SU1697146A1 - Device for oriented storage and piece-by-piece feeding of electrodes of chemical sources of energy - Google Patents

Abstract

This invention relates to electrical engineering and relates to the production of chemical current sources. The purpose of the invention is to prevent destruction of the electrodes, contamination of their housings with an electrode mass and increased productivity. The device contains a conveyor 3 with partitions 5 and tracks b, a rotary feeder 27, an assembly assembly 28, a conveyor lift 12 with a driven member 14 and a belt 17,

Description

The invention relates to the electrical industry and can be used to produce chemical current sources.

The aim of the invention is to prevent destruction of the electrodes, contamination of their housings with an electrode mass and an increase in productivity.

Fig. 1 shows the proposed device, a general view; in fig. 2 is a view A of FIG. one; in fig. 3 is a section BB in FIG. one; in fig. 4 shows an electrode of a chemical current source, a section; FIG. 5 is a plan diagram of the arrangement of the mechanism for oriented accumulation and delivery of electrodes of chemical current sources on the conveyor of supplying electrodes from the place of their manufacture to units for the length of oriented accumulation; in fig. b - section BB in FIG. one.

The proposed device comprises a hopper 1 mounted on racks 2 above the conveyor 3 for delivering electrodes from the place of their manufacture to mechanisms 4 for their oriented accumulation. The surface of the conveyor 3 is divided by partitions 5 into tracks b by the number of installed mechanisms for oriented accumulation of electrodes. Above the track 6 at the edge of the conveyor 3, driven by a blade rotary feeder 7, on its shaft 8, the mechanism 9 of the single-pass transmission of electrodes is installed. On the other hand, the rotary vane feeder 7 on its shaft 8 has a friction safety assembly 10 against overloads. The blade rotary feeder 7 is placed in the center of the cylindrical guide 11, along which the blades of the rotary feeder 7 transfer the electrode to the conveyor belt-lift 12, along the inclined guide 13 of which the electrodes rise into the hopper 1. The pulley 14 of the conveyor-lift 12, located at the entrance to the bunker 1 is installed in the center of the cylindrical guide 15 and is provided with two elastic rings 16 attached to both sides of the pulley 14. The edges of the rings 16 are elevated above the belt 17 of the elevator conveyor 12, which covers the pulley 14. Cylinders The caddy guide 15 and pulley 14 are mounted from the top of the inclined bottom 18.

Boone "Gerch 1, at the entrance to the bunker 1.

The gap between the cylindrical guide 15 and the edges of the elastic rings 16 is smaller than the diameter of the electrode. When applying electrodes sections of the rings 16, in which

At this moment, the electrodes are located, elastically deformed, due to which the electrodes are forcefully introduced into the cavity of the bunker 1, which is necessary when the bunker 1 is filled with electrodes. The sloping bottom 18 of the bunker 1 ensures the advancement of the electrodes from the entrance to the bunker i to its exit from the bunker 1 by gravity.

At the exit from the bunker 1 and the entrance to the wavy trigger channel 19, through which the electrodes by gravity exit from the bunker 1, there is a set of electrodes, made in the form of two disks 20 attached to two sides of the cam 21 and installed on the same level with the side

5 with walls 22 and 23 of the hopper 1, with the possibility of their rotation in the opposite direction of the movement of the electrodes. At least one side wall of 22 of the two is made of silicate glass. Another wall 23 of the bunker 1 can be

0 made of Plexiglas, which provides convenience for visual observation of the electrodes in the hopper 1. Drive mechanism 4 for oriented accumulation and delivery of electrodes of chemical current sources

5 is made from a common drive shaft 24 located along conveyor 3.

The device also contains units 25 for the manufacture of electrodes, unit 26 for orientation of the electrodes, a rotary feeder 27

0 and assembly assembly 28.

The device works as follows.

The fabricated electrodes 29, advancing along the tracks 6 of the conveyor 2, pass through the node 26 for the orientation of the electrodes of 29 meters to the edge of the conveyor 3, to the mechanism 4 for oriented

accumulation and delivery of electrodes of intelligent current sources, where mechanism 9 produces piecewise transmission of electrodes 29 to the rotor blade feeder 7. Electrodes 29 are picked up by the blades of the rotary feeder 7. which operates synchronously with the piecewise transmission mechanism 9 of the electrode, and along a cylindrical guide; ; 11 is transmitted to an inclined guide 13 of the conveyor belt 12, along which the electrodes 29 rise to a cylindrical guide 15, where the electrodes 29 are picked up by two elastic rings 16 of the pulley 14, which push the electrodes 29 into the hopper 1.

The electrodes exit from the hopper 1 through a wavy trigger channel / 9. The agitator at the expense of the disk 20 attached to the cam 21, provides uninterrupted delivery of electrodes 29 from the hopper 1 as the electrodes 4 are taken by the rotary feeder 27.

The proposed device for oriented accumulation and dispensing of electrodes has high performance, eliminates contamination of the housings of chemical current sources by the crushing electrode mass and, as a result, reduces the cancer of chemical current sources.

Claims (2)

Claim 1. Device for oriented accumulation and single-piece issuance of electrodes of chemical current sources, containing Electrode Transporter, Hook Electrode Orienter, Electrode Agitator Hopper, and Wavy Trigger for Sample Issuing Electrodes from the Hopper, characterized in that In order to prevent the destruction of electrons, contamination of their housings by the electrode box, and increase in productivity, it contains a mechanism for the oriented supply of electrodes to the bunker, made in the blade feeder with a friction overload safety assembly and the electrode lift conveyor B there is a bunker, to both sides of the driven element of which is installed at the entrance e bunker. elastic rings are attached, the edges of which protrude above the conveyor-lift, and an electro-tedder is installed at the exit from the bunker and the entrance to the wavy trigger channel; discs attached to the cam and flush with the side walls of the hopper so that they can rotate. 2. Device pop. 1, characterized in that one side wall of the hopper made of silicone;, g; south glass. FIG. sz-EO, / -9 -5 22 Fig.8