RU97077U1 - TWO-TOOL HOLDER FOR ELECTROMECHANICAL MACHINING OF MACHINE PARTS - Google Patents

Abstract

 A two-tool holder for electromechanical machining of machine parts in the form of a dynamometer using spiral springs on which a head is mounted, characterized in that two tools are installed in the head on the half shafts in one line with the ability to adjust the distance between them using insulating washers, and the tools and half shafts insulated from each other by means of bushings, and the supply of electric current to the tools is provided directly through the axle shafts.

Description

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

There are known holders for electromechanical processing of machine parts in the form of a dynamometer using spiral springs on which a head with one processing tool in the form of a plate or roller is mounted (see B. Askinazi, Hardening and restoration of parts by electromechanical processing.- L .: Mechanical engineering.- 1989.-184 pp. And Bagmutov V.P., Parshev S.N., Dudkina N.G., Zakharov I.N. Electromechanical processing: technological and physical foundations, properties, implementation.-Novosibirsk: Nauka, 2003.- 318 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) voltage passes through the contact zone of the deforming electrode tool (roller or plate) and the part as a result of which a large amount of heat is generated on the contacting surface of the product, high-speed heating of the local microvolume of the surface with its simultaneous plastic deformation, and subsequent intensive cooling due to heat removal inside Whether that leads to increased strength and durability. To close the working circuit, an electric current is supplied to the part through an electrical contact device and tool holder, which form a common electric circuit with the part.

However, processing with such holders is characterized by low surface treatment productivity, large losses of electricity in the tooling and along the length of the part, and low process efficiency.

Known integrated installation for electromechanical processing (Patent No. 2127183 adopted as a prototype, see Bull. No. 7, 03/10/99), containing a power step-down transformer with regulation and control equipment, technologically related auxiliary equipment with current-supply elements and a spring-loaded holder, a bearing head with a working tool and intended for mounting on a support of a lathe, characterized in that the power step-down transformer with a toroidal core is also located on a support of a turning the machine, and the spring holder is fixed with the possibility of adjusting its position, while the head is mounted in the holder with the possibility of swinging and is made double-lever with arms of arms that are adjustable in length relative to the axis of swing, carrying working tools at the ends in the form of rollers, the current supply to which is carried out directly from the transformer elastic tires of the secondary winding. In this design, two heads are used in which one roller is installed. With this treatment, energy losses are reduced, the process productivity is increased due to the two-roller effect.

However, this device also has a fairly high energy loss, metal consumption and insufficient performance. Swinging rollers do not provide reliable contact of the tool with the surface of the product.

The objective of the utility model is to increase the efficiency of the EMO process by increasing processing productivity and increasing the efficiency of the process.

The task is achieved by the fact that two tools are installed in the head of the holder on the half shafts on the same line with the ability to control the distance between them using insulating washers, the tools and half shafts are isolated from each other using bushings, and the electric current is supplied to the tools directly through the half shafts.

The figure shows a general view of a two-tool holder.

A two-tool holder contains a holder body 1, a coil spring 2, a stem 3 on which a head 4 is attached, two half shafts 5, two tools in the form of a roller 6, two insulating sleeves 7, two insulating adjusting washers 8, clamping washers 9 and nuts 10.

A two-tool holder for electromechanical processing of machine parts works as follows. Before electromechanical processing using insulating washers, the gap between the tools is adjusted, depending on the technological requirements of the process. Then to the axle shafts are connected busbars (not shown in the drawing). After this, the immobility of the axle shafts and reliable contact with the current-carrying tires with washers 9 and nuts 10 are ensured.

Next, the holder is attached to the machine (for example, in the tool holder) and pressed simultaneously by two rollers to the surface to be machined, while the EMO working circuit is closed and various EMO processes are performed.

When machining with a two-tool holder, energy losses in the part are reduced by reducing the distance between the tools, and the processing productivity is increased due to the two-tool processing.

Thus, when using this method of processing machine parts, the processing productivity is increased, unproductive losses of electric energy are reduced during the process operation, and the efficiency of the EMO process is increased.

Claims (1)

A two-tool holder for electromechanical machining of machine parts in the form of a dynamometer using spiral springs on which a head is mounted, characterized in that two tools are installed in the head on the half shafts in one line with the ability to control the distance between them using insulating washers, the tools and half shafts insulated from each other by means of bushings, and the supply of electric current to the tools is provided directly through the axle shafts.