WO1993025463A1

WO1993025463A1 - Mechanism of moving an elevator cabin in case of a cutting off of the electricity supply

Info

Publication number: WO1993025463A1
Application number: PCT/GR1992/000009
Authority: WO
Inventors: Apostolos Dogoritis
Original assignee: Apostolos Dogoritis
Priority date: 1992-06-18
Filing date: 1992-06-18
Publication date: 1993-12-23
Also published as: AU2148292A

Abstract

A driving mechanism of an elevator cabin in case of a cutting off of the supply of the electricity which consists of a motor moved by oil pressure, which is coupled with the flywheel of the elevator electromotor and which rotates it so that the cabin reaches the next floor. This mechanism functions with electrohydraulic pump which is charged by an accumulator which gets charged during the elevator function and is supplied with a joining clutch and hydraulic piston for the connection and disconnection of the electromotor arm.

Description

DESCRIPTION

TITLE OF INVENTION

MECHANISM OF MOVING AN ELEVATOR CABIN IN CASE OF A CUTTING OFF OF THE ELECTRICITY SUPPLY

This invention concerns a mechanism which removes the elevator cabin in case of a cutting off of the supply of the electricity and as the cabin reaches next floor (upwards or downwards) its function stops so that people who are trapped in can get out of it.

Till this day, the technology of constructing elevetors in multi-storeyed block of flats cannot offer any mechanism which in case of a cutting off of the supply of the electricity and immobilization of the cabin between two floors, would allow trapped people to exit.

In this case the elevator cabin is necessary to be removed from its mechanism cabin by a specialist technician or by the door-keeper of the building -if there is one-; until the remove of the elevator cabin, people in it remain trapped.

The above technical problem led to the research of a technical solution and construction of a mechanism, which can be put in the motor cabin of the elevator and in case of a cutting off of the supply of the electricity it will move an hydraulic pump by force of a direct current accumulator. Thus the hydraulic pump moves en hydraulic motor which coupled in the flywheel of the elevator motor rotates it, so that the cablin can move upwards or downwards (according to the arrangement) and as soon as it reaches to the next floor door, the function breaks off and the trapped people may get out.

The up-to-day technology has not presented any mechanism of removing the elevator cabin with hydraulic pressure situated by the side of the elevator motor and powered by an electric direct current accumulator.

Another purpose of this invention is to encounter problems of endurance, function and duration of the mechanism by making some improvements which will be presented below in the detailed description scheme. There, all the above as well as more advantages of this invention will be clear.

This invention will be understood to the specialists of this technique from the sketches which follow this description and in which some preferable industrial applications of this invention ere illustrated. SKETCH 1 : It shows an upper sight of the invention mechanism with the elevator motor to the position before coupling.

SKETCH 2 : It shows the base A.A' of the hydraulic mechanism and sight B B' of the fork which moves the male coupling.

SKETCH 3 : It shows the base of the electric mechanism of direct current.

SKETCH 4 : It shows an upper section of the hydraulic piston which pushes the fork and moves the male coupling.

SKETCH 5 : It shows a section of the spiral shaft where the male coupling is driving at and couples with the female which is assembled to the shaft of the motor flywheel.

SKETCH 6 : It shows a section of the female coupling which is assembled to the shaft of the motor flywheel. SKETCH 7 : it shows a section of the male coupling which

couples with the female. The component parts of my invention mechanism as they are shown in sketch 1 are the following :

1. Base of the hydraulic mechanism.

2. Hydraulic motor.

3. Oil pressure piston and return by two springs.

4. Spiral shaft.

5. hale joining coupling.

6. Female joining coupling screwed on the shaft of the motor flywheel mechanism.

7. Mechanism which moves the male coupling.

8. Oil presure piston which disconnects the break of the motor mechanism and returns automatically to its previous position pressed by an internal spring of the piston during the cutting off of the supply of the direct current accumulator.

9. Electric mechanism base.

10. Alternative current socket plug

1 1. Direct current accumulator of 12 or 24 VOLT.

12. Electromotor button

13. Electromotor of 12 or 24 VOLT.

14. High pressure pump and oil tank.

15. Alternative current relay

16. Direct current button in the cabin.

17. Reserve light of the cabin.

18. Elevator mechanism 19. Oil pressure pipe to the piston.

20. Oil return pipe from the piston to the tank.

21. Oil pressure pipe from the pump to the hydraulic motor.

22. Oil return pipe from the hydraulic motor to the tank

23. Oil pressure pipe to the piston

24. Oil return pipe from piston to tank

25. Break arm of the motor mechanism.

26. Two springs of the piston return to its first position.

During the cutting off of the supply of the electricity the circuit is interrupted in the socket plug 10 and the relay platinum close

15 turning off at the same time the battery circuit 1 1 through button 12 and the electromotor starts functioning 13 rotating the high pressure pump 14, pressing the oil through the pipe 21 to the hydraulic motor 2 which rotates.

Then the pipe oil 23 pressed to the hudraulic piston 3, pushes the fork 7, driving thus the male coupling 5, which couples with the male 6 which is assembled to the shaft of the motor flywheel and rotates it.

During the cutting off of the supply of the electricity the reserve light of the cabin lights automatically up till its restoration and then it turns off. In any other damage of the electric circuit without any cutting off of the supply of the electricity, in the cabin there is the button of the direct current accumulator which when pressed, it moves the cabin to the neatest floor and stops automatically allowing the exit of the people.

All the elevator systems of function security continue to function even when it functions with an electrohydraulic release mechanism.

It must be mentioned that the present description of this invention was made by reporting to only some examples of application. Thus, any change or modification relating to the shape form, dimensions, using materials and construction and assembling parts are considered as included in the purpose and scope of the present invention.

Claims

1. A mechanism removing an elevator cabin in case of a cutting off of the supply of the electricity with the characteristic of a motor moved by oil pressure, coupled with the flywheel of the elevator electric motor and which rotates it till the cabin reaches the nearest floor.

2. A mechanism according to the claim 1, characterized by the fact that its hydraulic motor takes power from an electrohydraulic pump which functions by electric current from an accumulator; this accumulator while functioning is continuously charged by a charger with the elevator current supply.

3. A joining clutch of the hydraulic mechanism (claim 1), with the elevator motor whose female coupling is screwed on the flywheel and whose shaft is spiral.

4. An hydraulic piston which presses the arm of the elevator electromotor to disconnect it, characterized by a tank at to top of which a pipe is inserted with the input oil pressure and an output pipe with valve and has got an internal spring which brings the piston to its first position during the cutting off of the direct electric current accumulator.