RU179131U1 - ACCESSORIES FOR POINT ELECTROMECHANICAL PROCESSING OF PARTS - Google Patents

Abstract

The utility model relates to the field of metalworking of parts and can be used in various industries of mechanical engineering and repair production for spot electromechanical hardening of product surfaces. A spring-loaded rod is mounted in the device body on which a current lead and a head with a processing electrode tool are mounted. The rotation of the stem is limited by the locking screw. A rod is attached to the stem. The rod acts on the radio-controlled unit, which automatically, with a certain effort of pressing the electrode-tool, turns the current on and off. A guide is welded to the body. In the guide with the help of two stoppers installed rack. The stand has the ability to move in the vertical direction. An insulating sleeve and an electrical contact device are installed on the rack with a gap. An electrical contact device with an insulating sleeve moves vertically with a lever. The device allows you to expand the scope of electromechanical processing technology, increases the efficiency of spot electromechanical processing.

Description

The utility model relates to the field of electromechanical processing (EMO) of products, relates to the means of electromechanical spot processing of parts in the conditions of mass and repair production.

Known holders for EMO parts in the form of a torque device using a coil spring and rod. A current lead and a head with a processing electrode tool in the form of a plate or a roller are attached to the rod, and the rotation of the rod is limited by a stopper in the form of a screw or key (see B. Askinazi, Hardening and restoration of machine parts by electromechanical processing / B.M. Askinazi. - M .: Mashinostroenie, 1989. - 200 pp. And Yakovlev, S.A. Influence of electrophysical parameters on the electromechanical processing of machine parts: monograph / S.A. Yakovlev. - Ulyanovsk: UVAU GA (I), 2014. - 129 p. ) Such holders provide a thermomechanical effect on the surface of parts due to the fact that a high-density current (10 ⁸ -10 ⁹ A / m ² ) and low (1-6 V) pass through the contact zone of the deforming electrode tool (roller or plate) and the part voltage, as a result of which a large amount of heat is released on the contacting surface of the product, high-speed heating of the local microvolume of the surface occurs with its simultaneous plastic deformation and subsequent intensive cooling due to heat removal inside ali. This leads to increased strength and wear resistance of the surface layer of the product. The holder is installed in the tool holder of the machine. To turn the current on and off, a hand-operated portable station is used, which is located at the workplace.

However, processing with such holders is possible only on machines, which limits the scope of application of electromechanical processing technology.

Known holder for point electromechanical processing of parts (utility model of the Russian Federation No. 158551), comprising a housing, an electrode tool mounted on a spring-loaded rod, a current supply mounted on the rod, and a locking screw to limit the rotation of the rod, characterized in that it is equipped with handles fixed in the housing, a rod mounted on the rod, and a radio-controlled unit configured to turn on and off the current supplied to the electrode-tool, depending on the force of pressing the electrode-tool to children Is. The device allows to carry out spot electromechanical processing of parts, which allows to expand the scope of application of electromechanical processing technology.

However, when machining with such a holder, it is first necessary to attach one of the EMO current-supply cables to the workpiece, which is not always technologically advanced and time-consuming.

The objective of the utility model is to expand the scope and increase the efficiency of the EMO process for surface spot treatment by using devices for electromechanical spot machining of parts.

The task is achieved in that the guide is welded to the device body, with the help of two stoppers, a stand is mounted with the possibility of movement in the vertical direction, an insulating sleeve and an electrical contact device are installed on the stand with a gap, moving in the vertical direction by means of a lever.

The figure shows a General view of the device for point electromechanical processing of parts.

The device consists of the following assembly units and parts: electrode tool 1, head 2, current lead 3, handle 4, body 5, radio control unit 6, spring 7, rod 8, locking screw 9, rod 10, guide 11, two stops 12, the rack 13, the insulating sleeve 14, the electrical contact device 15 and the lever 16.

A guide 11 is welded to the casing 5, a rack 13 is installed in it using two stops 12. The rack has the ability to move in a vertical direction relative to the guide and is fastened with two stops 12.

An insulating sleeve 13 and an electrical contact device 15 are installed on the rack with a gap. They move in the vertical direction with the help of the lever 16.

The rod 10 with the current lead 3 installed thereon, the head 2, the electrode tool 1 and the rod 8 is pressed against the surface of the part using the lever 16 due to the elastic forces of the compressible spring 7.

The device for point electromechanical processing of parts works as follows. Fixture electrode-tool is installed on the hardened area of the part. Then, by moving the lever down, an electrocontact device with an insulating sleeve is pressed against the lower part of the workpiece, providing contact with the part. Further movement of the lever downward leads to a downward movement of the rack, guide and housing, which leads to compression of the spring. The rod moves upward relative to the housing, closing the contacts of the radio control unit at a certain pressure of the tool. A radio signal is supplied to the power source for electromechanical processing, which ensures the closure of the electrical circuit and the point is electromechanical surface treatment.

To turn off the current, raise the lever up. In this case, the rack, guide and body will begin to move up. The spring begins to move the rod with the rod down relative to the housing, the contacts of the radio control device open, which ensures the cessation of current supply.

The modes of spot electromechanical processing (current density, tool pressure), as well as the material and shape of the tools are adopted based on the tasks and requirements of the process.

The technical result provided by the utility model is to expand the scope and increase the efficiency of the EMO process for surface spot machining.

The use of an electrical contact device eliminates the need for pre-mounting one of their current-supply cables to the workpiece.

The ability to move the rack relative to the guide in the vertical direction allows for spot electromechanical processing of parts of various thicknesses.

Claims (1)

Device for electromechanical machining of parts, comprising a housing with a handle, an electrode tool mounted with a head on a spring-loaded rod, a current supply mounted on the rod, a locking screw to limit the rotation of the rod, a rod mounted on the rod, a radio-controlled unit configured to be switched on and turning off the current supplied to the electrode tool, depending on the force of pressing the electrode tool to the part, characterized in that a guide is welded to the housing, in which with two stoppers, a stand is mounted with the ability to move in the vertical direction, while an insulating sleeve and an electrical contact device are mounted on the stand with a gap, made to move in the vertical direction using the lever.

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