SU457755A1 - Electroplate Electroplating Device - Google Patents

Description

one

The invention relates to electroplating, in particular, to the restoration of worn parts of machines by electroplating in repairing production, and can be widely used to apply coatings on certain surfaces of newly manufactured products to be coated.

A device for electroplate coating is known, comprising a handle body, a graphite anode with a tampon fixed in the case, an electrical cable and a container with electrolyte.

However, the prior art does not provide for stabilization of the process temperature, which adversely affects the quality of the coatings during the deposition of coatings at high current densities.

The purpose of the invention is. improving the quality of coatings by stabilizing the process temperature.

This is achieved by the fact that the device is equipped with an electrolyte distributor, an air tube and an air receiver in the form of a tube, the electrolyte distributor being designed as a hollow cylinder fixed to the electrolyte tank with a hole with a hole, the graphite anode is hollow, and the air receiver mounted inside a graphite anode with a gap relative to it and connected to an air blower.

FIG. 1 shows the structure of the proposed device; in fig. 2 — node I in FIG. one; in fig. 3 - node II in FIG. one,

The device has a handle body 1, a graphite anode 2 with a tampon 3, an electrical cable 4, a container with electrolyte (not shown), an electrolyte distributor,

made in the form of a hollow cylinder 6 with a cover 7 with holes, an air blower 8, an air receiver 8 mounted inside a graphite anode 2 with a gap relative to it and connected to the air blower 8 pipe 10 and fitting P. In the case of the air blower 8, a direct current motor 12 is installed, on the central axis of which is mounted a high-speed turbine blade 13. In the lower part of the case handle 1 is rigidly mounted A terminal of the terminal 14, into which a sliding contact 15 is inserted, capable of making a vrasive movement relative to the terminal of the terminal 14, has a dielectric ratika 16 installed on the lower part of the housing 1, which keeps the sliding contact 15 from falling out of the terminal of the terminal 14. Inside the internal cavity of the sliding The contact 15 is inserted into the electric cable 4, on the output part of the sliding contact 15 n the outer surface of the cable 4 is rigidly mounted the holder 17, which ensures a reliable sealing of the conductor of the power cable. On the case 1, a protective ring 18 and a fuse 19 are installed, protecting the operator’s hands from the operator’s hands.

The device works as follows. Electrical cable 4 is connected to the positive terminal and the product to be coated is connected to the negative terminal of the DC power source. An electrolyte is supplied to the electrolyte dispenser. The prepared device is applied to the surface to be coated and the voltage is applied. After 1.5-2 minutes from the beginning of the process, the electric motor 12 of the air blower 8 is turned on. Air moves first through the inlet of the blower 8 in the axial direction, and then, passing between the blades of the working turbine 13, changes its direction by 90 ° and is thrown into the spiral the channel of the blower housing 8, from where it enters through the inlet to the pipe 10 and through the fitting I to the air receiver 9 and through its channel is directed to the entrance to the cavity of the graphite anode 2. Forced air to the circular with a given speed but an internal cavity m of the air receiver 9 and the graphite anode 2, removes heat from the latter and exits through the opening to the head of the body-handle 1 to the environment (see Fig. 2 for the arrow “C). Air quantity per unit of time and speed

its movement along the internal cavities of the air receiver 9 and the anode 2 is controlled depending on the applied current density during the coating process.

The supply of injected air is regulated both by the throttle effect and the change in the number of rotation of the working turbine 13 by means of a rheostat, and by applying varying sections of the air receiver 9 and the graphite anode 2. Thus, applying a predetermined portion of injected air per unit of time, the next movement at a certain speed, depending on the cross-section of the charge air receiver 9 and the anode 2, remove heat from the latter and stabilize the process temperature in. Opt1I1mah limits.

Subject invention

Electroplating electroplating device comprising a handle body, a graphite anode with a tampon fixed in the case, an electrical cable and an electrolyte tank, characterized in that, in order to improve the quality of coatings by stabilizing the process temperature, it is equipped with an electrolyte distributor, supercharger air and air receiver in the form of a tube, and the electrolyte dispenser is made in the form of a hollow cylinder fixed to the housing and connected to an electrolyte tank with a lid with holes, the graphite anode is made hollow, and the air receiver is mounted inside the graphite anode with a gap relative to it and connected to the air blower.

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