RU2690904C2 - Device for electrochemical treatment of gas turbine engine blades - Google Patents

Abstract

FIELD: technological processes.SUBSTANCE: invention relates to dimensional electrochemical treatment of metals. Device contains electrodes-tools with elements for their fastening, elements for fixing a workpiece of a blade, including a replaceable cassette for installing the workpiece with fixing its fastening elements and current lead. Device is provided with a cylindrical body, inside which there is a holder of the replaceable cassette, which is designed movable in a body along the vertical axis. Holder consists of cylindrical-shaped upper and lower plates rigidly connected to one another and provided with O-rings to move the holder within the body. Electrode-tools are located coaxially and perpendicular to the vertical axis, each electrode tool is made detachable. Cylindrical body, cassette holder and sealing caps of the electrode-tools form a sealed cavity with high pressure of electrolyte in the treatment zone and mutual mobility of the electrode-tools and cassette. On the body there are inlet and outlet collectors for electrolyte.EFFECT: invention ensures the tightness of the working chamber, as well as the quick change of the cassette and the dry current lead to the cassette outside the working chamber.1 cl, 5 dwg

Description

The invention relates to the field of dimensional electrochemical machining of metals and alloys and can be used for processing blades of a gas turbine engine (GTE).

It is well known that in order to improve processing performance, it is required that the electrolyte is pumped between the electrodes and the workpiece at high pressure. Accordingly, it is necessary to ensure the tightness of the chamber, which outside includes the electrodes and the workpiece holder.

A device for pulsed electrochemical machining of a blade of an aircraft gas turbine engine is known, which comprises a device for securing an anode billet mounted on a basic device, two tool cathodes mounted with an electrode gap relative to the anode billet into which electrolyte enters. The device contains two electrochemical copying machines, on which cathodes-tools are fixed with the help of a shank, and a robotic arm for installing a device for fixing the anode billet on each of the machines, while the fixing device of the anode billet is made in the form of a removable satellite device having elements for its basing, elements for fixing the anode billet and supplying current to it, and elements that allow the anode billet to be gripped and rotated 180 ° by the robotic arm, and the basic pr The installation is made in the form of two wedge-shaped mounting plates, installed in pairs on two electrochemical copying machines, respectively, to design the back of the blade on the first machine and the trough on the second machine, and on the surface of each mounting plate there are elements for automatically fixing the satellite , fixing the profile of the pen anode billet, input and output channels for pumping electrolyte, while the inner surface of the satellite device from the "back" and the internal The surface of the satellite device on the “trough” side of the blade and the corresponding external surfaces of the tool cathodes and anode blank are designed to provide laminar electrolyte flow at the inlet and outlet of the electrode gap and the tool cathode without cavitation. RU 2590743, IPC В23Н 9/10, published on July 10, 2016).

The disadvantage is the error of relocation arising from the processing of the back and the trough at different operations, as well as the inability to ensure reliable sealing of the treatment area.

A device for electrochemical machining of a blade with two shanks of a gas turbine engine is known, comprising a device for fixing removable electrode tools forming a convex and a concave side of the blade containing a base, and a device for fixing a blade blank consisting of a fixed part installed in a working chamber of the machine and the moving part in the form of a cassette, while in the fixed part there is a slot for supplying electrolyte, guides the slots for mounting the cassette, the fixing element (s), the fix cassette (s), and elements for installing the device in the working chamber of the machine, with the cassette case containing the upper, lower and side faces; at least one floating center and supporting sleeve are installed on the lower edge; at least one gland center, current lead, spring-loaded element with spherical pins, and the side faces contain electrolyte slots, the length of which corresponds to the length of the processed part of the blade blade profile, while perpendicularly between the side edges for the Replaceable plates are installed in this electrolyte flux distribution, in which through grooves are made, through which tool electrodes are supplied to the processed part of the pen blade profile, and the lower surface of the through grooves is shaped in accordance with the lower part of the tool electrodes (patent RU 2514236, IPC V23H 9 / 10, publ. 04/27/2014). Taken as a prototype.

The disadvantage of the known device is the current lead to the cassette is carried out inside the electrolyte chamber, while changing the cassette requires additional manipulations associated with opening / closing the chamber.

The objective of the invention is to increase the efficiency of electrochemical processing of GTE blades.

The technical result is to ensure the tightness of the working chamber of the machine with three movable axes, one of which is perpendicular to the other two, while simultaneously ensuring a quick change of the cartridge and the dry current lead to the cartridge outside the working chamber.

The task is solved, and the technical result is achieved by a device for electrochemical machining of blades of a gas turbine engine, containing electrodes-tools with elements for fastening them, elements for fastening the blade blank, including a replaceable cartridge for setting the workpiece with fixing fasteners and a current lead. Unlike the prototype, the device is provided with a cylindrical body, inside of which there is a removable cassette holder configured to move along the vertical axis in the case, while the cassette holder consists of upper and lower plates having a cylindrical shape, rigidly interconnected and provided with annular seals for moving holder inside the case, and in the top plate of the holder there is a window and basing elements for mounting the cassette, and on the top plate there is a clamp for pressing to she cassette through the terminal of the electrical power supply, and the cassette contains a plate with the elements of the base for installation on the top plate of the holder, the tool electrodes are located coaxially and perpendicular to the vertical axis, each electrode tool is made detachable, consisting of a mounting flange, a cylindrical part with a sealing cover for mounting to the body and the removable working part, while the cylindrical body, the cassette holder and the sealing covers of the tool electrodes form an airtight cavity ensuring high of the electrolyte pressure in the treatment zone and the mutual mobility of the electrode-tool and cassette, wherein on said housing disposed inlet and outlet manifolds to the electrolyte.

The technical result is achieved as follows.

