DE3104988C2 - Drive the rotor of a regenerative heat exchanger - Google Patents

Abstract

Regenerative heat exchanger with a rotating rotor, the rotor (3) being driven by a drive based on the principle of linear motors (8) and the bearing and guidance of the rotor (3) being carried out by a magnetic bearing (9).

Description

10

The invention relates to a drive for the rotor of a regenerative heat exchanger.

The rotors of the known regenerative heat exchangers, which are equipped with a heat storage mass, are z. B. the Ljungström principle, are mechanically driven and stored The drive of the rotor is usually done by an electric motor with gear either via the rotor axis or via a Gear and a gear or BoV'Jnkranz attached to the outside of the rotor.

Storage and guidance of the rotor are generally done by bearings that the rotor axis with the Connect the housing of the heat exchanger. Difficulties often arise with this common arrangement which have not yet been solved satisfactorily. Especially when in gas-gas heat exchange gases with high If dust and / or aggressive substances occur, the gear wheel will wear out more quickly and the ring gear or pin ring. With high temperature differences between the cold and hot gas side Because of the thermal expansion of the Rotcü, difficulties arise in terms of storage and management of the rotor. Guiding of the rotor as precisely as possible is necessary, however, since it is usually sufficient Sealing between the hot and cold gas side is to be achieved, and the leakage rate is therefore considerable can reach.

The object of the invention is to provide such a drive system for the rotor of a regenerative heat exchanger to create that a wear-resistant drive and exact guidance are guaranteed.

According to the invention, this object is achieved by that the drive takes place with a linear motor, the rotor being arranged by on its circumference Electromagnet is stored and guided.

The above-mentioned disadvantages are avoided by the drive according to the invention, since on the rotor axis and the other wear-sensitive parts can be dispensed with. The magnetic storage and Guiding the rotor allows a significant reduction in the air gaps between the rotor and the Casing. This significantly improves the sealing options and significantly reduces the leakage rate

The drive according to the invention is shown below with reference to the drawing of an exemplary embodiment explained

The figure shows a perspective view of a rotor with housing and supply and discharge lines.

One concentric to the axis of rotation and on the face of the rotor 2 of a regenerative heat exchanger The attached circular ring is designed as a rotor 3 for a linear motor 4.

The linear motor is arranged a short distance above the rotor 3 and on a rotor 2 surrounding, fixed housing 1, the thrust of the linear motor 4 during the Operation, the rotor 2 is set in rotation

The storage system has several, equally spaced apart and with the Housing 1 firmly connected electromagnets 5, which the rotor 2 by regulating the magnetic field strength in hold a limbo.

1 sheet of drawings

Claims (1)

^: Claim: Drive the rotor of a regenerative heat exchanger, characterized in that the drive takes place with a linear motor (4), wherein the rotor (2) is supported and guided by electromagnets (5) arranged on its circumference