SU1246182A1 - Apparatus for manufacturing chemical sources of electric energy - Google Patents

Description

The invention relates to electrical industry and can be used in automatic production lines of chemical current sources.

A device for the manufacture of chemical current sources is known, comprising two rotors with friction discs located in the same plane and a transport system.

However, with a single-row arrangement of rotors in line, with an increase in the number of operations, the number of working rotors correspondingly increases, the production space occupied by them, and the equipment becomes difficult to drive and maintain.

The closest in technical essence and achievable results is a device for the manufacture of chemical current sources, containing multi-colored rotors with friction disks united by a traction system.

A disadvantage of this device is the presence of belt conveyors, which complicates the design. When oncoming machining or assembly routes in one course, it is necessary to have additional sections of conveyors.

The purpose of the invention is to simplify the construction.

The rotor disks in the rus are located tangentially to each other and are interconnected in a horizontal plane by the guide rails installed above them, and in the vertical plane by gravity trays.

The drawing shows the proposed device, a General view.

The device contains a working rotor 1 and a disk feeder 2, which simultaneously performs the functions of a loading and unloading rotor. In the rotor drum, which is made in concert with the disks 3 and 4, on which the cutters 5 and 6 are mounted, tool kits are installed, consisting of a punch 7 and dies 8. Feeder 2 includes disks 9-11 with rims mounted above the disks of the bar 12 -15 and curved spring guides 16-18, which are attached to fixed rings. The disks 4 and 10, which are located in one plane tangentially to one another, with the guide bar 19 installed above them, form the upper Russian of the transport system, and the disks 3 and 9 with the guide bar 20 - the lower Russian. The disk 11 of the feeder is associated with the disk 4 of the working rotor by an inclined gravity tray 21, at the output of which spring-loaded stops and a flat spring 22 are mounted, and the upper one is connected with the bottom gravity VNIIPI Order 4008/46 Circulation 643 Signature Fi. Uzhgorod, st. Project, 4

0

0

five

0

five

0

drive tray 23. The drive gears 24 and 25 of the rotor and the feeder are directly engaged with each other. The directions of rotation of the disks are indicated by arrows.

The device works as follows.

The positive electrodes are loaded onto the rotating disk 11 of the feeder 2 and under the action of the spring guide 18 are shifted towards its periphery. The outer row of electrodes, adjacent to the fixed rim, is fed to the bar 12 and, moving along it, enters the inclined tray 21. At the exit of the tray, the electrodes are held by spring-loaded stops. Similarly, the negative electrodes are fed to the disk 10 and, moving along the bar 13 and guiding the plank 19, are fed to the disk 4 of the working rotor 1 to the slam-shutter 5. When the rotor 1 rotates, the negative electrodes lead to the bushing sockets From the positive electrodes electrodes, they snatch them out of the inclined chute 21. Under the action of the flat spring 22, they are joined by the articulation of electrodes, which are then fed along the chute 23 to the disk 3 of the lower rotor of the rotor 1. Moving along the wall of the tray, they sink into The puncher 6 and the upper punches 7 are pushed into the dies 8, in which rolling occurs. The finished elements are pushed out by the lower lyancones to the level of the disk 3 mirror and, moving along the guide bar 20, fall onto the disk 9 and then the 1st output channel formed by the bars 14 and 15, go to the receiving container. When overlapping output channel e. 1. The movements continue along with the disk 9 and the spring direction 16 and 16 are shifted toward the periphery. In this case, the disk performs a storage drive to compensate for failures in subsequent operations or to replace the receiving container without stopping the device.

The proposed design significantly reduces the kinematic chain of the 1Divode's overall dimensions and metal consumption of the device, which reduces its cost by approximately 300/0.

When several multi-rotor rotors are combined in a line, it is possible to organize the technological flow of machining items in rus in any direction by changing the guide rails, without changing the direction of rotation of the disks.

Gravity trays make it possible to establish a flexible connection between the Rus of the same or different rotors, and the free disks can be used as an inter-operative ion drive.

Claims (1)

DEVICE FOR MANUFACTURING CHEMICAL CURRENT SOURCES, containing multi-tier rotors with friction disks connected by a transport system, characterized in that, in order to simplify the design, the rotor disks in tiers are located tangentially to each other and are connected to each other in a horizontal plane by guide rails installed above them, and in the vertical plane - gravity trays. to hU Ci QO to