DE1615234C - Device for adjusting the electrode advance and retraction in spark erosion equipment, taking into account the respective degree of electrode wear - Google Patents

Description

1 2

The invention relates to a device and, independently of the first stop arm, to a second stop arm which can be set independently of the first stop arm for setting the other larger predetermined electrode feed-electrode feed and the electrode retraction away, as well as a second stop arm attached to the second stop arm in spark erosion devices. through the supply of the respective electrode wear and tear and 5 second display arm actuatable first control using control switches with setting switch (SW 1) to initiate the electrode retractable stops for actuation in predetermined positions of the electrode and one at the starting point of the first antenna. pointing arm attached, actuated by this

In the case of EDM equipment, not only is the second control switch (, W 2) used to interrupt the

the workpiece, but also the electrode ab- io electrode retraction.

used. The degree of wear depends on both.

the material of the electrode as well as the material of the device according to the invention result from the

of the workpiece and various other subclaims.

Factors. Especially with deep machining. In a device according to the invention can operations, for example when cutting 15 over the pointer depending on the electrode material and work holes, it is necessary to have sufficient elec- trode material for any desired electrode movement to ensure electrode feed and wear the electrodes, taking into account the degree of wear balance. be put, and by the functional allotment

It is a device for the automatic grain interaction of the indicator and stop arms compensate the degree of electrode wear in such 20 automatically during each individual electrode electrical discharge machining known (German Pa feed and electrode retraction, i.e. during tentschrift 1180 863), which in addition to the actual each individual machining cycle, the electrode-electrode feed mechanism an additional wear and tear according to the set figure Compensatory feed mechanism provides, balance of use. So is behind which is ineffective with normal gap current and the electrode is only in takes effect in the adjudicating sense when several of the correct length are used to execute a new successive one Machining cycles, d. h., Meh- processing cycle available without this rere successive electrode feeds and the sequence of the individual machining cycles Electrode retracts have expired and the electrode must be interrupted. The mechanism for trode is shortened to a certain value. Then performing this compensation is very easy is mechanically and robustly and therefore insensitive to interference via one of the electrode feeders. the nism associated switch of the additional corn device according to the invention allows in addition to Compensation feed mechanism switched on, and automatic compensation at the same time the simple reading of the respective electrode takes place before another processing cycle can. In this known device, the status and also the optical monitoring of the So follows the wear compensation between correct operation of the spark erosion device, the actual processing cycles, and for what purpose there are previously separate electrical display devices unnecessary dead times in operation. When prayers or the like were necessary.

known device is also next to the actual target z. B. a workpiece with a thickness of 7.5 mm

40 additional holes can be made for the electrode feed motor and a degree of wear is set

Licher compensation feed motor is necessary and also 1: 1 ahead, so the first stop arm will open

the control arrangement is relatively complicated and disturbing a value of 7.5 mm set and the second

subsceptible. Stop arm to a value of 15 mm. Will

In the case of electrical discharge machines, there are also inputs to the electrode as a whole by the motor setting and reading devices for the electrode 45 shifted by 15 mm and thus comes the second feed known, in which the electrode feed display arm on the second stop arm to the plant, so movement into a rotary movement of pointers, the polarity of the motor drive and the electrodes are reversed Dial is depicted and, after withdrawal, is initiated. The length of this retreat running of the set distance a stop one way is now determined by the during feed Switch operated (German Auslegeschrift 1192 344). 50 first indicator arm fixed at 7.5 mm, because A compensation of the electrode wear is already achieved after pushing back the this known device is not provided. 7.5 mm back into its original

It is the object of the invention to have a setting in the structure and thus cause the motor to come to a standstill. multiple device for automatic compensation In this way, taking into account each the electrode wear level with spark erosion 55 any degree of wear the correct electrode devices to create that simply on an imagination for the next machining process again certain degree of wear can be set.

and this compensation without interrupting the

Operation during the normal machining cycles of matic drawings on an execution

enables. 60 example explained in more detail.

This task is based on a device F i g. 1 shows in perspective the application of a

device of the type mentioned according to the invention in a conventional device according to the invention

solved by an electrode feed device from spark erosion that is flexibly driven by the motor

a first display arm and a device associated therewith;

neten, to a predetermined electrode advance 65 F i g. 2 shows the device according to the invention in

away adjustable first stop arm, as well as a view of the arrow A of Fig. 1;

also flexibly driven by the engine F i g. 3 shows a partial cross-section of the device

second display arm and one associated therewith according to FIG. 1;

F i g. Figure 4 shows a partial section along the line 4-4 in Figure 3;

F i g. 5 shows a block diagram on the basis of which the method of operation of the device according to the invention is explained.

At the upper end of the column 10, which is attached to a bottom plate, not shown, is a vertical one Spool holder plate 12 fastened with the aid of a clamp 14 and a retaining bolt 15. The spool holder plate 12 can be displaced both vertically and radially on the column 10. On this bobbin holder plate 12 is a spool 16 is rotatably mounted and carries a wire electrode 18 which can be pulled downward. At the Column 10, a housing 20 is also provided with a drive motor 22 for moving the electrode.

