.g. by an electric motor which can be started from the end of the stairs or from a chair lift. Of course, the up-and-down movement of the end part can be carried out manually or with a motor according to the user's choice.

According to a further preferred embodiment of the invention, one of the PTO shafts is arranged close to the lower end of the end part and the pivot lever cooperating with the other PTO shaft in the end part is rotatable by the motor in its articulation bounded by fixed points. The drive unit can then be arranged in 30 steps and substantially below the fixed guide part, while the end part, in its downwardly tilted or downwardly tilted position, can be optimally supported at both ends. In addition, it is preferred that in order to effect a tilting / pivoting movement of the end portion from a 35 oblique position to a substantially vertical position and vice versa, a pivot lever cooperating with a pivot shaft arranged in a substantially aligned lower end of the end portion. where it joins the guide part and, in cooperation with the second articulated shaft, the pivot lever 5 in this position of the end part forms a sharper angle with it than the pivot lever cooperating with the pivot shaft located in the vicinity of the lower part of the end part. Due to these features, in both of their outer positions 10, the end portion can be moved to a stable horizontal or vertical position maintained by gravity, while a second lever not parallel to the underlying lever allows tilting movement during rotation 15.

The stabilization of the pivot lever connected to the lower end of the end portion can be maximized when, according to one embodiment of the invention, the pivot shaft at the lower end of the end portion is flush with the pivots of the second pivot lever when the end portion is in position with the guide portion. In this case, the pivot lever connected to the lower end of the end part cannot turn further downwards and the lowest position of the end part is precisely determined.

According to a further embodiment of the invention, when a spring is used which stabilizes the end part in at least one of its end positions and also supports the rotation of at least the end part upwards and in the direction of the guide part, a structure is obtained which . One possibility is, e.g. . Thus, a structure can be realized in which a spring pulls the end portion to its two end positions, with the end portions displaced away from the lowered end position, the spring supports the upward rotation of the end portion if

According to a preferred embodiment of the invention, in the position in which the end part and the guide part converge, the interface between them extends substantially vertically. Due to the oblique position 10 of the guide, the substantially vertical interface means that the end part rests on a fixed guide part, which optimizes the transmission of forces. Similarly, the tilting / pivoting displacement can be started and stopped without any problems, while in the upturned position the then substantially vertical end part can likewise rest against the vertical support surface. In addition, the end part can in addition be arranged to be locked in its two extreme positions, which locking can be practically automatic due to the tilting / pivoting transition of the end part towards the end of the transition, e.g.

The invention will now be described, by way of example, with reference to the accompanying drawings, in which: Figure 1 is a plan view of a chairlift with a guide system according to the invention, in which parts of the guide system below the chairlift are shown in solid lines; Fig. 2 is a front view of Fig. 1, in which the parts of the guide system-30 now located behind the chair lift, in particular the tilted or turned end part, are also shown in solid lines; Figure 3 is a plan view of the guide system with the end portion in a generally tilted or folded up position; and Figure 5 is a front view of Figure 3.

Figures 1 and 2 schematically show a chairlift 1 movable along a guide system 2.

6

The control and operation of a chairlift is not shown or described below, as it is not within the scope of the invention.

The conductor system 2 comprises a conductor part 5 fixed to the wall 3 and / or the steps 4, which connects to the upwardly tilting or projecting end part 6 shown in Figs. The end part 6 extends substantially down to the floor 7 in front of the gates 4 so that the user of the chair lift 1 can step out of the chair without any problems.

As best shown in Fig. 1, in the lowered position of the end part 6, the door 8 cannot be opened when it pivots as shown in Fig. 3, which turning direction 15 is normal in the case of the outer door 8. If the end part 6 pivots away from the vertical axis 8 , it does not solve the present problem because there is not enough space for this purpose. In situations where there is enough space, most often the door is located next to the stairs leading to another room, such as a toilet or storage room or a meter closet or the like. Turning the end part 6 in the other direction brings it transversely in front of the steps 4, preventing their normal use. According to the present invention, the end portion 6 is proposed to be pivoted backwards and upwards, as shown in Figures 3 and 4.

