The present invention is an elevator installation with a buffer for creating a zone of protection. A method of creating a zone of protection is a further subject of the invention.
Elevator installations are usually provided with one or more buffers which are arranged at the shaft floor of an elevator shaft in order to stop the elevator car when overrunning the lowermost stopping position in the elevator shaft in the downward direction and/or when overrunning the uppermost stopping position in the elevator shaft in the upward direction after transit of a predetermined travel path. This buffer is usually seated below the elevator car and/or the counterweight.
In order to prevent overrunning of an uppermost stopping position in the elevator shaft in the upward direction at the latest after transiting a predetermined travel path, buffers can also be arranged at the shaft head above the elevator car. Due to the fact that such buffers have to be arranged at the shaft floor or shaft head directly below or above the elevator car, a specific space requirement results. The shaft head or the shaft floor can therefore only be conditionally utilized for other purposes. In the case of elevator installations without a shaft pit, such a standard arrangement of a buffer is not possible, since little space is present underneath the elevator car.
An elevator installation with an elevator shaft, a vertically movable elevator car with a counterweight and with buffers is described in PCT Patent Application WO 00/64798-A1, wherein the buffer is disposed not below the elevator car, but near the elevator car at the shaft floor. The elevator car is provided with brackets which impinge on the buffer if an overrun situation arises, i.e. if the elevator car goes beyond the lowermost stopping position at the lowermost floor in the downward direction. The elevator car is thereby braked and stopped in a short distance above the shaft floor. An overrun protection against overrunning the uppermost stopping position of the elevator car in the upward direction is not proposed in this PCT patent application. The elevator installation has a shaft without a pit. A possibility of creating temporary zones of protection for carrying out maintenance and repair operations in the elevator shaft at the shaft floor and/or at the shaft head is not disclosed.
There is frequently too little space due to constructional or other reasons for a conventional elevator installation with a shaft pit and a shaft head. It may be observed that elevator shafts without an elevator pit and without an elevator head are used particularly in the case of subsequent installation or addition of an elevator installation in an already existing building. In the case of elevator shafts of that kind, but also in the case of conventional elevator shafts, there are situations in which it is necessary to create a zone of protection at the upper or lower shaft end. This is so, for example, when the elevator installation has to be maintained or checked and when for this purpose an engineer has to go into the shaft.
It is important that a system for creating such a temporary zone of protection is safe. There are different proposed solutions for that purpose. The costs and the space requirement for such a system are a further criterion. In addition, a simple checking and maintenance of the system for creating a temporary zone of protection is important. The cost in assembly and the initial aligning of all parts of such a system are also a further criterion which has to be taken into consideration.
An elevator installation with an elevator shaft and a vertically movable elevator car with counterweight is described in European Patent Application EP 0 725 033-A1. Provided at the shaft base is a touch-down device which comprises a pivotable buffer able to be pivoted into the travel path of the elevator car. A zone of protection at the shaft base can thereby be created if needed. As a special form of embodiment there is proposed a combination of a shaft buffer, which is set up outside a path of an elevator car, with a rigid pivot lever pivotable into the path of the elevator car. The elevator car when hitting the pivot lever can thus be braked by the shaft buffer and supported above the shaft floor at a height which lies above the lowermost stopping position of the elevator car.
It is a disadvantage of this form of embodiment that it is indeed suitable for creating a zone of protection at the shaft floor, but does not offer any possibility of stopping overrunning of the lowermost stopping position of the elevator car in the elevator shaft in the downward direction after transiting a predetermined travel path. A possibility of creating a zone of protection at the shaft head is also not provided.
