SU1604658A1 - Arrangement for metering loose materials to container - Google Patents

Abstract

The invention relates to the fishing industry and can be used in packaging cans of salt. The purpose of the invention is to improve the dosing accuracy. The device contains a hopper 1 with agitators 2 and a stationary disk 3 parallel to the coaxially fixed disk 3 with a loading opening 4 and a movable disk 5 rotated with dispensing cells 6. The disk 5 has radial through cutouts, each of which can be rotated plate 13 is installed in the vertical plane, and the metering cell is made in the plate. Under each plate 13 mounted stop 17, rigidly fixed on the hub of the disk 5 and interacting with the plate 13 in the area of the issuance of the dose. Under the disk 5 in the area of the metering cells 6 installed horizontal copier 7, made in the form of a fixed annular sector. 2 hp f-ly, 7 ill.

Description

. one

during rotation, a movable disk 5 with metering cells 6. In disk 5, there are radial through cuts, each of which has a plate 13 mounted for rotation in a vertical plane, and a metering cell is made in a plate. Under each plate 13 mounted stop 17, rigidly fixed on the hub of the disk 5 and interacting with the plate 13 in the area of the issuance of the dose. Under the disk 5, in the area of the metering cells, a horizontal copier 5 is installed, made in the form of a fixed annular sector. 2 h. the item of f-ly, 7 ill.

The invention relates to fish and canning industries, namely to devices for dosing bulk or empty containers filled with product, such as salt.

The purpose of the invention is to increase the metering accuracy.

Constructive execution of a movable disk with plates and dosing cells allows the plates to perform a working stroke to stop abruptly in the dosing zone when turning down in the vertical plane, as a result of which the metered material, in addition to gravitational forces, is influenced by inertia forces that provide a forced flow of bulk material from the dosing cell into the can, and this in turn contributes to the complete precipitation of the dose, which ultimately improves the accuracy of dosing.

Installing the copier under the disk in the area of the metering cells causes the top surface of the copier to be the bottom of the metering cells when they align with the loading opening in the fixed disc and fill: x bulk material coming from the hopper, as well as the bottom metering cells during rotation of the plates along with the disk to the area of the dose in the bank.

Making the copier in the form of a fixed ring sector leads to the fact that in the dose area the copier breaks off and the plate with the dosing cell makes a working stroke unhindered, and the dose of bulk material is irrespective of its physical condition (specially dried, unsubstituted and moistened) jar.

The presence of an inclined section in the copier contributes to the return of the plates with the dosing cells from the downwardly inclined position to the horizontal position for 3aj filling the dosing cells with a new portion of bulk material.

Constructive execution of the locking device allows, in the absence of a can under the dosing cell, to form, together with a copier, a closed annular circuit, in which the plate with the filled dosing cell moves, making a complete revolution, until the next can approach under the dosing cell. If there is a baic under the dosing cell, the horizontal the sector of the locking device is retracted in the horizontal plane to the left, „the closed ring contour opens and обеспеч ensuring the plate with is filled Second dosing cell soverschenno possibility of stroke.

FIG. 1 shows a device, a general view, a section; in fig. 2 - rotatable disk; in fig. 3 shows section A-A in FIG. one; in fig. .4 - section BB in FIG. one; in fig. 5 is a view of B in FIG. 3; in fig. 6 is a view of FIG. 3; in fig. 7 is a section d-d in fig. 3

20 A device for metering bulk materials, such as salt, contains a hopper 1 with agitators 2, parallelly located and coaxially fixed disk 3 with a loading opening 4, a movable disk 5 with dispensing cells 6, a copier 7.

35 Bunker 1 is fixed and mounted on racks 8.

The agitators 2 are installed inside the hopper 1 on a hollow axis 9, which is mounted concentrically with the shaft 10, which is rotated and rigidly connected to it. The disk 3 is the bottom of the hopper 1 and ycTaj is inserted on a hollow axis 11 concentric with the shaft 10. The disk 3 is stationary during operation of the device.

45 The disk 5 is located under the disk 3 is rigidly mounted on the shaft 10 and rotates with it. The disk 5 has radial through cuts 12, in each of which a plate 13 with a metering cell 6 is placed. The plate 13 is radially mounted on axis 14 so that it can be rotated in a vertical plane from a horizontal position. The axis 14 is located in the grooves of the feet of the disk 5 and is spring-loaded by a spring 15. In each metering cell 6 of the plate 13, 55 slider 16 is installed to ensure infinitely variable (smooth) control of the cell volume (salt dose). Under each plate 13 mounted stop 17, rigidly fixed

on the hub of the disk 5 and interacting with the plate 13 in the area of issue of the dose of material. The surface of the stop 17, in contact with the plate 13, is covered with an elastic material, for example rubber.

