HK1058181B - Emergency drive for an elevator - Google Patents

Description

The invention relates to an emergency drive for a lift with a lifting cab and a counterweight moving drive unit consisting of a motor and a drive drive unit, over which are run ropes connected to the lifting cab and the counterweight, where the emergency drive acts on the drive unit and drives the drive unit at the perimeter in emergency operation and the drive unit is fitted with a gear attached to a gear connected to a notch of an emergency drive motor.

The patent EP 0 468 168 B1 describes a gearless lifting machine for lifts, in which a frame of the machine carries a bearing and a turret. A main shaft is loaded at two points on the main axis by means of a loosening bearing and a fixed bearing. Between the bearing positions a drive unit with a brake disc is provided. The drive unit is fixed to the main axis by means of a first tension set. The two-sided storage of the drive unit allows small deviations of the main axis from the radial axis.

A disadvantage of the well-known device is that it requires a large amount of force to move the main wave.

The first is the case of the EP 0 733 577 A2 lift, which consists of a disc engine with an integrated drive and external brake. The inside of a brake drum is fitted with a gearbox in which a notch of an emergency drive operates in emergency operation.

The disadvantage of this emergency drive is the manufacture of the complex and costly disc-shaped rotor with drive disc and brake drum with inner crown.

The purpose of the invention, as described in claim 1, is to avoid the disadvantages of the known device and to propose a simple emergency drive.

The advantages of the invention are essentially that the heavy and expensive gears used so far per drive unit are replaced by a compact drive which only needs to be present once per machinery space. The drive is only used with the drive unit in emergency operation. After emergency operation the drive is removed from the drive unit. Further advantages are the cost-effective manufacture of the dental crown mounted on the drive unit, whereby the dental segments are made of layered, toothed sheet segments that can be cheaply manufactured by stamping or cutting processes.

The figures in the attached table give a detailed explanation of the present invention.

It shows: The following table shows the figures: a drive unit with drive shaft,Figures 2a and 2b the drive with a crown,Fig. 3 Details of the crown,Figures 4a and 4b An exploded representation of Figures 2a and 2b and 5a and 5b an auxiliary device for emergency drive.

Fig. 1 shows the completed drive unit, consisting essentially of an engine 1, a motor stand 2 serving as a load shield, a bearing buck 5 serving as a load shield, a drive 15 and a machine frame 7 with counter roll support 9. Over the drive 15 are unmarked ropes connected to a lifting cab at one end and the other to a counterweight. The stator of the electric motor 1 is screwed to the motor stand 2 by means of a flange. The rotor of the electric motor 1 is located on a free end of a shaft supporting the drive 15 which is mounted on the bearing buck 5 and on the motor stand 2. The free waves are discharged over the motor stand 2. The free wave is discharged by a break in the seam inside the motor bearing.

The engine stand 2 and the bearing 5 are located on the machinery frame 7 which has an adjustable support 8 at each corner. The counter-rolling bearing 9 is located at the bottom of the machinery frame 7. All the electrical connections of the drive unit are located in a clamping box 10. The drive 15 is accessible from the outside after opening a sliding cover 47.

The design of the emergency drive is described in more detail in Figures 2a to 4b, with Figures 2a and 2b showing a composite and Figures 4a and 4b showing an exploded representation of the assembly; Figure 3 shows details of a gearbox 39 mounted on the drive shaft 15 and Figures 5a and 5b an auxiliary device for the emergency drive.

In emergency operation, the drive 15 is driven via the gear 39; the gear 39 is made of toothed segments 39.1 which are fitted with clamp pins 40 which are drilled through the holes 39.2 and are located in the corresponding holes 15.1 in the gear 15; the screws 41 which are pierced by the gear 39 and screwed into gear 15 keep the segments 39.1 together in an axial direction; a segment 39.1 is made of layered, toothed sheet segments which can be cheaply constructed by means of a static cutting process; the gear 39 is made of several, opposite, layers of clamp pins 39.1 in the opposite direction of the perimeter, with at least two holes in each segment 15.1 for the gear 39.1 being built on the most similar gear segments of the gear 39.1.

The gear 39 is driven by a crank 42 mounted on the shaft of a hydraulic motor 43. The motor 43 is inserted into a feed 5.1 of bearing 5 and attached with screws for this purpose. The feed 5.1 is located in the area covered by a closing lid 45. For example, a mains or battery powered electric motor may be provided instead of the hydraulic motor 43. For example, instead of the direct coupling between the crank 39 and the gear 42, a motor-driven gear may be provided which transmits the engine power to a gear designated instead of the gear 39 via a gear belt, the gear being arranged around the gear wheel like a gear wheel 39.

The shut-off valve 45 has an opening 45.1 which can be closed by a sliding valve 47 as shown in the instructions 45.2, 48 and 49. Before the hydraulic motor 43 is introduced, the sliding valve 47 must be brought into the open position, in which case a safety switch 50 whose impact 50.1 is through the 45.3 hole in the shut-off valve 45 is pushed back through the operation curve 47.1, interrupting a safety circuit so that the operation of the electric motor 1 is not possible during emergency operation.

Figures 5a and 5b show a hydraulic unit which is capable of being driven and consists of a carriage 51 with a carrier 51.1 for the hydraulic motor 43, a carrier 51.2 for the hydraulic unit 52, wheels 51.3, a bracket 51.4 for the placement of the hydraulic hoses and two additional irons 51.5 for the rolling of the electrical cable for the supply of a pump motor 53.

The hydraulic unit 52 consists of a pump with a pump motor 53 which can be switched on by a motor switch 54 and a road valve 55 for controlling the hydraulic motor 43. Other elements of the hydraulic unit 52 are an adjustable overpressure valve 56 and an oil filter 57. In machinery spaces without emergency power supply, a hand pump with a hydraulic storage may be provided instead of the pump motor 53.

Claims (2)

1. Emergency drive for a elevator with a drive unit, which moves an elevator car and a counterweight, consisting of motor and traction sheave, over which cables connected with the elevator car and the counterweight are guided, wherein in the case of emergency operation the emergency drive acts on the drive unit and the emergency drive is directly connected with the traction sheave (15) and drives this, and wherein a rim gear (39), which is connected with a pinion (42) of the emergency drive motor (43), is provided at the traction sheave (15), characterised in that the rim gear (39) is formed from several layers, which are mutually displaced in circumferential direction, of toothed segments (39.1), wherein each segment (39.1) is constructed from layered, toothed plate segments.
2. Emergency drive according to claim1, characterised in that each segment (39.1) has at least two holes (39.2) for receiving dowel pins (40) pressed into holes (15.1) of the traction sheave (15).