EP1029822A1 - Inclined arrangement for cable elevator drive - Google Patents

Abstract

The cable lift has a drive unit supported w.r.t a bearer structure (12-15) and with a gearbox (2) with a gearbox housing and crossing axles of an input shaft and a horizontal drive shaft connected to a drive plate and a motor (1) that turns the input shaft coupled to the gearbox housing via a motor housing. The gearbox housing does not protrude beyond the vertical projection of the motor housing in the horizontal plane, at least on the input shaft side.

Description

The present invention relates to a cable elevator with a Elevator drive, consisting of a gear with a traction sheave, a motor, a brake, and a loop wrapped around the drive pulley Supporting elements for the vertical movement of an elevator car, preferably with a counterweight, the motor of the Elevator drive is arranged upward.

An elevator drive of the type mentioned is from DE 37 37 773 C2 known. In this construction, the assembly of the Gearbox simple, and the mounting and dismounting of the engine in a short time Time may be possible, whereby the bearings remain aligned. The motor, which is arranged on the transmission, points to it Top of a drum brake.

With today's high thermal load on the motor windings seems the occurrence of a winding defect due to overload to be more likely than a mechanical defect in the transmission. If a defective motor now needs to be replaced, use the defective engine including the brake above the engine be dismantled. The latter means that for the time being, for example by means of attached rope clips and / or supporting the Counterweight in the shaft, the cabin and the counterweight against unrestrained movements must be secured. This procedure is time-consuming and involves accident risks.

German utility model 1 918 376 discloses one Elevator drive, consisting of a worm gear and a also arranged upright engine, the engine on External rotor motor and its cylindrical outer surface also serves as a brake drum.

With this drive, the must also when changing the motor Brake are removed, which has the same adverse effect arises as previously described. In addition, the large flywheel mass resulting from the outrunner principle accelerating and decelerating the elevator car is unfavorable influence.

In both of the drives mentioned in relation to Gearbox size small motors conclude that these drives are only designed for relatively small outputs. In the Use of a more powerful and therefore larger motor for the middle power range can be the gear unit base partially outstanding engine layout a correspondingly larger one Space requirements for the drive cause what is disadvantageous on the Disposition options affects.

The present invention is therefore based on the object to create an elevator drive, the motor and Gearbox housing dimensions are narrow, i.e. in at least one horizontal dimension are so small that the drive can be arranged in the shaft to save space can, using common forms of engine. Should continue the engine quickly and easily without the disadvantages mentioned be interchangeable.

The elevator drive according to the invention is characterized in that that the elevator drive with the motor mounted upright for Vertical is arranged somewhat inclined, such that in the vertical projection from above the motor inside the side Expansion of the gear is located and that this is without expensive constructive intervention is possible.

Advantageous further developments and improvements are in the Subclaims listed.

The inclination of the motor-gear axis is achieved in that the mounting feet on the gearbox in one of the gearbox base areas are arranged according to the inclined plane.

The mechanical brake is located between the engine and the Gearbox and does not have to be dismantled when changing the engine. Therefore, the drive or the traction sheave remains after Blocked motor removal by means of the closed brake, with which no additional security measures are necessary.

The mechanical brake is an integral part of the transmission formed and is arranged in a housing part of the transmission.

The housing part that holds the brake is facing upwards Directed flange collar with a flange plate for the admission of the engine and is, together with the Lower gear part, designed as a one-piece cast housing.

The oval-like one, optimized for great strength and rigidity Vertical cross section of the gear housing, the curves of which different radii are formed and its height is greater than its width allows thin walls and therefore one small lateral expansion of the gearbox.

The arrangement of a flywheel above the engine enables the use of a flywheel over the engine case cross section protrudes without exceeding the installation dimensions.

Fig.1 eine dreidimensionale Ansicht des Aufzugantriebes und dessen Plazierung im Schacht,

Fig.2 einen Vertikalquerschnitt des Aufzugsantriebes nach Fig.1,

Fig.3 eine Frontansicht,

Fig.4 eine Seitenansicht und

Fig.5 einen Querschnitt des Getriebes entlang dem Schnittverlauf V-V in Fig.2.

