RU2184351C2 - Meter of loose materials - Google Patents

Abstract

FIELD: volumetric metering of finely dispersed loose materials. SUBSTANCE: meter is designed for use to form microdoses in pharmaceutical, food and chemical branches of industry. Meter has disc with metering pockets rotated by driving shaft and control system. Body of meter houses blades mounted over circumference at different inclination angles with plane of disc, conical agitator with fins and dose cutoff unit. Disc with metering pockets comes in the form of set of round plates with grooves put on power shaft for mutual turn. Spring-loaded slides shutting off metering pockets at required height of disc are installed in grooves of plates. Potential for discrete change of volume of dose allows to broaden field of meter application. EFFECT: improved design. 2 dwg

Description

 The invention relates to devices for volumetric dosing of finely divided bulk materials and can be used to form microdoses in the pharmaceutical, food and chemical industries.

 Known dispenser of bulk materials containing a rotor with measuring tanks, hopper, feeder, dose control device and scraper [ed. certificate 845014, cl. G 01 F 11/00].

 A disadvantage of the known device is the inability to receive a microdose due to the incomparability of the microdose volume and the minimum volume of the measured capacity.

 Closest to the proposed device is a bulk material dispenser designed for volumetric dosing, comprising a cone body serving as a hopper, inside of which a disk with metering slots and a conical agitator with ribs rotate between which an inclined groove is formed for pouring material to the metering sockets. A fixed bottom with an outlet for dispensing a dose is placed under the disk [ed. certificate 443258, cl. G 01 F 13/00].

 The described device does not allow you to change the volume of the dose.

 An object of the invention is the ability to discretely change the volume of the dose.

 The technical task is achieved by the fact that in the proposed device, the disk with the metering slots is made of a set of round plates with grooves, mounted on the drive shaft with the possibility of mutual rotation, and spring-loaded sliders installed in the grooves of the plates and overlapping the metering slots at the required disk height.

 The invention is illustrated by drawings, where figure 1 shows the proposed device in section; figure 2 is a section along aa of figure 1.

 The dispenser consists of a conical housing 1, which serves as a hopper, a disk 2, including a set of round plates 3 with holes forming metering slots, mounted on the drive shaft 4 with the possibility of mutual rotation, and spring-loaded sliders 5 installed in the grooves of the plates 3 at the required height of the disk 2 depending on the required dose volume. A cone agitator 6 with ribs 7 is installed on the disk 2, between which an inclined trough is formed to pour material to the metering sockets. The metering slots are blocked by gates 5, which are moved by the electromagnet 8 at the command of the control mechanism. On the circumference of the lower part of the housing 1, blades 9 are installed at different angles of inclination to the plane of the disk 2 and a dose cutter 10. The sliders 5 return to their original position by the springs 11.

 The dispenser works as follows.

When dosing, the material is poured into the housing 1 (hopper) and the disk 2 is turned on, as a result of rotation of which the cone agitator 6 with ribs 7 moves the material filling the metering slots. The blades 9 installed in the lower part of the housing 1 cut the product layer, as a result of which a sufficiently accurate and equal in volume dose falls into the nest. When the dosing slot approaches the discharge point, the dose is cut off by the cutter 10, and, in the presence of a receiving container, a dose is dispensed. In the absence of a receiving capacitance, a blocking system (not shown) is activated that turns off the power of the electromagnet 8. The dose volume is changed by turning the required round plate 3 of the disk 2 by an angle of 45 ^o until the axis of one of the slots of the plate 3 is aligned with the axis of the pusher of the electromagnet 8 and the spring-loaded sliders are rearranged 5 into the slots of this plate 3. In this case, the plate 3, which was in the previously described position, is rotated through an angle of 45 ^o in the opposite direction until the axes of the metering slots of the plate 3 are aligned with the axes of the metering slots o steel plates 3 disc 2.

 The technical documentation has been developed for the proposed device, and a pilot production plant has been manufactured by the order of a pharmaceutical company, complex tests of which have yielded positive results.

Claims (1)

 Bulk material dispenser, comprising a disk rotated by a drive shaft with metering slots, a housing with blades mounted circumferentially in its lower part at various angles of inclination to the disk plane, a cone agitator having ribs, and a dose cutter, as well as a control system, characterized in that the disk with the metering slots is made of a set of round plates with grooves, mounted on the drive shaft with the possibility of mutual rotation, and in the grooves of the plates are spring-loaded gates that overlap the metering slots on required disk height.

Images