DE1632325B1 - Continuously working, screenless screw centrifuge - Google Patents

Description

1 2

The invention relates to a continuously working need to return it for cooling on the one hand

tend, screenless screw centrifuge, in particular to make usable and on the other hand a

Separation of abrasive solids in cooling liquids, clogging and impairment of the liquid

in which to prevent the speed difference between a transfer line.

dertrommel and a discharge screw in pre-5 It has been found that in particular emery

NEN time intervals can be changed. gel and lapping paste extremely abrasive and

To separate finely divided solids or to interfere with the inner wall of the drum, so that larger solid particles of a carrier liquid are used without countermeasures after a relatively short period of operation in general screw centrifuges. These centrifuges consist essentially of a screw and the drum is so large that one of a drum and one inside the drum replacement is required.
arranged discharge screw. The object of the present invention is primarily the shape of a hollow truncated cone, i.e., a screw centrifuge, in particular the inside of which is the discharge screw with a spacing of the screw flights from the internal fluids for the cutting of abrasive solid particles in cooling rings Manufacturing in front of the drum is arranged. strike at which the centrifugal drum and the

Under the influence of the centrifugal force, the discharge screw sets itself up together with the carrier liquid containing the solid material inside the drum and the differential speed is set in the form of a hollow cylinder, whereby the two rotating elements are automatically fixed periodically because of their greater specific weight is varied between zero and a certain speed difference given by the centrifugal force against the inside of the drum,
wall to be accelerated. The discharge of these solid particles is usually carried out in the direction of a screw centrifuge, in which the smaller diameter end of the drum between a gear and the discharge screw is moved by a relative movement of the discharge screw to a screw centrifuge during the centrifugal operation. and from drum, switchable clutch, preferably an electric

Depending on the type, particle size and amount that is arranged from the magnetic coupling, which means The solid body to be excreted is a timer that is switched on and off. When the required However, the distance between the worm flights of this centrifuge is the drive of the discharge Inner wall of the drum, but especially the 30 worm over the frictional engagement, which is caused by the The size of the speed difference between the drum and the inner wall of the centrifugal drum settling Adjust the screw. ' To achieve the mostly relatively solids between the centrifugal drum and the low speed difference between the external discharge screw is maintained. The operating drum and internal screw are already properties, ζ. B. the acceleration of the discharge different Facilities known. So it is with a screw, so it is of the type that is to be separated known, for example, the centrifugal drum and the solids as well as the layer thickness, in The discharge screw pulls the solid particles onto the centrifugal drum via a planetary gear ben, one of the two drive shafts in the start. In addition, there is an impetus for those who leave - designed as a hollow shaft - the shaft contract screw runs when the centrifugal spinner is started up. Planetary gears, however, are extraordinarily 40 joint only when after a certain expenditure and expensive constructions that already have solids on the inner wall of the drifting time The total costs of such a system have dropped considerably from the centrifugal drum, so that the need to increase. such frictional engagement with the discharge screw

It is therefore also known that the speed has been set. At the present problem difference However, between the discharge screw and the 45 position, this operating behavior is extremely high To generate centrifugal drum that the in annoying.

a directly driven, constant speed. The above problem is solved by a rotating drum with a free-running arrangement. B. with the help of an eddy current brake 50 are braked and a common, during operation. Also have similar braking by means of a periodically brakable drive,
hydrostatic transmission during the centrifugal It has proven to be particularly advantageous that the continuous operation is no longer new. The importance of this odic deceleration through controlled phase reversal conception is primarily that the speed of an electric drive motor can be made and the difference during the operation of the material to be thrown 55 moreover the control via a time relay can be adapted to the quality. However, this is let go. The deceleration can, however, only be of interest and importance if it can be done mechanically on the drive,
seen from the cleanest possible separation of the drawings. It shows
Solid component has a predetermined density or con-60 F i g. 1 must have a longitudinal section through an invention. proper screw centrifuge,

The present invention is concerned in particular with FIG. 2, a cross section along the line H-II in FIG

especially with the separation of solids from Fig. 1,

Cooling liquids for machining production in FIG. 3 shows a section along the line HI-III in

the industry. These solids are 65 Fig. 1.

practically exclusively around metal chips, grinding Within a centrifuge housing 1 is a

Disk emery, lapping paste and grinding dust from centrifugal drum 2 rotating with a vertical axis

removed from the circuit of the cooling liquid. The centrifugal drum 2 has different

approximates the shape of a truncated cone that widens upwards, followed by a cylindrical one Part. The upper wall of the centrifuge housing 1 carries a fixed hollow hub 3, which is vertically after extends down into the interior of the centrifugal drum 2 and bearings 4 and 5 for mounting the centrifugal drum 2 owns. Inside the hollow hub 3 runs in the upper housing wall at 6 and in the Drum at 7 mounted main drive shaft 8, which is a rotating within the centrifugal drum 2 arranged Discharge screw 9 drives. Between the discharge screw 9 and the centrifugal drum 2 is a Freewheel 10 provided so that the two rotating elements, namely the centrifugal drum 2 and the Discharge screw 9 are driven jointly by an electric motor 11 via a toothed belt 12 can. The discharge screw 9 has a funnel-shaped extension 13 downward, the Has inner blades 14 in the manner of a flow pump. The centrifuge housing 1 is immediate built over a tank 15, in which, for example, the coolant to be cleaned of solids flows in steadily, so that a liquid level indicated by 16 is constantly maintained remain. The funnel-shaped extension 13 of the discharge screw protrudes into the liquid level 16, see above that upon rotation of the discharge screw 9 through the blades 14 the liquid into the interior of the Centrifugal drum 2 is promoted.

