RU170843U1 - ELECTRICAL HYDRAULIC DEVICE FOR RESTORING THE INTERNAL DIAMETER OF THE Worn-out CASES OF ICE CYLINDERS - Google Patents

Abstract

The utility model relates to repair and restoration production, in particular, it is intended for restoring the inner diameter of worn cylinder liners of internal combustion engines (ICE). labor due to a more efficient use of all the energy released during an electric discharge in water. ohm to restore the inner diameter of cylinder liners of internal combustion engines, which is a single bit with a cavity in the form of an annular channel "snail" with a decreasing cross-section, which covers the treated liner.

Description

The utility model relates to repair and restoration production, in particular, it is intended to restore the inner diameter of worn cylinder liners of internal combustion engines (ICE).

A known method and device for restoring the inner diameter of cylinder liners of internal combustion engines [1], comprising compressing the liner introduced inside her mandrel radial with respect to the cylindrical surface of the liner forces. In this case, the plastic deformation of the sleeve is carried out due to the energy of electro-hydraulic shock in a closed chamber by focusing the directivity of the impact of the blast wave. A device for implementing the method includes a closed discharge chamber with electrodes, while the inner cavity of the closed chamber is made in the form of two coaxially arranged conical surfaces whose axes coincide with the geometric axis of the channel of the electric discharge.

The disadvantage of the device [1] is that when a high-voltage electric discharge inside the sealed chamber, along with the compression of the sleeve in the radial direction, the compression force of the sleeve in the axial direction also acts, which leads to an undesirable change in the geometry of the cylinder sleeve in the axial direction.

It is also known a device for restoring the inner diameter of cylinder liners of internal combustion engines [2], containing a sealed discharge chamber with electrodes, characterized in that the inner side surface of the sealed discharge chamber is made in the form of a cylinder with a cross section in the form of an ellipse through one of the focus lines of which passes the geometric axis of the channel of the electric discharge, and through the other focus line - the axis of the processed sleeve.

The purpose of the proposed utility model is to expand the range of sizes of processed sleeves, prevent axial geometry changes of the liner, and most importantly, increase labor productivity due to more efficient use of all the energy released during electric discharge in water.

The goals are achieved by a device for restoring the inner diameter of cylinder liners of internal combustion engines, which is a single annular channel with a discharge cavity in the form of a "snail" with a decreasing cross section that envelops the cylinder liner being processed.

The inventive device is shown in the drawing where 1 is the body of the discharge chamber with a cover 2 and a bottom 3, 4 are the electrodes positive and negative, 5 is the sleeve being processed, 6 is the mandrel. The discharge chamber is filled with a working fluid 7, for example, with technically pure water.

The device is made in the form of a closed sealed chamber, which is a spiral channel (cochlea) with gradually decreasing rectangular sections, while the area of the cochlea is bounded by the outer wall in a spiral, and inside by the surface of the processed sleeve. Due to this design of the device, along with the impact on the processed sleeve of shock waves arising from a high-voltage electric discharge, the energy of the subsequent hydroflow is also used, which is generated by expanding the channel of the electric discharge and setting the surrounding fluid in motion. In the spiral channel, the kinetic energy of the hydroflow is converted into the potential energy of the pressure of the working medium. A spiral channel with correctly selected cross-sectional areas provides sufficient uniformity of the hydroflow and pressure along the circumference of the outer surface of the treated cylinder liner. Due to the fact that the discharge chamber is closed, the quasistatic pressure arising from the electric discharge in a limited volume of liquid will also act on the sleeve [3].

A discharge cavity is smoothly adjacent to the spiral channel, the outer wall of which is made in the form of a parabolic cylinder. In this case, the axis of the channel of the electric discharge passes through the focal line of the parabola. The presence of a reflector wall of this shape allows you to evenly distribute the pressure of the shock wave and hydraulic flow along the axis of the channel of the electric discharge, to establish the optimal interelectrode gap for the selected discharge mode.

The device operates as follows.

The cover 2 of the discharge chamber 1 is removed. A machined sleeve 5 is mounted on the guide mandrel 6, the sleeve being placed at the same level with the discharge gap of the electrodes. The discharge chamber is filled with a working fluid — technically pure water. Close the lid 2. High voltage electrical impulses are applied to the electrodes 4.

Due to the resulting high pressure and rapid expansion of the spark channel, a shock wave is formed. At the same time, the expanding discharge channel drives the surrounding fluid, creating the so-called retarded fluid flow (hydroflow), which contributes to the development of the gas cavity. The shock wave and subsequent hydraulic flow propagate inside the spiral channel, are reflected from the outer wall of the discharge chamber and exert a force on the outer surface of the cylinder, thereby compressing the cylinder liner in the radial direction. The liner is also influenced by the quasistatic pressure in the fluid that occurs inside the closed chamber. When crimping the sleeve, its inner diameter decreases. The processing time of the cylinder liner is determined empirically based on the properties of the material, the amount of wear and wall thickness of the liner. After completing the processing of the cylinder liner with electric discharges in the working fluid, disconnect the power to the electrodes, open the cover 2, remove and remove the processed liner from the mandrel. Next, the inner surface of the sleeve is machined to a nominal size.

This design of the device allows you to additionally use the energy of the gas bubble that occurs when the expansion channel of the electric discharge. In the proposed device with an electroshock on the cylinder liner being processed, along with the action of shock waves, the hydroflow and the quasistatic pressure of the liquid in a closed volume have a great effect. This allows you to increase the efficiency of the impact of electrohydraulic shock on the processed cylinder liner and thereby increase labor productivity.

The use of the inventive device contributes to the expansion of the range of sizes of the processed sleeves, to prevent changes in the geometry of the sleeves in the axial direction and allows to increase the processing efficiency due to the additional use of the effects of the hydroflow subsequent to the shock waves and the quasistatic pressure in the liquid arising in the enclosed volume.

The use of the proposed technical solution in the repair of internal combustion engines allows you to return to operation worn cylinder liners during operation, thereby contributing to the saving of materials and increase labor productivity.

Information sources

1. RF patent No. 2544223, IPC В23Р 6/02. Priority from 04/04/2015. Published 03/10/2015. Patent Description

2. Patent for utility model No. 157563, IPC В23Р 6/02. Priority from 04/23/2015. Published on December 10th, 2015. The utility model formula.

3. Equipment and processes using the electro-hydraulic effect. / Ed. G.A. Gulogo. M .: Engineering, 1977 .-- 320 p.

Claims (1)

An electro-hydraulic device for restoring the inner diameter of a worn cylinder liner of an internal combustion engine, comprising a closed water-tight sealed chamber with a discharge cavity with electrodes and a guide mandrel for installing a restored sleeve, characterized in that the sealed chamber and discharge cavity are made in the form of channels adjacent to each other with the formation of a single annular channel, the outer wall of which in the region of the said chamber is made in a spiral, and in the region of the discharge cavity - in the form of a parabolic cylinder, wherein the electric discharge channel axis passes through the line focus of the parabola of said cylinder, and the guide mandrel adapted to be fitted thereon recoverable sleeve to form the outer surface of the liner inside surface of said single annular channel.

Images