The invention is explained in more detail below using an exemplary embodiment and illustrated in the drawings. Show it:

1 shows a three-dimensional view of the elevator drive and its placement in the shaft,

2 shows a vertical cross section of the elevator drive according to FIG. 1,

3 shows a front view,

4 shows a side view and

5 shows a cross section of the transmission along the section VV in Fig.2.

1 shows the elevator drive according to the invention using the example a shaft assembly. The elevator drive consists of one Gear 2 with an upwardly extending, laterally perforated flange collar 8, which the mechanical brake contains and a motor 1 built above the brake with a flywheel 9. The mechanical brake consists of a Brake drum 5, a brake magnet 3 and brake shoes 4. The Brake shoes 4 act from the outside through lateral openings in the Flange collar 8 on the brake drum 5. The flange collar 8 is closed at the top with a flange plate 38 on which the Motor 1 is screwed on. The transmission 2 is by means of lateral Fastening feet 10 with horizontal gear supports 11 and 12 releasably connected. A traction sheave 6 is located on the side of the transmission 2 arranged with a cover 7. Are about the traction sheave 6 Support members 18 looped, which is a cabin, not shown and carry a counterweight, not shown. The Transmission carriers 11 and 12 are on a horizontal Traverse 13, which in turn via elastic intermediate layers 14 with the car guide rails 17 and with the counterweight guide rails 16 is connected. The listed parts 11-14 thus form a machine console for the elevator drive. In Fig. 1 it can also be seen that the motor 1 is not exactly vertical, but deviating slightly from the vertical is arranged.

The further details of the elevator drive are as follows explained in more detail with reference to FIG. The active transmission parts, one Auger 20 and one engaging with auger 20 Worm gear 27, are closed in an oil-tight, for example rectangular shaped cavity in the lower part of a Gear housing 28 installed. The screw 20 is a component a motor / worm shaft 19, which with a Fixed bearing 30 is held radially and axially in the gear housing 28 and at the upper exit from this part of the transmission housing 28 is guided with a floating bearing 29. The worm wheel 27 is with a traction sheave shaft 35 rotatably connected. This part of the Gear housing 28 is on the right with a gear cover 31 locked, has an oil drain screw at the lowest point 32 and is up to a level 33 with a gear oil 34 filled. This lower part of the gear case 28 is together with the flange collar 8 extending upwards Flange plate 38, formed as a one-piece cast housing.

To the right of the flange collar 8 is on a flat part of the Gearbox 28 of the brake magnet 3 attached. At 37 is one Manual release lever for manual brake release. Above of the floating bearing 29 and within the flange collar 8 is the Brake drum 5 arranged and fixed to the motor / worm shaft 19 connected. With the flange plate 38 is a motor housing 24 of the Motor 1, preferably by means of screws, releasably connected. The Motor housing 24 comprises a laminated stator package 23 with one Stator winding 22, the lower ends, or the winding heads protrude into the flange collar 8. On the motor / worm shaft 19 is located in the area of the stator pack 23 for AC motors typical rotor 21 with laminated core and Short-circuit winding.

Towards the upper end of the motor / worm shaft 19 above the Rotors 21 are a fan wheel 25 and a flywheel on this 9 rotatably attached and secured axially with a screw 40. At 36 is a screwed onto the flywheel 9 Designated bevel gear ring. The air outlet opening on the circumference of the Fan wheel 25 is covered with a fan grill 26. With β is the inclination angle to the vertical designated. The angle of inclination β can be that amount Angular degrees have the advantages mentioned be achieved. In the example shown, the angle β is approximately 10 °. The level of a gearbox base designated 39 is with the same angle β inclined to the horizontal plane.

The front view of Figure 3 also shows the parts Manual drive shaft 44, swivel mechanism 43 and bevel pinion 42, as well said bevel gear ring 36 a manually operated Evacuation device. Furthermore, the oval-like shape of the Gearbox with the gear cover 31 recognizable.

