DE4405593C1 - Cooling air guide for drive pulley for hoist in shaft - Google Patents

Abstract

The hollow space enclosed by the cylindrical cover of the pulley wheel, side shields and roller bearings and contg. the electric motor is fed with cooling air. The one-part shaft (1) is forged from solid steel as far as two forged-on flanges for fixing the stator (19) via releasable clamp ring connections (20). Between the shaft and the roller bearings (8) ventilation rings (6) are arranged comprising an inner ring, a support component and an outer ring with cooling air through passage apertures. The drive plate-cylinder cover (13) is supported via side shields (9) on the roller bearing (8). The side shields are provided with manholes (10) and covers (11). The cylindrical cover has grooves to accommodate wire ropes for the hoist.

Description

The invention relates to a traction sheave. Manhole hoist with an internal one electric motor for driving conveyor cables, whereby the rotor has at least one web plate with the Cylinder jacket of the traction sheave is connected and the Stator on one in bearing blocks and on one Foundation frame mounted axis is attached and where from the cylinder jacket, the side shields, Bearings enclosed, the electric motor containing cavity for external ventilation of the electric motor can be acted upon with cooling air.

From DE 37 05 567 a shaft hoist is included a traction sheave and an electric motor for Drive of conveyor cables in mining known, the The rotor of the motor is designed as a cylinder jacket ten traction sheave is connected and the stator of the Motors on a load-bearing, with foundation bearings provided construction is attached.

The engine is located inside the cylinder jacket, the cylinder jacket forming the traction sheave is mounted on the inside on roller bearings that on over the outer circumference fixed on the supporting Construction supported bearing plates are kept. The disc-shaped bearing plates are with Openings for the ventilation of the engine.

The machine according to DE 37 05 567 provides one complex construction. The roller bearings have a very large diameter, are therefore expensive and cause high tangential speeds. It inevitably arise lubrication problems, so that oil lubrication may be required. The then seals are necessary for the rolling bearings complex.  

DE 42 22 094 describes a traction sheave Shaft hoist with an internal, arranged between the shields of the traction sheave, known electric motor. The stator of the electrical Motors is attached to a hollow axle that with Trestles are supported on foundations.

The electric motor is ventilated via the Hollow axis connected to a cooling air supply and -Discharge duct is connected. The hollow axis points a radially arranged transverse or bulkhead in Inside on and is with peripherally arranged openings provided for the inlet and outlet of the cooling air.

The hollow axis, as a cast construction or as Forming a forging is complex and expensive. When Cast construction is this component with all risks cast parts affected. Through transverse openings Hollow shaft weakened. The stator attachment appears problematic. Furthermore, jamming of the hollow shaft problems on bearing blocks (inclusion of Motor torques). Finally, the bulkhead installation Bring problems.

It is also known from DE-Z: Glückauf 125 (1989) No. 13/14, pp. 829-832, a traction sheave Shaft hoist with an internal motor for driving conveyor cables where the rotor is over a web plate with the cylinder jacket of the traction sheave is connected and the stator by means of a clamping ring is attached to a fixed axis, the interior of the cylinder jacket via openings cooling air is supplied in the side plates.

This traction sheave hoist is Enclosed on both sides by cooling air hoods with Cooling air supply and discharge channels are equipped.  

The disadvantage of this design is the manufacturing and assembly effort as well as the requirements for the The joint between the hood and Traction sheave must be put in order to be effective Ensure cooling.

The object of the invention is in a Traction sheave carrier in the preamble mentioned genus in a simple and economical way Bring cooling air to the integrated motor, the Advantages of the conventional type of carrier machine maintain the external motor in the Introduction to the disadvantages mentioned generic conveyors can be avoided should.

The task is solved in the manner described in Main claim is specified. Beneficial Refinements of the main claim can be found in the Features of the dependent subclaim.

In one embodiment of the invention Carrier, the axis is preferably made of one Forged carbon steel, the high impact value having. The axis is down to the flanges Stator fastening almost constant in the course of the diameter. It is neither drilled hollow nor has it Cross holes. The axis can, since it has none has weakening holes, relatively slim be carried out.

The stator is attached in a tried and tested manner Clamping ring connections. The stator can be used Air gap compensation can be adjusted radially.

Between axle and roller bearings are on both sides Ventilation rings for the cooling air through openings  arranged. The rolling bearings are on the outside diameter the ventilation rings attached. The rolling bearings received thereby the necessary for the lifespan Diameter without adjusting the shaft diameter must become.

