The invention pertains to a hydraulic elevator without a machine room according to the introductory clause of claim 1.
Elevators of this type are used to advantage in residential and office buildings.
An elevator of the type cited in the introductory clause of claim 1 is known from EP 0 924 155 B1. Here, an assembly consisting of a pump and a tank is installed at the bottom of the elevator shaft between the guide rails of the elevator, whereas a valve block is installed outside the shaft. The hydraulic drive is mounted on a crossbeam above the pump/tank assembly.
A similar arrangement is known from WO 2003/013996 A1. The drive assembly with pump, tank, and valve unit is again located in the elevator shaft, but here it is installed next to the guide rails. The valve unit can be moved to various locations.
The invention is based on the task of creating a hydraulic elevator without a machine room in which the tank, the pump, and the valve unit form a single assembly which can be fabricated in the manufacturer's factory and which is so compact that the entire assembly can be accommodated between the guide rails of the cab in the elevator shaft.
The task indicated above is accomplished according to the invention by the features of claim 1. Advantageous elaborations can be derived from the subclaims.
An exemplary embodiment of the invention is explained in greater detail below on the basis of the drawing.
According to the invention, a hydraulic drive 5 is mounted on this compact assembly consisting of the tank 1, the motor 2, the pump 3, and the control valve unit 4. This also means, however, that the assembly must absorb the forces of the hydraulic drive 5 and the cab connected to it. The assembly is therefore built with appropriate strength. An advantageous way of doing this is to arrange four support columns 6 in the tank 1 and to attach the columns to a bottom plate 7 of the tank 1 by welding, for example. The columns pass upward through a cover plate 8 at the top of the tank 1 and are connected to a support plate 9 above the cover plate 8.
It is advantageous for the support columns 6 to be L-profiles of steel. It is advantageous for the motor 2 and the pump 3 to be fastened in place inside the tank 1.
A ring 10, which holds the bottom end of the hydraulic drive 5, is welded to the support plate 9 which closes off the support columns 6. This lower end of the hydraulic drive is formed by a piece of tubing 11, through which a hydraulic line 12, indicated in broken line, extends from a stop valve 13, which belongs to the control valve unit 4 and which is advantageously provided with means 14 for remote control, to the bottom of a hydraulic cylinder 15 belonging to the hydraulic drive 5. The piston rod 16, to the head of which a cable cable pulley 17 is attached, emerges at the top end of the cylinder. The hydraulic line 12 can be flexible or rigid; that is, it can be formed either by a pressure-resistant hose or by a rigid pipe.
A bracket 18, to which one end of the cable 19 is attached, is welded to the lateral surface of the hydraulic cylinder 15. The cable 19 is guided over the cable pulley 17 and conducted to the cab (not shown).
It belongs to the essence of the invention that a structural assembly consisting of the tank 1, the motor 2, the pump 3 and also the control valve unit 4 is prefabricated at the manufacturer's factory and is connected to the hydraulic drive 5 at the construction site. Because, according to the invention, this structural assembly is located in the elevator shaft between the guide rails, it is not easily accessible after the elevator has been installed. For this reason, it is essential to the invention that an emergency operating and monitoring device 31, which can be set up at any desired location outside the elevator shaft, can be connected to the control valve unit 4 by means of a measuring line 30.
It is advantageous, as previously mentioned, for the stop valve 13 to be equipped with means 14 for remote control. The means 14 can be of a mechanical nature, such as a pull cable leading to a point outside the elevator shaft, which can be operated by a lever. But it can also be of an electrical nature. For example, the stop valve 13 can be equipped with an electric servomotor. If such means 14 are provided, as is advantageous, then the stop valve 13 can be operated from the outside before it is necessary to enter the elevator shaft pit for installation or testing work.
Two connections, which are connected to the connection for the measuring line 30, are provided on the emergency operating and monitoring device 31. A first pressure switch 35 and a second pressure switch 36 can be connected here. More than two of these connections could also be provided.
The pressure switches 35 and 36, or more if desired, are used to inform the elevator control unit of various load states such as full load or overload, so that, on the basis of the signals transmitted by the pressure switches 35, 36, the elevator control unit can activate safety switching procedures, if necessary. In place of the pressure switches 35, 36, it would be possible to use a pressure transducer 37, by means of which any desired load state of the cab can be detected and evaluated by the elevator control unit.
Also connected to the connection for the measuring line 30 is a spring-loaded check valve 38. The check valve 38 prevents the piston rod of the hydraulic drive 5 (
On the side of the check valve 38 opposite the measuring line 30, a line leads to an emergency manual drain 39 as prescribed by the standard EN 81-2. The second connection of this drain is connected to a tank line 40, which either leads to an oil tank 41, which, in the case of emergency operation, is able to accept the quantity of oil leaving the hydraulic circuit and which has a capacity of, for example, 5 liters, or goes directly back to the tank 1 (
A manual pump 42 is also connected to the measuring line 30. The second connection of this pump leads to the tank line 40. Thus, if the power fails, the elevator cab can be moved on an emergency basis in the known manner.
Because an emergency operating and monitoring device 31′ of this type is not present in every elevator system, and because only one of them is sufficient to cover the needs of a number of individual elevator systems, costs are significantly reduced.
Number | Date | Country | Kind |
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1199/05 | Jul 2005 | CH | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CH2005/000600 | 10/13/2005 | WO | 00 | 12/19/2007 |