An elevator installation with an elevator shaft, a vertically movable elevator car with a counterweight and a movable support device is described in PCT Patent Application WO 02/051737-A1. The support device is arranged eccentrically at the shaft base between the elevator car and the counterweight and can be moved into the path of the elevator car when necessary. The support device comprises a plate which is pivotably articulated to the shaft floor. If required, this plate is simply pivoted in the direction of the elevator car. Disposed at the elevator car is a buffer which impinges on the plate and stops the elevator car at a predetermined spacing from the shaft floor. A zone of protection at the shaft floor can thereby be created in the case of need. In order to be able to create a zone of protection in the region of the shaft head the elevator car comprises, according to the PCT patent application, a device which is fastened to the roof of the elevator car. This device can be pivoted up and moves against the shaft roof. A zone of protection is thus created at the upper end of the shaft. This PCT patent application is considered to the closest state of the art.
It is a disadvantage of this form of embodiment that for creating a zone of protection at the shaft head there is needed a device which is seated on the elevator car. The mass to be accelerated and moved is thereby increased.
The present invention has the object of providing a solution which makes it possible to create a zone of protection at the lower or at the upper end of an elevator shaft in the case of need.
The elevator installation according to the invention comprises a buffer, which comprises movable means movable into the path of the elevator car and movable means movable into the path of the counterweight.
The movable means movable into the path of the elevator car and the movable means movable into the path of the counterweight can be realized as, for example, a single movable part which is so movable between different positions that it can be brought not only into the path of the elevator car, but also into the path of the counterweight. It is also possible to realize the movable means movable into the path of the elevator car and the movable means movable into the path of the counterweight in each instance by different parts movable independently of one another. For example, a first movable part could be so arranged at the buffer that it is movable into the path of the elevator car and a second movable part could be so arranged at the buffer that it is movable into the path of the counterweight.
Consequently, the movable means can be brought into a use setting in which they are arranged in such a manner that the elevator car and/or the counterweight can be brought into a mechanical contact with the movable means. It is thereby made possible to be able to selectably support the elevator car or the counterweight in a first or a second predetermined spacing above a floor by a single buffer. The predetermined first spacing and the predetermined second spacing can be different depending on the respective arrangement and form of the buffer or the movable means. The elevator car and the counterweight can accordingly be supported at different heights.
In a normal setting of the movable means, the movable means are not disposed in the paths of the elevator car in the counterweight. Consequently, the space available for the elevator car is not restricted when the movable means are brought into the use setting. Due to the fact that selectably the elevator car or the counterweight can each be supported at a predetermined spacing above the floor, the path which the elevator car can travel over is shortened at both ends. Protective spaces are thus created at both ends of the path of the elevator car.
A further form of embodiment of the buffer according to the present invention comprises a damping element which is arranged in such a manner that it projects into the path of the elevator car when the movable means are brought into the normal setting, wherein the damping element is constructed in such a manner that the elevator car can be brought into a mechanical contact with the damping element and can be supported at a third spacing above the floor which is smaller than the first predetermined spacing. This form of embodiment is also usable as an overrun protection, which brakes and stops the elevator car on overrunning a lowermost stopping position in the downward direction.
One form of embodiment of the buffer according to the present invention can comprise a damping element which is arranged in such a manner that it projects into the path of the counterweight when the movable means are brought into the normal setting, wherein the damping element is constructed in such a manner that the counterweight can be brought into a mechanical contact with the damping element and can be supported at a fourth spacing above the floor which is smaller than the second predetermined spacing. This buffer can be used as an overrun protection which through mechanical contact with the counterweight brakes and stops the counterweight in the downward direction and thus brakes and stops the elevator car on overrunning an uppermost stopping position in the upward direction.
The buffer can be developed in such a manner that a damping element projects into the paths of the elevator car and the counterweight when the movable means are brought into the normal setting. Thus, solely through selection of the arrangement of a single buffer the elevator car can be prevented from overrunning a lowermost stopping position in the downward direction and an uppermost stopping position in the upward direction.
This form of embodiment is accompanied by the advantage that with a single buffer—depending on the respective selection of the setting of the movable means—the elevator car and/or the counterweight can each be supported at at least two different spacings above a floor. Such a buffer can, if suitably dimensioned, ensure, in an elevator installation without a pit, an overrun protection against overrunning a lowermost stopping position of the elevator car in the downward direction and against overrunning an uppermost stopping position of the elevator car in the upward direction and additionally—in case of an appropriate setting of a movable means—enable creation of temporary protection spaces below and above the elevator car.
