DE1453792B1 - Device for the automatic generation of a lubricating, cooling and venting circuit for centrifugal pump units - Google Patents

Description

I 453 792

The invention relates to a device for the automatic generation of a lubrication, cooling and ventilation circuit within centrifugal pump units with one filled with the pumped liquid Canned motor, especially for heating circulation pumps.

There are already centrifugal pump units known that have a device for the automatic generation of a Own circuit, such. B. an auxiliary impeller between the pump and the electric motor or directly Auxiliary blades attached to the rotor of the electric drive machine '(German patent 974 665). However, such devices are not suitable for simultaneous venting of the unit. Ventilation devices on centrifugal pumps are known per se. Here the impeller has ventilation holes through which the same is vented, the air being discharged to the atmosphere (German patent 333 237) or the suction line (German patent 276 593). Such However, ventilation holes are not sufficient, as is the engine compartment of a centrifugal pump unit to vent. This vent is necessary to allow air to collect around the shaft does not stop in front of the camp as a large bubble, which can endanger the bearings from running dry Consequence.

A venting of the rotor space is achieved in the known constructions when in the By creating channels, breakthroughs, etc., the water is taken from the pump Pressure side of the pump through said channels, breakthroughs in all parts of the pump in which air is present is, flows through and the air is conveyed through the vent holes into the suction chamber of the pump. Since the flow flowing through the entire unit is due to the simultaneous task, in places Removing high temperatures that occur, must not be too low, always creates new dirt transported into the rotor space and thus into the bearings (USA.-Patent 3135 211, German Auslegeschrift 1097 543, British Patent 821609, U.S. Patent 2,941,476).

It is also known to provide special vent screws. So z. B. with stuffing boxless circulating pumps the front bearing bracket with larger openings to the one between the bearing bracket and Provided the space located next to the impeller, in which the air is in the upper one when the pump is at a standstill Area from where it can be drained through externally operated vent screws. The disadvantage is that the Pump must be switched on and off several times to get all the air in between the bearing bracket and To bring the impeller located space. Another disadvantage is that the large openings Dirt particles can get into the rotor space. Also the known installation of a sieve or one Filters in the bearing bracket can only remedy this for a short time due to the contamination of the same.

Furthermore, a device for lubricating the bearings of a circulation pump is known, the rotor of which electric drive machine is overhung. The rotor face on the pump side is here with vanes provided and the opposite pump-side motor end wall through which the shaft is led through in a camp, provided with holes at the level of the hill (Swiss patent specification 346 111). This device probably allows a lubrication circuit for bearing lubrication while however, simultaneous venting cannot be achieved with this. It is also used for engine cooling known to provide the rotor with openings and also on the rotor to generate a cooling circuit an auxiliary pump wheel (German patent 680247) or auxiliary blade (US patent specification 2931307). By these means

ίο but cannot yet achieve the desired combination of the cycles can be achieved.

The object of the invention is to through Circulation of the pumped medium High temperatures occurring in places within the centrifugal pump unit to avoid and at the same time to vent the cavities of the unit and also the solid particles entrained in the liquid that got into the unit, to be discharged from the same again so that these solid particles cannot cause any disturbances.

This object is achieved according to the invention in that for the automatic generation of several circulation flows at different speeds within the unit

a) in the rotor of the electric motor between the front rotor space and the rear rotor space breakthroughs are provided in a manner known per se, specifically in the area of the circumference

the wave,

b) on the pump-side end wall of the rotor of the electric motor in the area of its circumference blades are arranged in a manner known per se,

c) the wall of the front one located between the rotor of the electric motor and the pump impeller Bearing in a manner known per se with axially parallel, small cross-section openings near the. Shaft is provided,

d) on the motor-side surface of the wall of the front bearing between the axially parallel openings fixed blades are provided, on approximately the same pitch circle as the breakthroughs, however, are at unequal distances from them,

e) the pump impeller in a known manner with vent holes near the hub diameter is provided

f) the space between the front bearing and the impeller with the inlet space through a or several bores are connected, these starting from the outer diameter of the space.

The well-known forced circulation between the pump and engine compartment, its speed always represents a compromise, namely between the necessary high flow velocity for the Degradation in places of high temperatures and the

Desires low flow velocity, the fewest possible solid particles in the rotor space and thus can get to the plain bearings and is still sufficient for ventilation, is therefore according to the invention divided into three circulation currents, each of which is generated for itself. Through this can both the high flow velocity to reduce the locally high temperatures as well the low flow rate for venting

3 - 4 ■■■■■■ ':

will be realized. Next, the rotor chamber 14, grooves in the rotor 13 and the pump-side

Any water in the space behind the impeller like rotor space 15 is attached to the rotor by

produced by the centrifugal effect of larger blades 20 attached to protective parts. It is her job

surfaces cleaned to reduce the temperature peaks in the engine area through a connecting hole and

be discharged into the suction chamber. In advantageous 5, the air located in the rotor space 14 on the motor side

Formation of the invention, the openings are to be conveyed into the pump-side rotor space 15,

between the front and rear rotor space in the Since this is an internal circulation flow

Area of the shaft circumference acts as grooves in the rotor and mung in the rotor space, in which there is no exchange

the blade on the front wall of the rotor or on that of the water between the pump and rotor space.

Wall of the bearing bracket found as protrusions, e.g. rivets, can help reduce the temperature peaks

or screws. From the different required high flow speed without danger

borrowed position of the breakthroughs in the front bearing realized the contamination of the rotor space

carriers to the Schaufehl result in the circumferential direction.