The disk 5 is installed with a gap relative to the fixed disk 3 to ensure free rotation. The size of the gap is controlled by varying the height of the sleeves 18.

Under the disk 5, in the area of the metering cells, a horizontal copier 7 is mounted, fixedly mounted on the uprights 8. Copier 7 is made as an annular sector and is the bottom of the metering cells 6 into the loading area with bulk material from the hopper f and in the section where the plates 13 are filled with b metering cells from the loading area to the dose area. The copier 7 may have an inclined portion 19 for ensuring the return of the plates 13 to a horizontal position after the dose is dispensed from the metering cells 6.

The device may have a locking device, made in the form of a horizontal ring sector 20, rigidly connected with a lever 21 mounted on an axis 22, with the possibility of reciprocating movement in a horizontal plane and a spring-loaded spring 23. In the absence of a can 24 under the dosing cell, a horizontal annular sector 20 of the locking device has the ability to be placed between the ends of the copier 7 and, in contact with the fixed horizontal ring sector of the copier, forms with it a closed first annular contour.

The device works as follows.

The bunker 1 is filled with salt, which can be either specially suspended or not dried, as well as a specially moistened spice extract.

A vertical shaft 10, boosters 2 and a disk 5 with metering cells 6 are driven into rotation from an electric motor (not shown).

Empty or product-filled cans 24, separated by a string, are fed to one of the known methods in the dosing zone, while the supply of the cans 24 is synchronized with the rotation of the disk 5.

The tedders 2 loosen the salt in the bunker 1. When combining the metering cell b with the loading opening 4 in the fixed disk 3, which is the bottom of the bunker 1, salt from the bunker 1 under the action of the agitators 2 enters the metering cell b of the plate 13, while the upper surface of the annular sector of the copier 7 serves as the bottom of the metering cell b.

With further rotation of the disk 5, the 6 portion of salt in the cell is bounded above by the outer surface of some 10

the movable disk 3 and the bottom of the upper surface of the copier 7.

In the zone where the dose is dispensed, the bank 24, overcoming the resistance of the spring 23, presses the lever 21, which rotates around the axis 22 and retracts the horizontal ring sector 20 of the locking device to the left.

When the annular sector 20 is withdrawn from the copier 7, the plate 13 makes a working stroke, turning in the through cutout 12 of the disk 5 around the axis 14 and deflected downward in the vertical plane.

The plate 13, stripped off from the copier 7, under the action of the spring 15, hits the trimmed stop 17 and stops abruptly on it, with the result that the dose of salt, having appeared without bottom, carried away by the forces of gravity and inertia, is forcibly released into the can 24 .

With further rotation of the disk 5, the plate 13 with an empty dispensing cell b, limited from further angular movement in the vertical plane by the stop 17, rotates together with the disk 5 and approaches the inclined 5 section 19 of the copier 7, lifting up the plate 13 returns to the horizontal position to fill the dosing cell with a new dose of salt.

In the absence of a can 24 under the dosing cell b, a horizontal ring 0 sector 20 of the locking device is not removed from the copier 7, forming together with its ring sector a closed ring contour. As a result, the plate 13 does not make a stroke, and the dose of salt in the metering cell b, 5 is not dispensed into the jar 24. In this case, the plate 13 with the salt b filled with the metering cell b, making a full turn on the closed ring contour formed The annular sector 20 of the blocking device and the annular sector of the copier 7 return to the dosing zone, and at the approach of the next can 24 under the dosing cell, a dose of salt is issued to the B can.

To change the volume of the dose in each g cell b, a slider 16 is installed, moving and fixing which, the dose can be adjusted.

Claims (2)

01. Device for dosing bulk materials into a container containing a bunker with an earplug and parallel and coaxially fixed disk with a loading opening and a movable disk with dispensing cells arranged with 5 with the ability to adjust the volume, characterized in that, in order to increase the accuracy of dosing, radial through-cuts are made in the movable disk, each of which is rotatably mounted in a vertical plane from a horizontal position, a plate is installed, the metering cell is made in the latter, each bar has a stop fixed on the disc hub for interacting with the plate in the dose delivery area of the ampli fi er, and under the disk in the area of the metering cells mounted horizontal copier, made in the form of a fixed annular sector. 2. The device according to claim 1, characterized in that the copier has an inclined section FIG. 2 0 to return the plates to a horizontal position. 3 Device on PP. 1 and 2, characterized in that, in order to prevent the delivery of a dose in the absence of tare under the dosing cell, it is provided with a blocking device made in the form of an annular sector installed with the possibility of reciprocating movement in the horizontal plane and placed between the ends of the copier . A-l Fiyo. View 8 FIG 6 FIG. 7