The ventilation rings are stationary and can't turn. They are axial Provide passage openings for the cooling air. To the Ventilation rings become the channels for the front and Return of the air cooling system connected.

Let the advantages of the embodiment of the invention are represented as follows:

• - The axle is made of carbon steel with a high notch impact strength forged,
• - The axis is neither longitudinal nor transverse holes weakened,
• - The rolling bearing diameters are with the ventilation ring tuned, the axis can match the actual Load can be optimized,
• - The axial alignment of the rolling bearings during assembly is on the ventilation rings according to the invention better possible than on an axis,
• - The embodiment of the invention is opposite Technical constructions of the prior art better and cheaper at the same time.

Embodiments of the invention are based on the schematic drawings explained in more detail.

Show it:

Fig. 1 shows a cross section through the traction sheave with internal electric motor and

Fig. 2 shows a section AA as a view of a ventilation ring.

On the traction sheave cylinder jacket ( 13 ) are accordingly Fig. 1 four rope grooves ( 14 ) arranged. At one end there are radially outwardly projecting brake disks ( 12 ) on which the brakes, not shown, can engage.

The traction sheave cylinder jacket ( 13 ) on side shields ( 9 ), which are equipped with manholes ( 10 ) and covers ( 11 ), abge based on the roller bearings ( 8 ), which in turn are stored on the ventilation rings ( 6 ) ge.

On the inner circumference of the traction sheave cylinder jacket ( 13 ) a circumferential web plate ( 15 ) is placed in the center, to which the rotor ( 16 , 17 ) is attached. Opposite the rotor ( 16 , 17 ), separated by an air gap ( 18 ), is the stator ( 19 ), which is detachably connected to the axis ( 1 ) via clamping ring connections ( 20 ). The axis ( 1 ) is clamped in a bearing ( 21 ) which is supported on the foundation ( 23 ) via the foundation frame ( 22 ).

The ventilation rings ( 6 ) are attached to the axle ( 1 ). Rolling bearings ( 8 ) are arranged on the ventilation rings ( 6 ).

The cooling air enters from the outside on one side through passage openings ( 5 ) into the interior, is forcibly passed through the air gap ( 18 ) between the rotor ( 16 , 17 ) and stator ( 19 ) and leaves the interior through the one on the opposite side arranged through openings ( 5 ). The cooling air is supplied to the ventilation rings ( 6 ) via channels, not shown. The discharge of the heated air to the air recooling system, also not shown, is carried out in an analogous manner.

Fig. 2 shows a section AA as a view of a ventilation ring ( 6 ) in the region of the axis ( 1 ). In this exemplary design, the ventilation ring ( 6 ) consists of an inner ring ( 2 ), an outer ring ( 4 ) and spoke elements ( 3 ) arranged between them.

The axially arranged passage openings ( 5 ) for supplying and removing the cooling air for the internal electric motor of the traction sheave conveyor are formed between the spoke elements ( 3 ).

Reference list

1 axis
2 inner ring
3 spoke element
4 outer ring
5 openings for cooling air
6 ventilation ring
8 rolling bearings
9 side plate
10 man holes
11 cover
12 brake disc
13 traction sheave cylinder jacket
14 rope grooves
15 web plate
16 iron ring of the rotor
17 magnets of the rotor
18 air gap
19 stator
20 clamping ring connection
21 storage
22 foundation frame
23 foundation

Claims (1)

Traction sheave shaft hoist with an internal electric motor for driving conveyor cables, the rotor being connected to the cylinder jacket of the traction sheave via at least one web plate and the stator being fastened on an axis mounted in bearing blocks and on a foundation frame, and that of the cylinder jacket, side shields and Rolling bearing-enclosed cavity containing the electric motor can be acted upon with cooling air for external ventilation of the electric motor, characterized in that
that the one-piece axle ( 1 ), forged from solid steel, has a constant diameter profile apart from two forged flanges for fastening the stator ( 19 ) via releasable clamping ring connections ( 20 ),
that ventilation rings ( 6 ), each consisting of an inner ring ( 2 ), a support element ( 3 ) and an outer ring ( 4 ), with cooling air passage openings ( 5 ) are arranged between the axle ( 1 ) and the roller bearings ( 8 ),
that the traction sheave cylinder jacket ( 13 ) is supported via side shields ( 9 ) on the roller bearing ( 8 ),
and that the side shields ( 9 ) are provided with manholes ( 10 ) and covers ( 11 ).