RU100236U1 - ROTARY WAVE DISPENSER OF BULK MATTERS - Google Patents

Abstract

 A rotor-wave dispenser for bulk solids, comprising a housing with an internal horizontal cylindrical cavity, a receiving funnel and a nozzle for withdrawing dosed material, connected to the internal cavity of the housing, a rotor with measuring recesses installed in the cavity, and a rotation drive kinematically connected to the rotor, characterized in that it is additionally equipped with a stator mounted on the supports, a torsional vibration drive and rollers to prevent the transfer of stator angular vibrations to the supports, while the housing is fixed flax on the stator with the possibility of oscillations about the axis of rotation and is kinematically connected to the drive of torsional vibrations.

Description

The device relates to dispensers, namely to rotary wave dispensers, in which the measuring elements are located in the body of revolution, and can be used to dispense bulk substances in the chemical, metallurgical and other industries.

Known rotary wave dispenser of bulk solids containing a hopper connected to the lower part of the hopper, a vertically mounted metering cylindrical chamber with a screw, a screw rotation drive and a agitator of material.

(see copyright certificate SU No. 580446, G01F 11/00, 1977).

Dosing of the material is carried out due to the rotation of the screw, while in order to prevent caking of the bulk material, a agitator is used.

The disadvantages of the known device are the high energy costs of dosing and the complexity of the design. The presence of a stepped screw on the shaft along the entire length of the metering chamber and the agitator with a large radius of rotation leads to significant energy consumption for their rotation during dosing.

Known rotor-wave dispenser of bulk solids containing a housing with an internal horizontal cylindrical cavity, a receiving funnel, and a pipe for withdrawing dosed material, connected to the internal cavity of the housing, a rotor with measured hemispherical recesses mounted in the cavity, and a rotation drive kinematically connected to the rotor.

(see RF Patent No. 2304761, class G01F 3/00, 2006)

This device by technical nature and the achieved result is the closest to the proposed and, therefore, taken as its prototype.

According to the known technical solution, the bulk material placed in the funnel is captured by the measured hemispherical elements of the rotor, moves when it is rotated to the outlet pipe, and through it are removed from the dispenser.

A disadvantage of the known device is that the bulk material can cake and form plugs at the inlet of the dispenser, which violates the reliability of the device and, as a consequence, the uniformity and accuracy of dosing.

The technical result of the development is to increase the reliability of the device.

The specified technical result is achieved by the fact that the rotor-wave dispenser of bulk solids containing a housing with an internal horizontal cylindrical cavity, a receiving funnel, and a nozzle for withdrawing dosed material connected to the internal cavity of the housing, a rotor with measuring recesses installed in the cavity, and a rotation drive kinematically connected to the rotor, it is additionally equipped with a stator mounted on supports, a torsional vibration drive, and rollers to prevent the transmission of angular oscillations of the stator support, wherein the housing is mounted on the stator to oscillate around the axis of rotation and kinematically connected to drive the torsional oscillations.

Oscillations of the casing provide fluidity of the bulk material, quick and uniform filling of the metering recesses in the rotor, which improves the accuracy and performance of the dispenser.

Torsional vibrations of the metering body with the funnel are transmitted to the stator. Its torsional vibrations are out of phase with the torsional vibrations of the body with a funnel. The ratio of the amplitudes of these oscillations is determined by the ratio of the moments of inertia of the housing with the funnel and the stator. Since the stator is much more massive than the body with the funnel, the amplitude of the oscillations of the latter is several times larger than the amplitude of the stator. To completely eliminate the vertical and horizontal components of the vibration, the presence of which can harm the health of staff, the stator is fixed by means of rollers that prevent the transmission of angular oscillations of the stator to the supports.

The device is illustrated by drawings.

Figure 1 shows a General view of the dispenser.

Figure 2 shows a cross section aa in figure 1

The rotor-wave dispenser of bulk solids shown in the figures contains a housing 1, a receiving funnel 2, and an outlet pipe 3 for withdrawing the dosed material, a rotor 4 with measuring recesses 5, a rotor rotation drive 6, a stator 7, bearings 8, a torsional vibration drive 9 casings, rollers 10 to prevent the transmission of angular oscillations of the stator to the supports.

The device operates as follows.

Using the drive 6, the rotor 4 is driven into rotation. At the same time, using the drive 9, torsional vibrations of the housing 1 are carried out around its axis. The funnel and the drive of torsional vibrations are pre-balanced relative to the axis of the housing to dampen its vibration. The rollers 10 prevent the transmission of angular oscillations of the stator 7 to the supports 8 of the device. At the same time, a dosed substance is poured into the receiving funnel 2, which fills the recesses 5 in the rotor through an opening in the housing, moves along with it in a circle and is poured out through the outlet pipe 3 in the form of a measured dose of substance. Since the volumes of the dosing recesses are the same, with uniform rotation uniform speed of periodic discharge of the dosed substance is ensured.

Using the proposed device allows for uninterrupted fluidity of bulk material and thereby improve the reliability of the dispenser.

Claims (1)

A rotor-wave dispenser of bulk solids comprising a housing with an internal horizontal cylindrical cavity, a receiving funnel and a nozzle for withdrawing dosed material, connected to the internal cavity of the housing, a rotor with measuring recesses installed in the cavity, and a rotation drive kinematically connected to the rotor, characterized in that it is additionally equipped with a stator mounted on the supports, a torsional vibration drive and rollers to prevent the transfer of stator angular vibrations to the supports, while the housing is fixed flax on the stator with the possibility of oscillations relative to the axis of rotation and kinematically connected to the drive of torsional vibrations.