As can be seen from Fig. 2, the screw flights of the discharge screw 9 by a Worn star ring 17, between the arms of the promoted by the funnel-shaped extension 13 through Cooling liquid is brought into the interior of the drum.

The centrifuge works as follows: By Switching on the electric motor 11 is the main drive shaft 8, the discharge screw via the toothed belt 12 9 and at the same time the centrifugal drum 2 is set in circulation via the freewheel 10. Through this liquid is conveyed from the tank 15 through the blades 14 into the interior of the drum, where there is

- Due to the effect of centrifugal force and its greater specific weight, the solid fractions of the cooling liquid settle on the inner wall of the centrifugal drum 2. The cleaned coolant itself is pressed through bores 18 of the drum into an upper separating space 9 of the centrifugal drum 2, from which it is drawn off under pressure.

Periodically controlled by a time relay 20, a phase change is now carried out on the electric motor 11, which leads to a periodic deceleration of the main drive shaft 8. There the centrifugal drum 2 is connected to the drive via the freewheel 10 in only one direction of rotation, this runs on Due to their inertia with practically constant speed, whereas due to the periodic Deceleration of the main drive shaft 8, the discharge screw 9 periodically behind the centrifugal drum 2 remains behind. As a result of the periodically varied speed difference, the one on the inner wall the centrifugal drum 2 deposited solids in the direction of the smaller in diameter The discharge end of the centrifugal drum 2 is conveyed and thrown there through edge grooves 21. The dry ones to sludge-like solids then fall through one located within the tank 15 Shaft in a provided drawer 22, which can be emptied at certain time intervals.

The switching times of the timing relay 20 can depending on the degree of contamination of the coolant in shorter or longer time intervals are controlled, so that the discharge screw 9 a speed difference compared to the rotating centrifugal drum only in corresponding periods of time 2 has.

In principle, it does not matter which of the two rotating elements has a constant speed or rotates with periodically variable speed. Appropriately, however, one is always the Let the drum rotate at the constant speed, because of its greater mass when decelerating greater forces on the drive device are to be expected.

As shown in FIG. 3 can be seen, spring-loaded cone valves 23 are provided in the drum wall of the centrifugal drum 2 both below and in the separating space 19. At operating speed, valve bodies 24 of these valves are pressed into their valve seat due to the effect of centrifugal force, so that cone valves 23 are closed during operation. In order to prevent when stopping the centrifuge back flow of the liquid in the spaces of the drum down into the drawer 22, the spring strength is designed by valve springs 25 so as to be about _^2/3 of the operating speed, the spring force of the valve springs 25, the valve body 24 the centrifugal effect pushes inwards and thereby the cone valves 23 are opened. As a result, the cleaned liquid located in the interior of the drum sprays through the valve opening under high pressure, so that the interior of the drum is emptied of liquid until the centrifuge finally comes to a standstill. Due to the intensive flow through these valves, sedimentation of solids and clogging of the valves is prevented

In the present centrifuge, it can be thought of providing a device that the Deceleration frequency of the main drive shaft depending on the amount of discharged or controls to be discharged solids, in a sense that the frequency with increasing solids content increases in the coolant.

Claims (8)

Patent claims: 1. Continuously working, screenless screw centrifuge, especially for separating abrasive ones Solids in cooling liquids, at which the speed difference between a centrifugal drum and a discharge screw can be changed at predetermined time intervals, characterized in that that the centrifugal drum (2) and the discharge screw (9) with each other a freewheel (10) are connected and a common, can be braked periodically during operation Own drive. 2. Screw centrifuge according to claim 1, characterized in that the periodic deceleration takes place by controlled phase reversal of an electric drive motor (11). 3. screw centrifuge according to claims 1 and 2, characterized in that the controller the phase reversal frequency is carried out by a timing relay (20). 4. screw centrifuge according to claim 1, characterized in that the braking by periodically controlled mechanical braking devices on the main drive shaft (8) takes place. 5. Screw centrifuge according to claim 1 and one of the following, characterized in that that by braking the drive, the speed of the discharge screw (9) can be changed periodically is. 6. screw centrifuge according to any one of claims 1 to 4, characterized in that periodic braking of the drive periodically increases the speed of the centrifugal drum (2) is changeable. 7. screw centrifuge according to claim 1 and one of the following, characterized in that that it is arranged vertically and a lower, funnel-shaped, cylindrically tapering extension (13) the discharge screw (9) protrudes into the liquid to be conveyed in a tank. 8. screw centrifuge according to claim 1 and one of the following, characterized in that that spring-loaded cone valves (23, 24, 25) are provided in the wall of the centrifugal drum (2) which are inevitably closed under the effect of centrifugal force during operation and open automatically at a certain speed below the operating speed. 1 sheet of drawings