DE475696C - Rotary piston blower driven by an induction motor - Google Patents

Description

Rotary piston blower driven by an induction motor different processes for industrial synthesis succeed @es, on the different Catalysts always only a part of the gases flowing through the device Bring reaction, and it is thus necessary to repeat those gases to flow through, which have not yet reacted. The temperature the catalyst can only work well through the amount of gas flowing through it regulated. Every industrial synthesis therefore requires a constant one, so to speak Flowing through an amount of gas, which in turn is often a multiple of that required for the reaction The amount of gas reached is and, on the other hand, must be changed at will so that the temperature of the catalyst is well controlled. It's common knowledge that many-hatalytic reactions at very high pressures of several hundred atmospheric successes, which is significant for the fan required to maintain the flow Causes difficulties. The use of stuffing boxes in such pressures is only possible with large gas losses, which can be dangerous and very ins Weight drop because they are all valuable gases. Subject of Invention is now a fan mixes variable speed, which the use .a stuffing box avoids.

Fig.r is a vertical section through the entire device, Fig. Fig. 2 shows a plan view of the actual fan, and Fig. 3 shows it on an enlarged scale the introduction of an electrical conductor into the housing.

The fan consists in a known manner of two gears a and b with straight teeth, of which: the first is driven directly by the shaft c of the electric motor m, rc and the other is driven by this first gear. For the direction of rotation indicated by the arrows in Fig. Z, d is the suction chamber and e is the pressure chamber. f is the suction line and g the pressure line. The gears are from two decks and elnh! included, which are connected to one another on the circumference by bolts.

The drive motor is an induction motor with a cage winding, which is completely enclosed in the housing L, to the cover of which the cover i is attached. The rotor sits on the cantilever shaft c and carries the cage winding. The shaft c is guided in two guide bearings in the cover k, and the guide in the axial direction is secured by two ball thrust bearings. The stator n carries the windings required to form at least four rotating fields at different speeds, which makes it possible to achieve four different fan speeds and, consequently, four different delivery rates. 'Since all windings have only fixed connections, similar to transformer substations, it is possible to run the motor completely in oil or in glycerine in a pure state. to leave, which both have the same insulating properties and also ensure that the engine is completely gas-locked. The oil or glycerine is used for: Lubricating the fan and as a sealing liquid. For this purpose, the shaft c is provided with a bore o along its axis, which is widened at the lower mouth to accommodate the screw p: to which the oil or glycerine is fed through a funnel-shaped sleeve g. The lubricant rises through the bore o to the uppermost end of the shaft c and goes through: a channel r into the suction chamber d, where: it mixes with your gases and thus reaches the circumference of the gears u. And b , pIle Lubricates the surfaces of the gears and seals them against each other. In the pressure chamber, the oil is thrown down by bumpers (not shown) and then passes through the legs of the canal onto the shaft C, lubricates the four bearings and returns to the housing 1, by doing it to the greater part, outside at the stand n flows past, which for this purpose with suitable. Passages is provided. As the peripheral speeds. of the rotor are small, the fluid friction in the lubricant can be completely neglected. The shaft c has between the motor and the fan: a suitable coupling.

For four rotating fields with different speeds are at least twelve electrical entries are required, which go through the wall of the hydrodynamic Housing must go through., The twelve conductors are separated on a ring Isonerstof attached. Fig. 3 shows the details of these introductions.

The conductor u made of bare copper has adjacent circular grooves provided, which preferably have a triangular cross-section, and @er is the the entire length of the passage with an insulating layer over: educated, which only slowly .erhärtet and in corresponding IZ'-reisnuteneiner conical socket v : inserts. This consists of two parts and is supported by a: one-piece sleeve tu held together, which is tightened by: a mother x, which is on: a Bushing y screws, which in the Immeen this housing provided with a strong flange that carries a seal adapted to the strong pressure and even from the outside is pressed forward by a nut z. A flange sleeve made of insulating material completes on both sides the introduction, the whole consisting of motor and fan rests on: a Stuhlaa ', and the equipment is checked by pressure gauges on the suction and he Completed pressure line.

The above description and the drawing are only an example of the subject matter of the invention.

Claims (2)

PATENT CLAIMS: r. Rotary piston blower driven by one induction motor, characterized in that on a common shaft -a gear fan with an induction motor with cage winding and variable speed as well as a pump for the closing liquid, which also serves as a lubricant, are arranged and the whole thing is enclosed in a completely closed housing . 2. Rotary piston blower according to claim z, characterized in that the engine is entirely in the electrically insulating liquid that forms the gas seal: immersed which is used for lubrication and as a final liquid for the gear fan.