SU265334A1 - - Google Patents

Description

ELECTRODE TOOL FOR ELECTROCHEMICAL TREATMENT OF CHANNELS

Electrode instruments for electrochemical machining in parts of channels with different circuits in cross section, made, for example, in the form of an iris diaphragm, are automatically controlled by the channel cross section. However, these devices cannot treat oval, drop-shaped and other non-twisted channels, as well as dimensional removal of material from specified areas of the treated surface.

The proposed electrode tool differs from the known ones in that the working part of it is made of separate plates, pivotally interconnected by axes through oval holes, forming a chain fixed by fingers to the four-bar frames mounted on movable washers and connected to the rod by means of arms part of the electrode tool from turning during rotation of the workpiece.

This allows the device to be used in the processing of long channels with varying lengths of cross sections and variable perimeters.

chain elements; in fig. 4 is a schematic of current supply and regulation.

Sections 4, 5, 6, and 7, made in the form of a lamellar chain of individual links 8, 9, pivotally interconnected by axes 10, are fixed to the shank / with the help of a movable plate 2 and frame 3. the position of the links depending on the flow area (see Fig. 2). Frame 3 is connected by bolts 11, to which the arms 12 are movably pivotally connected to the sleeve 13, which is installed by means of a key 14 and a nut 15 on a rod /. Between links 8, 9, resilient elements 16 are installed, which push the links apart and ensure the contact of insulators 17 with the inner surface of the channels at a variable perimeter and retain the predetermined electrode gap.

Elastic chamber 18, elastic inserts 9 and flexible current leads 20, soldered at points 21 and transmitting current from the staple to sections 5, 6, 7 are located inside the working section. Section # is isolated from section 5 and the frame

3 by pads 22, 23. The links 24 in the circuit of section 4 are insulated from each other by bushings 25 and insulators 17. Current is supplied to each link by insulated current leads 25 laid in channel 26

plug connector 27. The magnitude of the current in the links x 24 sections 4 is regulated by rheostats,. Lz, the Current on sections 5, 6, n 7 comes from the power source of the PI, the positive pole of which is connected to the workpiece 28.

The electrode tool works as follows.

The device (see Fig. 1) is connected to a bar of an installation or a machine for electrochemically treating the inner surface of the pipes and is introduced into the working area, i.e., into the channel (see Fig. 4).

The working part, i.e. the plate chain, fits into the channel contour, touching the walls of the part with insulators, which add to the occurrence of a short circuit. The plates are pressed against the surface to be treated with a number of elastic elements 16, tend to push them apart, and the pressure created inside the chamber 18.

In the channel of the workpiece serves the electrolyte, which flows between the working part of the cathode device and the workpiece surface.

The end face of the cathode device is sealed using a four-bar frame 3, washer 2, chain links and camera 18. Frame 3 has a shaped configuration and, together with washer 2, blocks the flow area of the channel when processing sections of different contours, maintaining high electrolyte pressure, which contributes to the process intensification remove sludge from the work area and increase productivity.

When processing round channels to increase the purity and accuracy of the workpiece, the parts are given a vrascal movement, while the working part of the cathode is kept from being turned by levers 12 connected to rod 1.

Local removal of metal is carried out without rotating the part with the current turned off on sections 5, 6 TL 7, and the power supply to the links 24 is controlled by rheostats depending on the size of the allowance being removed in specified areas of the channel surface.

Subject invention

Electrode instrumentation for electrochemical processing of channels, the working part of which,

equipped with insulators and flexible current leads, attached by means of a rod to the working body of the machine, characterized in that, in order to process long channels with varying along the length of cross-sectional shapes and variable perimeters, the working part is made of separate plates hinged with each other by axes through oval holes forming a chain fixed by fingers to

the four-bar frames mounted on the fixed washers and connected to the bar by levers holding the working part of the tool electrode from turning while the workpiece is rotating.