DE1457121B2 - END BEARING FOR SINGLE-SIDE DRIVEN HORIZONTAL AXIS VENTILATION ROTORS - Google Patents

Description

The invention relates to a repository for unilaterally driven horizontal-axis ventilation rotors for wastewater treatment, in which the rotor shaft in an enclosing one that does not participate in the rotation Bearing shell is stored sealed and the bearing shell on a spatially curved one Support surface having bearing block tiltable and rests limitedly displaceable in the axial longitudinal direction.

A repository of this type is known from US Pat. No. 2,440,720. To access the between the Bearing shell and the rotor shaft arranged rolling bearings and the drive not to transmit any forces, especially with large ventilation rotors due to deflection and thermal change in length the rotor shaft are caused, the bearing shell is tiltable in the known end bearing and in Axial longitudinal direction mounted so that it can be displaced to a limited extent.

In the case of a ventilation rotor, however, there are additional ones acting in the circumferential direction of the rotor shaft Reaction forces caused by the start-up and during operation by the simultaneous impact a large number of ventilation blades. These reaction forces are at the repository training according to the USA.-Patent 2 440720 undamped on the roller bearings and guided the drive, as a rolling movement of the bearing shell in its support surface by friction in the contact surface between the bearing shell and the support surface and through the bearing shell and the Bearing block interconnecting fastening screw is prevented. The roller bearings and the As a result, the drive is suddenly loaded when starting up and while the ventilation rotor is in operation.

The invention is based on the object of designing a repository of the type mentioned at the outset in such a way that that the roller bearings and the drive are jolt-free when starting up and during operation of the ventilation rotor being held.

This object is achieved according to the invention in that the support surface of the bearing block is open at the top Shell formed on the opposite side of the direction of rotation of the ventilation rotor raised and is provided with an elastic lining.

By designing the support surface in this way, the bearing shell can in the event of sudden load impacts climb up on the support surface. But to avoid that the bearing shell suddenly If the reaction forces suddenly fall back to the original support point, this is the support surface provided with an elastic lining. In this way, when starting up and suddenly occurring reaction forces are intercepted during operation in the circumferential direction of the rotor shaft and dampened and thus a sudden load on the roller bearings and the drive avoided and thus their lifespan increased.

According to an advantageous embodiment of the invention, the bearing shell has a pin that has a penetrates the eyelet attached to the bearing block. This securely holds the bearing shell on the bearing block.

An embodiment of a repository according to the invention is shown in the drawing. It shows

F i g. 1 the front view of the repository and

F i g. 2 a longitudinal section through the repository.

The in the F i g. 1 and 2 shown repository consists of a bearing shell 22, which is on a bearing block 23 rests. This bearing block 23 has an elastic lining 24 with a spatially curved design Top on. The bearing shell 22 is thus movably arranged on the bearing block 23 and can move move both in the axial direction, which is particularly important to avoid tensile stresses in terms of temperature fluctuations on the considerable length of the hollow shaft designed as a rotor shaft, as well as in the direction of his Extent of what is important for damping start-up impacts and torsional vibrations.

The bearing block 23 is designed in the form of a semicircular shell which is opposite to the direction of rotation at 25 is excessive.

The bearing shell 22 is held with play in an eyelet 27 on the bearing block 23 by means of a pin 26.

The bearing block 23 can conveniently be accommodated on a shoulder of the side wall of a ventilation container will. If necessary, the bearing block and repository can also be in a niche in one of these Side wall can be accommodated. Convenient attachment is possible in all cases.

The bearing shell 22 is between a stop ring 28, which is fixed to the journal by means of a Grooved pin 30 is connected, and a rear bearing cover 31, which closes the bearing body, clamped, The latter can also consist of one piece with the bearing shell 22. The bearing shell 22 is mounted on the journal by means of roller bearings 32, 33, with the roller bearing 32 as a play bearing, the Rolling bearing 33 acts as a fixed bearing. Of course, other types of bearings can also be used.

The deviation to the outside takes place via multi-disk seals 34, which are located in the vicinity of the stop ring 28 are arranged and under the given conditions an excellent sealing effect exhibit.

The roller bearings 32, 33 are counteracted by means of a threaded nut 35 arranged on the axle journal the stop ring 28 is pressed. In the present case, a distance between the rolling bearings 32 and 33 is

piece 36 is provided, which is provided with recesses with a line for the inside of the Bearing introduced lubricant is provided. These recesses are in connection with the Connection line for overpressure lubrication that passes through the bearing body to the outside. One can allow the lubricant line to pass through the rear bearing cover 31 as well. In the present In this case, however, a ventilation opening 38 is provided in this bearing cover 31.

1 sheet of drawings

Claims (2)

Patent claims: 1. Repository for unilaterally driven horizontal-axis aeration rotors for wastewater treatment, in which the rotor shaft in an enclosing one that does not participate in the rotation Bearing shell is stored sealed and the bearing shell on a spatially curved one Support surface having bearing block tiltable and limited in the axial longitudinal direction slidably rests, characterized in that the support surface of the bearing block (23) designed as a shell open at the top, on which the direction of rotation of the ventilation rotor opposite side and is provided with an elastic lining (24). 2. End bearing according to claim 1, characterized in that the bearing shell (22) has a pin (26) which penetrates an eyelet (27) attached to the bearing block (23).