The circulation flow between the pump discharge of the water-air mixture from the front 15 like rotor space 15, breakthroughs in the pump-side engine compartment in the bearing support 11 between the bearing wall and the impeller. Space behind the impeller 17, cause lying space from which then the air breakthroughs in the pump-side bearing bracket 11 and removed through the ventilation bores in the impeller, the pump-side rotor space 15 is opened by the supply. In an advantageous embodiment of the invention, the inspection levels attached to the rotor 7 interact the different distances between the through-ao fine 20, the through-holes 11 and blades 21 am breaks from the blades in that the number of pump-side bearing brackets 10 generated. Through the the openings and blades differ in size are. water-air mixture in the pump-side rotor space in

In the drawing, an embodiment of the rotation is offset, whereby the arrangement

Invention shown, it shows 25 of the openings 11 and blade 21 to each other on

1 shows the longitudinal section through a bearing support 10 on the centrifugal pump side in the circumferential direction Pump and canned motor result in existing stuffing box pressure differences that lead to the deliberately elongated unit, seed circulation flow through the openings

FIG. 2 shows a view of the end wall 11 on the motor side in the bearing bracket 10 on the pump side. Depending on

of the front bearing bracket, namely with the same position of the blade a 21 to the neighboring one

number of blades and holes, breakthrough 11 so the flow runs through the

3 is a view corresponding to FIG. 2, but with individual openings from room 15 to room 17

with an unequal number of shovel and through or vice versa. The one in the rotor space on the pump side

breaks that are designed as grooves. 15 located air bubbles are due to the combination

The housing of the unit consists of two parts 35 menwirken the fixed shovels 21 on pumlen, the pump housing 1 and the motor housing 2. _t penseitigen bearing bracket 10 and the rotating Schau-

The pump impeller 3 sits on the shaft 4, which in fine 20 on the rotor 7 to form a water-air mixture

a pump-side front bearing 5 and a smashed, so that the small air bubbles through

motor-side rear bearing 6 is mounted and between the circulation flow described above in the

see these two bearings the rotor 7 of the electrical 40 space 17 are conveyed. To the danger of

motors carries. The rotor 7 is from the stator 8 of the dirt supply in the rotor space in addition to

Electric motor through a can 9 liquid-tight measure of the slow circulation flow

separated. The wall 10, which acts as a bearing support for the further decrease, the water before it gets in

The front bearing 5 is used, divides the unit into a rotor chamber which is centrifuged out in chamber 17.

Pump and a motor part, but with shafts

near bores 11 in the wall 10 which from the rest of the bore 18 into the suction chamber 19 of the pump

Motor part liquid-tight separated rotor space with promotes.

Connect to the pump room. The impeller 3 is provided with a circulation flow between the pressure vent holes 12. The rotor 7 at the side of the impeller 3, the space 17 behind the impeller seat several grooves 13 close to the shaft, through which the 50 wheel 3, the ventilation holes 12 and the suction rear rotor space 14 with the front rotor space 19, the pressure difference on the impeller 3 is equalized. 15 connected This connection is in use. The see in space 17 behind the impeller 3 also through the air collecting between the rotor 7 and the can 9 on the hub is through the deformed gap 16. The front rotor space 15 is ventilation holes 12 fed to the impeller 3, so through the holes 11 again with the between 55 that it gets into the pipeline system. This Zirder wall 10 and the impeller 3 formed room culation flow must also be very weak, 17 connected, which in turn through a hole 18 so that the water in the room remains in the pump housing 1 with the suction nozzle 19 and for a long time and is so well centrifuged, through the ventilation holes 12 in the impeller 3 For this reason, the ventilation holes 12 are connected to the suction chamber of the same. 60 provided very small in the impeller 3.
On the pump-side end wall of the rotor 7, due to the interaction of the three described blades 20 in the area of the rotor circumference and the circulation flows, a breakdown of the blades 21 of the wall 10 between the bores, temperature peaks in the motor area and a basic 11 are arranged. clear venting of all rotor and pump chambers

The mode of action of the input 65 according to the invention and also ensured that

direction is as follows: the coarse water entering the rotor space

The circulation flow between the dirt on the pump side is cleaned and this dirt is carried away

like rotor space 15, motor gap 16, on the motor side.

Claims (4)

Patent claims: 1. Device for the automatic generation of a lubrication, cooling and ventilation circuit within of centrifugal pump units with a canned motor filled with the pumped liquid, in particular with heating circulation pumps, characterized in that for the automatic generation of several circulation flows with different velocities within the aggregate a) between the front engine compartment (15) and the rear rotor compartment (14) in a manner known per se Way openings (13) are provided, namely in the area of the circumference of the shaft (4), b) on the pump-side end wall of the rotor (7) in the area of its circumference in an blades (20) are arranged in a known manner, c) the wall (10) of the front one located between the rotor (7) and the pump impeller (3) Bearing (5) in a known manner with axially parallel, small in cross section Breakthroughs (11) are provided in the vicinity of the shaft, d) on the motor-side surface of the wall (10) of the front bearing (3) between the axially parallel Breakthroughs (11) fixed blade shell (21) are provided, namely on about the same pitch circle as the breakthroughs, but at unequal intervals to this, e) the pump impeller (3) in a known manner with vent holes in the vicinity of the Hub diameter is provided, f) the space (17) between the front bearing (S) and the impeller (3) with the inlet space (19) through one or more bores (18) is connected, these starting from the outer diameter of the space (17). 2. Device according to claim 1, characterized in that the openings (13) between the front rotor space (15) and the rear rotor space (14) in the area of the circumference of the Shaft (4) are designed as grooves in the rotor (7). 3. Device according to claim 1, characterized in that the Schaufehl (20, 21) on the Rotor end wall or on the wall of the bearing bracket as projections, e.g. B. rivets or screws, are trained. 4. Device according to claim 1, characterized in that the different distances of the openings (11) from the blades (21) by a different number of Breakthroughs (11) and Schaufehl (21) result. 1 sheet of drawings