SU319002A1 - DEVICE FOR CONDENSING CAPACITORS - Google Patents

Description

The invention can be used for grading cylindrical electric capacitors with leads located on one side of the housing.

A device for grading capacitors is known, comprising a conveyor with sockets, a measuring unit, a discharge unit and a drive mechanism.

The performance of such a device in operation is low due to the fact that during automatic unloading it is necessary first to remove all capacitors from the transport unit, since the charging time of the capacitors is kept constant. Performance losses increase when the capacitors are scrutinized by several parameters, with unloading into various bunkers and with an increase in the overall dimensions of the capacitors.

The purpose of the invention is to improve the performance of the device in operation. This is achieved in that the device uses two discharging units disposed one above the other, interconnected by a tray, covered in the initial position by the upper assembly bunker, and the slots of the discharge units are equipped with spring-loaded compensators, one of which is fixed on the pusher connected to the curtains mounted on entering the nest.

roystvo, general view; in fig. 2 - unloading unit (the second unloading unit is not shown in Fig.).

The device contains a transport spreader / with sockets 2, driven by a drive mechanism consisting of an electric motor 3 and a gearbox 4; measuring unit 5 electrically connected with fixed tires 6 in contact with the current collectors 7 of the sockets 2; and two unloading units, one above the other and identical in design. The discharge of the measured capacitors is performed by means of electromagnets 8, which move the rods 9. The reset zone

capacitors are connected by an unloading unit using guide funnels 10. On the camshaft, there are cams / ;. The discharge unit contains a socket provided with spring-loaded compensators 12, one of which is fixed on the push rod 13 connected to the shutters 14 installed at the entrance of the socket. Tray 15 is located under the nest;

a hopper 16, which is a box with horizontal DNO. Tray 15 leads to the second discharge unit of a similar design. The device works as follows.

These forms are installed in slots 2 and held in them by spring-loaded contacts. During the conveyor movement, the capacitor is in electrical contact with the measuring unit 5, charging the capacitor and measuring the necessary parameters. Depending on the measurement results, the measuring unit sends a pulse to one of the electromagnets 8. The electromagnet is activated and moves the rod 9, freeing the capacitor, which falls in a vertical position with the leads pointing upward through the guide funnel 10 to the outlet of the discharge unit. The compensators 12 of the discharge unit are arranged so that a capacitor with a minimum case diameter is placed in the socket. When sorting capacitors — of larger diameter, the compensators are consumed by the weight of the capacitor, and the latter invariably occupies a vertical position in the socket. The pusher 13, receiving movement from the cam 11, moves the capacitor through the opening curtains 14 into the hopper 16. The capacitor slides along the bottom of the hopper, maintaining a vertical position. The next capacitor, taking the place of the previous one, shifts it along the bunker, while the vertical position of the capacitors is maintained. When repeating cycles, the capacitors, interacting with one another cylindrical surfaces, are distributed across the bottom of the hopper in all directions and fill it. After filling the bunker at the next

cycle, the pusher 13 shifts the bunker away from the discharge unit. This opens tray 15 and gives a signal that the bin is full. The rejected capacitors in the tray go to the second discharge unit, which operates similarly. Due to the presence of a second discharge unit, there is no need to turn off the device for replacing bins.

Subject invention

A device for grading capacitors, for example, of a cylindrical shape, containing a conveyor with sockets, measuring

block, unloading unit and drive mechanism, characterized in that, in order to improve the performance of the device in operation, it uses two discharging units located one above the other, interconnected by a tray, blocked in the initial position by the upper unit hopper, and the unloading unit slots are provided spring-loaded compensators, one of which is mounted on the pusher connected to the curtains installed at the entrance of the socket.