Here, the end part 6 is articulated to both the pivot lever 9 and the pivot lever 10, both of which consist of two pivot arms arranged on each side of the handrail. The other end of the pivot lever 9 is connected by a pivot shaft 11 to the lower end of the end part 6 and the other end of the pivot lever 9 is connected by a pivot shaft 12 to a support structure 13 fixedly connected to the steps 4. The pivot lever 10 is connected to the second pivot 13 on the PTO shaft 15 to the end part 6. In order not to affect the guide surfaces of the end part 6 90962 7, the PTO shafts 11 and 15 are not mounted directly on the end part 6, but on the parts 16,17 fixedly connected to them. The relative positions of the articulated shafts are thus selected so that in the lowered position 5 of the end part 6, as shown in Fig. 2, the articulated shafts 11, 14 and 15 are substantially in line, so that the pivot lever 9 cannot turn more downwards than shown in Fig. 2 or a very stable elevator control and support position-10 to is realized in the main part 6.

This stable position is improved by arranging a substantially vertical position on the interface 18 between the fixed guide part 5 and the end part 6, so that the end part 6, when located next to the elevator chair 1 against the interface 18, rests against the fixed guide part 5.

It should be noted that the interface 18 extends to the part 17 which is fixedly connected to the end part 6 and the fixed guide part 5.

The motor 19 is arranged to turn the end-20 part 6 upwards from the position shown in Fig. 2 to the position shown in Fig. 4 and vice versa, which motor is arranged to rotate the PTO shaft 14. The starting of the motor 19 can be arranged in such a way that

The upturned or upturned position of the end part 6 is shown in Figures 3 and 4. As clearly shown in Figure 3, the door 8 can open in this position without hindrance, while the normal operation of the steps 4 is practically not hindered. It is also clear that when the door 30 is next to the stairs, the end part 6 in its folded-up position does not prevent the use of the door.

In the position according to Fig. 4, the end part 6 rests against the lower end of the fixed guide part 5, which forms a stable position. Since the end part 35 moves as it moves and tilts as it moves, locking can be effected, e.g. by means of this movement, relatively simply with hook-like plates 8 not shown in the end part and a fixed part which automatically come into contact at the end of the tilting / rotating movement. The locking can, of course, be carried out in the lowered or lowered position.

In the embodiment shown, the guide system is arranged upwards when viewed from the left. It is clear from the drawings, in particular from the plan views, that the conductor system 2 could just as well 10 be installed on the right side of the stairs 4; only the motor 19 should then be located on the other side, which is easily structurally feasible.

The stability of the two end parts can be improved by stretching the schematically shown tension spring 21, 15 which is close to the attachment point 22 of the articulated shaft 14 in the cover lever 10 and the attachment point 23 in the pivot lever 9. In the lowered position shown in Fig. 2, the spring has no effect due to the position of the shafts 11, 14 and 15 in the same plane and 20 due to the fact that the spring 21 has moved past its position of maximum elongation. When the spring 21 is taken out of this position, it stretches somewhat further, after which it contracts with the upward movement of the supports. In the folded-up end position of Fig. 4, the spring 21 is in its most contracted mass position, so that this folded-up position is also stable. In addition, in the downward movement of the end part 6, the spring 21 dampens the rotational movement amplified by gravity. The Tate spring 21 stabilizes the end portion 6 in both of its end positions and its movement 30 between its end positions is balanced, which is advantageous in both the manual and motor cases.

The motor-driven application has been described above. The end part 6 can also be turned to the folded-up position 35 instead of the motor manually, in the event of a fault, e.g. Thereafter, the end part 6 is manually brought into the lowered or tilted position. In manual operation, the end part can be gripped directly to prevent contamination of the hands 5, e.g. from lubricant, a handle or handle can be used, e.g. in part 17, in the vicinity of the interface between the fixed guide part 5 and the end part 6.

It has been found that several applications are possible within the scope of the inventive idea. For example, the support point 12 can be mounted on the first step of the stairs 4 so that the upturned end part can be brought completely into the area delimited by the stairs, i.e. as shown in Fig. 3, to the right behind the line 20 15. During tilting / tilting movement, the articulated shafts 11 and 15 follow a certain path. In addition to the carrier levers 9 and 10, these tracks or one of them can be determined by sliding or rotating the PTO shafts or one of them in the guide groove.

