SU1438845A1 - Centrifuge - Google Patents

Abstract

The invention relates to a centrifuge and can be used in the food, chemical, medical and other industries. The purpose of the invention is to increase the efficiency of cleaning the rotor from sludge and its grinding. The centrifuge contains a housing 1, a perforated rotor 2 and, 7 in an LL drive, including a gearbox 5. To clean the rotor 2 from sediment and grind it, at least two pairs of diametrically located and located - in engagement springs 6.7 are installed in it, mounted rotatably around their axes 8 without additional drive and relative to the axis of the rotor from the planetary gear 5, built into the centrifuge drive. One of the springs 7 of each pair is placed directly at the rotor wall, and the other spring 6 interacts with the lattice element 12 mounted on the rotor hub. 2 Il. 9 12 fOfi × I | BSS .csEiie Figure 1

Description

The invention relates to devices for the separation of suspensions into solid and liquid phases and can be used in the food, chemical, medical and other industries.

The purpose of the invention is improving the cleaning efficiency of the rotor from sediment and grinding the latter,

Fig about 1 shows a centrifuge, a longitudinal section; in fig. 2 shows section A-A in FIG. one,

The centrifuge includes a housing 1, perforated rotor 2 mounted on a drive shaft 3 in bearings 4 and an actuator including a gearbox 5. In the rotor 2 there are at least two pairs of diametrically arranged and meshed springs b and 7 mounted on the axles 8 on a leash 9, which in turn is fixed in bearings 10 on a shaft 11 o. Thus, the springs 6 and 7 can rotate around their axes 8 and relative to the axis of the rotor 2. One of the springs 7 of each pair is placed directly at the wall of the rotor 2, and on the hub of the rotor 2 is installed p Sliding element 12 for engaging with another spring 6..

The centrifuge works as follows.

In the first stage of centrifugation, the springs 6 and 7 are in a non-operating state. The drive shaft 11 of the driver 9 of the springs b and 7 is interlocked with the shaft 3 of the rotor 2. Thus, the springs 6 and 7 and the rotor 2 rotate at the same speed and the springs 6 and 7 do not rotate around their axes 8.

In the second stage of centrifugation (separation of the precipitate with simultaneous

By grinding it to a powder state, the carrier of the gearbox 5 is mounted stationary. Depending on the selection of the gear teeth of the planetary gearbox 5, the relative speed of rotation of the springs 6 and 7 and the centrifuge rotor 2 is created. There is a rotation of the springs 6 and 7 around their axes 85, since one of the 6 of each pair enters into its engagement with the grid element 12 and the turns of the other spring 7 located at the rotor 2 wall. This provides an effective removal of the charge from the rotor wall 2 and grinding it between the springs 6 and 7. Since the coils of the springs 6 and 7 have a helical direction, when they engage with the lattice element 12 and between themselves, they deform 5 creating elastic oscillations and ensuring a better grinding quality of the sediment.

Claims (1)

In addition to Toroj, centrifugation and grinding processes are carried out in a single device. Invention Formula A centrifuge, comprising a housing, a perforated rotor, and a drive including a gearbox, characterized in that, in order to increase the efficiency of cleaning the rotor from sediment and grinding it, it is equipped with at least two pairs of diametrically arranged and meshed springs mounted to rotation around their axes and relative to the rotor axis, with one of each pair placed directly against the rotor wall, and a lattice element is installed on the hub of the latter to interact with the other springs d. 2