The above, as well as other advantages of the present invention, will become readily apparent to those skilled in the art from the following detailed description of a preferred embodiment when considered in the light of the accompanying drawings in which:
The buffer 10 has a longitudinal extent substantially parallel to the paths VK and VG of the elevator car 15 and counterweight 23. It comprises a lower base element 12 and a more slender upper part 13. The buffer additionally comprises movable means 14 and 14.1 which can be moved out of the upper part 13, as indicated in
The paths VK and VG are indicated in
The movable means 14 and 14.1 are, in the illustrated form of embodiment, constructed to be asymmetrical. The left-hand, trapezium-shaped part 14 projects laterally further out of the upper part 13 than the right-hand trapezium-shaped part 14.1. In addition, the movable means 14 and 14.1 are moved to different heights above the shaft floor 18 through the paths VK and VG: an upper part of the movable means 14 is arranged at a height Z1.1 and an upper part of the movable means 14.1 is arranged at a height Z1.2, wherein Z1.2 is greater than Z1.1 (
The buffer 10 is shown in
Since in the normal state of the buffer 10 the upper part 13 of the buffer 10 does not project into the path VK of the elevator car 15, the elevator car 15 can move to a shaft door 17 of the lower floor without producing a mechanical contact with the buffer 10. In the situation shown in
The buffer 10 is illustrated in a so-termed use state in
If the movable means 14 is brought into its use setting and the buffer 10 is thus disposed in use state, then a mechanical contact of the elevator car 15 with the movable means 14 of the buffer 10 takes place as soon as the elevator car 15 has fallen below a first predetermined spacing, in the present case the spacing Z1.1, with respect to the floor 18. In the case of the illustrated form of embodiment, the elevator car 15 sits by a lower edge on the movable means 14, as shown in
The buffer 10 together with the movable means 14 and 14.1 is so constructed and arranged that a mechanical contact with the counterweight 23 also takes place when the movable means 14.1 is brought into its use setting and the buffer 10 is thus in the use setting and the counterweight 23 falls below the predetermined spacing Z1.2 with respect to the floor 18. The counterweight 23 is not visible in
Since the elevator shaft 11 is a shaft without a shaft pit, a zone of protection in the region of the lower shaft end must be able to be created in the case of need. For creating the zone of protection, the buffer 10 is transferred from the normal state to the use state, wherein this takes place in that the movable means 14 is moved out of the upper part 13. The elevator car 15 can now move downwardly until it settles on the movable means 14 and is supported by the buffer 10 at the spacing Z1.1 with respect to the floor 18. In this manner a zone of protection is created below the elevator car 15. The shaft door 17 is arranged in such a manner that a person can enter and/or leave the zone of protection by opening of the shaft door 17. The spacing Z1.1 ensures sufficient distance from the floor 18 in order to enable safe and problem-free working in the zone of protection.
A temporary zone of protection in the region of the upper shaft end can also be created by the buffer 10. That is shown in
It is possible to so construct the buffer 10 that the base element 12 also acts as a damping element. In this case, the base element 12 absorbs the kinetic energy of the elevator car 15 or the kinetic energy of the counterweight 23 and brakes the elevator car 15 or the counterweight 23 when the elevator car 15 and/or the counterweight 23 comes or come into mechanical contact with the buffer 10. This applies not only to the case that the elevator car 15 and/or the counterweight 23 is or are seated directly on the base element 12, but also to the case that the elevator car 15 or the counterweight 23 is seated on the movable means 14 or 14.1.
If overrunning of the lowermost stopping position of the elevator car 15 in downward direction takes place, a lower edge of the elevator car 15 seats on the base element 12, as is evident from
The form of embodiment of
In another form of embodiment the drive unit of the elevator installation is seated in or directly under the base element 12. In this case the base element would look different in plan view (
It is an advantage of the present invention that it provides different functions with the smallest number of elements and with little space requirement.