In Figure 4, the advantage with the angle β from the vertical deviating axis of the motor 1 clearly. Because in the vertical line of the engine 1 does not affect the transmission case base towered over, this elevator drive can be correspondingly close to one Shaft wall 41 can be placed because the extension is transverse to Guide rail level, i.e. the horizontal extension of the Drive between shaft wall and cabin travel profile accordingly is narrow. Furthermore, an elevator car attached below can be attached to the right side of the elevator drive according to Fig.4 along the Cabin guide rails 17 to the engine 1 of the Raise the elevator drive.

5 shows a cross-sectional shape of the transmission housing 28 the interface marked in FIG. 2 of the transmission housing 28. This Figure 5 shows a strength for this gear 2 and torsional rigidity optimal contour of the housing wall. The outer housing contour has a height h, which is larger than the width b. The determined using the finite element method Housing contour has four in its course in the example shown different radii R1-R4, with the number inside each other transition radii can be greater or less than four. It this results in an oval-like cross-sectional shape of the housing wall. Furthermore, the housing wall thickness can be kept relatively small be, which in turn is favorable to the external dimensions and also affects the weight of the transmission 2.

The construction of the elevator drive is limited to Details not only on the example shown. So is for example, the mechanical brake also with a disc brake the corresponding fittings can be executed.

The engine 1 can be a different from the embodiment shown Have size and shape.

Reference list

1

engine

2nd

transmission

3rd

Brake magnet

4th

Brake shoe

5

Brake drum

6

Traction sheave

7

Traction sheave cover

8th

Flange collar

9

flywheel

10th

Mounting feet

11

Gearbox mount

12th

Gearbox mount

13

traverse

14

Liner

15

Angle bracket

16

Counterweight guide rail

17th

Guide rail cabin

18th

Suspension cables

19th

Motor / worm shaft

20th

slug

21

rotor

22

Stator winding

23

Stator package

24th

Motor housing

25th

Fan wheel

26

Fan grill

27

Worm wheel

28

Gear housing

29

Floating bearing

30th

lower bearing

31

Gear cover

32

Oil drain plug

33

Oil level

34

Gear oil

35

Traction sheave shaft

36

Bevel gear

37

Manual release lever

38

Flange plate

39

Gearbox floor

40

screw

41

Shaft wall

42

Bevel pinion

43

Clutch mechanism

44

Manual drive shaft

45

Eye bolts

46

Mounting screws

Claims (5)

Rope elevator with opposite a supporting structure (12,13,14,15) supported elevator drive unit, consisting of from a gear (2) with a gear housing (28) and with intersecting axes of an input shaft (19) and a horizontal drive shaft (35) with which one Traction sheave (6) is connected, the input shaft (19) rotating motor (1) which over a Motor housing (24) is coupled to the gear housing (28), wherein the motor axis axially to the input shaft (19) and parallel to the plane of the traction sheave (6) under a pointed one Angle (β) to the vertical is arranged, thereby characterized in that the gear housing (28) in horizontal plane at least not on the input shaft side on the vertical projection of the motor housing (24) survives. Cable elevator with elevator drive unit according to claim 1, characterized in that at least one Gearbox limit in a plane perpendicular to Traction sheave plane runs essentially vertically. Cable elevator with elevator drive unit according to claim 1, characterized in that the gear housing (28) in Area of the input shaft (19) a flange collar (8) trains, through which the motor housing (24) at right angles to horizontal drive shaft (35) with the gear housing (28) connected is. Rope elevator with elevator drive unit according to claim 1 characterized in that the motor (1) and the transmission (2) via a common one-piece motor gear shaft (19) are torque-locked together. Cable elevator with elevator drive unit according to claim 1, characterized in that the motor gear shaft (19) forms a snail (20) which is at right angles to one connected to the horizontal drive shaft (35) Worm wheel (27) is engaged.

Images