The cylindrical housing, the cassette holder and the sealing covers of the instrument electrodes form an airtight cavity that provides high electrolyte pressure in the treatment area while maintaining the mutual mobility of the instrument electrodes and the cassette. High electrolyte pressure allows to achieve high performance and reliability of the process.

At the same time, the installation of the cassette on the holder simultaneously closes the window of the holder, and the clip on the top plate of the holder presses the terminal of the current lead directly to the cassette. Thus, at the same time, a dry current lead, basing of the cartridge and locking of the chamber are ensured, which can significantly reduce the time required to replace the cartridge. The use of two cassettes allows parallel processing and change of the workpiece.

The essence of the invention explain the drawings, which show the claimed device:

FIG. 1 is a vertical section of the device;

FIG. 2 - horizontal section of the device;

FIG. 3 - cassette holder;

FIG. 4 - cassette for installation of the workpiece;

FIG. 5 - electrode tool (without sealing cover).

The device contains (Fig. 1 - Fig. 5) a cylindrical body 1, fixedly mounted on a machine with three controlled axes X ₁ , X ₂ , Z, inside the case there is a holder 2 of a replaceable cartridge 3 for mounting the workpiece 4 mounted on the Z axis of the machine the ability to move in the housing along the specified axis, and the cassette holder consists of the top 5 and bottom 6 plates rigidly interconnected, having a cylindrical shape and provided with annular seals 7 for moving the holder inside the case, while in the top plate of the holder is made a window 8 and clamping elements 9 for mounting the cassette, as well as a clamp 10 on the top plate for pressing the cartridge to it through the terminal of the electrical power supply 11, and, in addition, the cassette has a plate 12 with base elements 13 for mounting on the top plate of the holder and electrodes -the tools 14 are arranged coaxially and perpendicular to the Z axis of the machine, with each electrode-tool made detachable, consisting of a mounting flange 15, a cylindrical part 16 with a sealing cover 17 for mounting to the body and a removable working part 18, while cylindrical The body, cassette holder, and sealing covers of the instrument electrodes form an airtight cavity with high electrolyte pressure and mutual mobility of the instrument electrodes and the cassette. .

The device works as follows.

The cylindrical body 1 is fixedly mounted on the machine. The holder 2 of the cassette 3 is mounted on the vertical axis Z of the machine.

The holder has two round ends with o-rings 7, which allow the holder to move inside the housing 1 like a piston in a cylinder. In the upper plate of the holder there is a window 8 and basing elements 9 for mounting the cassette.

The cassette 3 is designed to install the workpiece 4. Because of the need to mount a complex current lead and a system of protectors, the installation of the workpiece usually takes quite a long time. The use of a cassette makes it possible to do this in parallel with the operation of the machine (due to the use of replaceable cassettes), while the removal / installation of cassettes occurs quickly.

When installing the cassette 3 on the holder 2, it simultaneously closes the window 8, sealing the high-pressure chamber of the machine. Also, a clamp 10 is mounted on the top plate of the holder 2 for pressing the cartridge to it through the terminal of the electrical power supply terminal 11. Thus, one mechanism provides a current lead, the base of the cartridge and the locking of the camera.

Electrodes-tools 14 have a mounting flange 15, a cylindrical part 16 with a sealing cover 17 for attachment to the body and a removable working part. Before installing the electrodes on the machine, caps 17 are put on them. For this, the electrodes are made detachable (not shown in the diagram). After installing the electrodes 14 on the machine cover 17 is screwed to the housing 1, while they can no longer be removed. In order to install and remove the cassette 3, appropriate cavities are provided inside the device for the working part of the electrodes to exit from the cassette (not shown). FIG. 1 left electrode is inserted into the cassette, and the right one is inserted.

Electrodes-tools 14 are connected to the negative pole of the generator using the terminal of the electrical power supply 11. Electrodes must be isolated from the rest of the device, for this purpose insulating parts are provided.

The supply of electrolyte through the inlet ring collector 19. The system of insulating parts prevents the free flow of electrolyte, forcing it to pass into the interelectrode gap between the workpiece 4 and the electrodes 14. The spent electrolyte through the output ring collector 20 is discharged into the drain fitting.

The machine control system maintains the set pressure at two points:

- at the entrance to the inlet manifold - due to the control of engine speed of the working pump;

- at the outlet of the output collector - due to the control of a special tap on the drain fitting.

Thus, the application of the invention ensures the tightness of the working chamber of the machine with three movable axes, one of which is perpendicular to the other two, while simultaneously ensuring a quick change of the cassette and the dry current lead to the cassette outside the working chamber.

Claims (1)

A device for electrochemical machining of blades of a gas turbine engine, comprising electrodes-tools with elements for fastening them, elements for fastening a blade workpiece, including a replaceable cartridge for mounting the workpiece with fastening elements fixing it, and a current lead, characterized in that it is provided with a cylindrical body inside which is located removable cassette holder, made with the ability to move in the housing along a vertical axis, while the cassette holder consists of having a cylindrical form The upper and lower plates, rigidly interconnected and provided with annular seals to move the holder inside the case, a window and clamping elements for mounting the cassette are made in the upper plate of the holder, and there is a clip on the top plate for pressing the cassette to it through the electrical power supply terminal, and the cartridge contains a plate with the elements of the base for installation on the top plate of the holder, the electrodes-tools are located coaxially and perpendicular to the vertical axis, each electrode-tool has a connector a cylindrical part with a sealing cover for attachment to the body and a removable working part, the cylindrical body, the cassette holder and the sealing covers of the instrument electrodes form an airtight cavity ensuring high pressure of the electrolyte in the treatment area and mutual mobility of the electrodes tools and cassettes, and on the cylindrical housing are the input and output headers for the electrolyte.

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