The base element 12 does not necessarily have to project into the paths VK and VG if the buffer 10 is to be used exclusively as a device for the creation of protective spaces and does not additionally have to serve as an overrun protection for the elevator car. In this case, the elevator car 15 and the counterweight 23 could not be brought into a mechanical contact with the buffer 10 if the movable means 14 and 14.1 adopt the normal setting. In this case an overrun protection could be realized in that additional buffers, which separately act on the elevator car 15 and/or the counterweight 23 and the dimensions of which are matched to the position of the lowermost and/or the uppermost stopping position of the elevator car 15, are installed in the elevator shaft 11.
The buffer 30 comprises a lower base element 32, which is designed as a stronger damper, and a more slender upper part 33, which is designed as a weaker damper. The buffer 30 comprises movable means 34 which are seated on the upper part 33 and can be rotated between different settings, as indicated in
The buffer 30 is shown in
In the use state, a mechanical contact of the elevator car 35 with the movable means 34 of the buffer 30 takes place as soon as the elevator car 35 has fallen below a first predetermined space Z3 with respect to the floor 38. In the case of the illustrated form of embodiment, the elevator car 35 is seated by a lower edge on the movable means 34, as shown in
The buffer 30 with the movable means 34 is so constructed and arranged that in the use state a mechanical contact with the counterweight also takes place when the counterweight falls below the predetermined spacing Z3 with respect to the floor 38. The counterweight is not visible in
The buffer 30 is shown in normal state in
If overrunning of the lowermost stopping position of the elevator car 35 in the downward direction (not shown in
For creation of a zone of protection, the buffer 30 is transferred from the normal state to the use state, wherein this takes place in that the movable means 34 are rotated about an axis of rotation which is aligned substantially parallel to the path VK of the elevator car 35 or to the path VG of the counterweight. The respective setting of the movable means is controlled by means of a drive and a control device acting on the drive. The drive and the control device are not illustrated in the figures. The elevator car 35 can be moved downwardly until it settles on the movable means 34. In this manner a zone of protection is created below the elevator car 35. A shaft door 37 is arranged in such a manner that a person can enter and/or leave the zone of protection by opening of the shaft door 37. The spacing Z3 ensures sufficient distance from the floor 38 in order to enable a safe and problem-free working in the zone of protection.
Since in the illustrated form of embodiment there is concerned an elevator installation with a shaft pit and since the base element 32 has a longitudinal extent H3, there is created every time a flat zone of protection into which the elevator car 35 cannot penetrate. Even if due to a fault or due to erroneous operation the necessary changeover into the use state is not carried out, a person in the elevator shaft cannot be crushed, since a minimum spacing is always given by the height H3 of the base element 32.
The base element 32 and/or the lower part 33 has or have a length in the direction of the path VK or VG dependent on the mechanical loading thereof. The load-dependence of this extent substantially determines the capability of the base element 32 or of the upper part 33 of braking and stopping the elevator car or the counterweight when impinging on the buffer 30. In order to indicate the loading of the buffer 30 by the elevator car 35, in
A temporary zone of protection in the region of the upper shaft end can also be created by the buffer 30. This state is not, however, shown in
The buffer 40 comprises a lower base element 43, which is constructed as a stronger damper, and movable means 44, which are seated on the base element 43 and can be rotated, as indicated in
The buffer 40 is shown in
In the use state, a mechanical contact with the elevator car 45 with the damper 44.1 of the buffer 40 takes place as soon as the elevator car 45 moves below a first predetermined spacing Z4 with respect to the floor 48. In the case of the illustrated embodiment the elevator car 45 is seated by a lower edge on the damper 44.1, as shown in
The buffer 40 with the movable means 44, 44.1 is so constructed and arranged that in the use state a mechanical contact with the counterweight also takes place when the counterweight moves below the predetermined spacing Z4 with respect to the floor 48. The counterweight is not visible in
The buffer 40 is shown in normal state in
If overrunning of the lowermost stopping position of the elevator car 45 in downward direction (not shown in
If the movable means 44 and 44.1 adopt the normal setting, then an overrunning of the uppermost stopping position of the elevator 45 in upward direction is prevented in that a bracket or another protruding element at the side of the counterweight facing the shaft door 47 produces a contact with the movable means 44 of the buffer 40. This, too, leads to a central loading of the buffer 40.