20 In the position of Fig. 2, when the end part 6 can rest against the fixed guide part 5, one pivot lever is in principle sufficient so that in such a case the lock must always be mounted close to the interface 18 if the guide support of the chairlift 1 can move on the other side of the PTO shaft. Thus, in terms of stability, it is advantageous to use at least a double fastening in the end part 6. Instead of a tension spring 21, a torsion spring or a gas spring can be used to increase the stability in the end stations and to allow a tilting / pivoting 30 transition.

Claims (12)

A guide system for a chairlift or the like, which system can be mounted on stairs or along stair coke and which comprises a guide which is inclined both horizontally and vertically with respect to the lower part and which has an end part which is fixed there is provided a pivoting position between the end portion 10 in the transfer direction joining the guide portion and the position in which the end portion is substantially in a vertical plane, forming a substantially right angle with the horizontal component of the transfer direction defined by the fixed part of the guide portion is arranged to pivot in a fixedly mounted guide part (5) from the mating position upwards and in the direction of the guide part (5) to a vertical position to rest against the lower end of the guide part. Guide system according to Claim 1, characterized in that the end part (6) in the position in which it coincides with the guide part (5) at a distance from the lower end of the guide part is provided with at least one articulated shaft (11, 15) to which the supply and transfer device -25 1a (10, 14,19) can be subjected to a movement which brings the end part (6) to the desired vertical position. Guide system according to Claim 2, characterized in that two articulated shafts (11, 15) are arranged in the end part (6) at a distance from one another in the longitudinal direction, at least one of which can be subjected to the desired movement by means of a feed and transfer device (10). 14,19). Guide system according to Claim 3, characterized in that the two articulated shafts (11, 15) are each connected to the end of the pivot lever (9, 10) and the other ends of the pivot levers are connected by articulated shafts (12, 14) to two spaced ends. 90962 and one of the rotary levers (10) also forms part of the delivery and transfer device (10,14,19). Guide system according to Claim 4, characterized in that one of the PTO shafts (12) is arranged near the lower end of the end part (6) and the pivot lever (10) cooperating with the other PTO shaft (15) in the end part (6) is rotatable. with a motor (19) delimited by fixed points-10 la in its trajectory. Guide system according to Claim 5, characterized in that the pivot lever (9), which cooperates with the PTO shaft (11) and is located close to the lower end of the end part (6), extends substantially horizontally when the end part (6) is in contact with the guide part (5). in this position and in co-operation with the second PTO shaft (15), the pivot lever (10) in this position of the end part (6) forms a sharper angle with it than the pivot lever in co-operation with the PTO shaft (11) located in the vicinity of the lower part (6) in proximity to 20. the pivot lever (9) extends substantially vertically. Guide system according to Claim 6, characterized in that the articulated shaft (11) / 25 at the lower end of the end part (6) is flush with the articulated shafts (14, 15) of the second pivot lever (10) when the end part (6) coincides with the guide part (5) with. Guide system according to one of Claims 1 to 7, characterized in that the system comprises a spring (21) which stabilizes the end part (6) in at least one of its end positions and also promotes the upward turning of the end part (6) and the guide part (5). . Guide system according to Claims 7 and 8, characterized in that the spring (21) is fastened at one end to the lower end of the end part (6) in the vicinity of a pivot shaft (11) arranged in close proximity to a connecting arm (9), i.e. a PTO shaft (11, 12) at the ends of the lever (9), the other end of the spring (21) being connected to the PTO shaft (14) connected to the second lever (10) near the second lever (10). Conductor system according to one of Claims 1 to 9, characterized in that in the position in which the end part (6) and the conductor part (5) converge, the interface (18) between them extends substantially vertically. Conductor system according to one of Claims 1 to 10, characterized in that in its two outer positions the end part (6) is in a stable position under the influence of gravity. Guide system according to one of Claims 1 to 11, characterized in that the end part (6) can be locked in its two arable positions. Il 90962