For clarification, a projection K4.1 of the bracket 45.1 and a projection G4.1 of the bracket or of the protruding element at the counterweight, each projected onto the shaft floor, are illustrated in
For creation of a zone of protection, the buffer 40 is transferred from the normal state to the use state, wherein this takes place in that the movable means 44 are rotated into the paths of the floor 45.2 of the elevator car 45 and the underside of the counterweight (
A temporary zone of protection in the region of the upper shaft end can also be created by the same buffer 40. However, this state is not shown in
As indicated in
According to the present invention the buffer can have a damping characteristic which is specially matched to the case of use. In the case of the third embodiment, the dampers 44.1 are used which enable a lightly damped seating of the elevator car 45 or of the counterweight on the movable means 44 when a zone of protection is to be created. The movable means 44 are thus treated gently in operation. If the elevator car and/or the counterweight impinges or impinge at high speed on the respective buffer—particularly during overrunning beyond the lowermost or the uppermost stopping position of the elevator car—then, thereagainst, the damping characteristics of the base elements 12, 32 and 43 come into use.
The buffer according to present the invention can be equipped with special means which allow an asymmetrical loading without the buffer “collapsing” or “deflecting”. For this purpose the buffer can be surrounded entirely or partly by a corset-like element or be guided by a special means in order to provide compensation for the bending moments arising due to the eccentric buffer loading.
In the case of a part of the embodiments shown the buffer is arranged completely between the elevator car and the counterweight (see, for example,
In the case of a further embodiment the buffer element can be arranged entirely or partly below the counterweight and act directly on the counterweight. A movable means of the buffer element then correspondingly acts on the elevator car in the case of need.
The cross-section of the buffer can be selected as desired. The buffers 10 and 30 have a substantially round cross-section parallel to the floor of the elevator shaft. The buffer 40, thereagainst, has, for example, a square cross-section in the lower region 43.
Movement of the movable means of the buffer can take place electromagnetically, hydraulically, pneumatically, manually or by means of a setting motor, depending on the respective form of embodiment.
In a further embodiment there is used a pit set which comprises a drive/frequency-converter unit, a speed limiter, a fastening for the guide rails and the buffer. Assembly in the elevator shaft is thereby appreciably simplified.
The present invention is also suitable for use in an elevator installation in cantilever disposition.
Through the special arrangement and construction of the buffer there results a reduced space requirement by comparison with conventional solutions.
The present invention is particularly suitable for use in elevator shafts which have no or only small shaft pit and shaft head height dimensions.
It is an advantage of the present invention that regulations for fulfillment of personal protection are maintained and the constructional costs and installation costs, depending on the respective form of embodiment, can be substantially reduced.
The movable means 14, 14.1, 34, 44 and 44.1 can be modified in different ways within the scope of the invention. They can be replaced by means which are foldable, pivotable, slidable and/or rotatable out of a basic setting and movable in each instance into the path or paths of the elevator car and/or the counterweight in order to support the elevator car and/or the counterweight at a spacing above the floor. The movable means can also be so constructed by a suitable arrangement that the elevator car and the counterweight can in each instance be supported at different heights. The can be of multi-part or also of integral construction.
In accordance with the provisions of the patent statutes, the present invention has been described in what is considered to represent its preferred embodiment. However, it should be noted that the invention can be practiced otherwise than as specifically illustrated and described without departing from its spirit or scope.
Number | Date | Country | Kind |
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03405352 | May 2003 | EP | regional |
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Number | Date | Country | |
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20040251086 A1 | Dec 2004 | US |