The downwardly led electrode 18 is passed through the apertured plate 19 and the idler rollers 24, 26, 28. The opening of the plate 19 has according to FIG. 3 a carboloy insert 19 a. The pressure exerted against the electrode 18 by the roller 26 can be changed laterally with the aid of a screw 30. An indicator plate 34 is attached to the front end of the housing 20. A lower guide tube assembly 36 extends downwardly and includes an insulating tube 38, a nut 40 and a retaining sleeve 42. The lower end of the electrode 18 extends under the nut 40. The negative terminal of the electrical power source is normally through the nut 40 to the electrode 18 connected.

Two display arms 44, 46 are mounted on the drive shaft 48. Slidable upper stop members 50 and 51 are provided for arms 44 and 46, respectively. Furthermore, a stop switch SW 2 is provided on the plate 34, the actuating part of which can interact with the right edge of the arm 46 in its vertical position in engagement. A first stop or limit arm 56 is rotatably mounted on plate 34 about shaft 48. The limiter arm 56 carries a laterally extending tab 58 which can engage the arm 46 to halt its leftward movement. A second stop arm 60 is similarly attached and rotatable about shaft 48 on plate 34. The arm 60 carries a lower stop part 52 in the form of a set screw for the movement of the arm 44. A motor reversing switch SW1 is also attached to the stop arm 60, the actuating part of which can interact with the left edge of the arm 44. The lowest position of the arm 44 is shown in dash-dotted lines in FIG. 2 shown. It can also be seen that the arm 44 has a downwardly extending arm 62 which forms a crank lever rotatable about the shaft 48. The arm 62 is connected to the piston 67 of the solenoid 65 by a link 68. By means of this solenoid 65, which responds to the actuation of the switch SW 2 via the connecting member 68, the arm 44 can be rotated to the right and into its upper right position against the stop 50; the electrode 18 is moved downward by the knurled drive roller 61 attached to the drive shaft 48 of the motor 22.

Between the motor 22 and the shaft 48 carrying the display arms 44 and 46 there is a backlash-free linkage 64 provided. The shaft 48 extends through the plate 34 and is inserted in a bearing 66. The arms 44 and 46 are in resilient frictional engagement on the outer portion of the shaft 48 attached both to the shaft and to each other for the purpose of drive. There are several for this purpose resilient sealing rings 69 between a retaining cap 70, a retaining clip 72 and an adjustable Push button 74 is provided. Two sealing rings 76, 78 made of friction material are between

ίο the arms 44, 46 and their holding devices used. The sleeve 80 is secured to the shaft 48 as shown. F i g. 3 also shows the lower part of one Holder 41 to which the sleeve 42 is attached, around the tube 38 and extending through the tube To hold electrode 18.

Fig. 4 shows further details of the drive device for the electrode 18. The knurled drive roller 61 is mounted on the shaft 48 and is driven by the motor 22. A pressure roller 84 is carried by a rotatable arm 86. This arm can be adjusted so that it presses against the electrode 18 when it is between the roller 84 and the drive roller 61 passes through. The setting is made using a knurled knob 88. Open the upper knurled roller 26 acts a compression spring 82. The adjusting screw 32 moves the roller 26 in the direction the electrode 18 and the roller 24, 28 pressed. The roller 26 is rotatable on an adjustable Block 27 attached. The block 27 is laterally displaceable by the screw 30.

F i g. 5 is a schematic illustration of the electrical control system that works in conjunction with the electrode removal compensation device according to the invention is used. The supply voltage source 89 of the spark erosion device, e.g. B. a well-known pulse generator that is connected to the conductive Workpiece 90 and the electrode 18 is connected, and the control circuit 101 for determining the Gap voltages by which the motor 22 is controlled in a known manner are only schematic indicated. The arrangement is made in a known manner so that there is always an optimal gap width between the electrode and the workpiece is maintained during the material removal. The from the control voltage supplied to the control circuit 101 becomes the left terminal of the motor armature 98 supplied.

A DC reference voltage source 100 can be connected to the right terminal of the armature 98 will. The direction of current flow through armature 98 determines whether the electrode is after is advanced downwards or withdrawn upwards.

The switch SW 1 is actuated by the indicator arm 44 in its lowest position and is used to actuate the control relay 1 CR, which reverses the armature 98 through its movable contacts 1 CRa and 1 CRb and thus reverses the direction of rotation of the motor 22 to retract the To effect electrode from the workpiece.

When the relay 1 CR is actuated, the capacitor 94 is charged through the resistor 93 and the diode 95. The switch SW 2 is actuated by the return of the arm 46 to its upper right position. The switch SW2 has the task of disconnecting the control circuit 101 from the armature 98 upon completion of the work process and of stopping the drive motor 22 from running. That will go through

Actuation of relay 2 CR achieved to open switch SW 3 , which was previously closed by hand.

The switch SW 2 has the additional function of actuating the solenoid 65 in order to cause the arm 44 to move backwards upon completion of the work process. This is accomplished by contacts 2 CRa and 2CRb which allow the capacitor 94 to be discharged through the solenoid 65 control coil.

A suitable AC power source 97 is for the relays ICi? and 2Ci? intended.

The process is as follows. At the beginning, the power source 89 is connected to the electrode 18 and the workpiece 90 and work pulses are supplied to the work gap. The switch SW 3 is closed by hand in order to trigger the start of the work process. The switch SW 2 is in its normal, ie open position. A split voltage signal is applied to the left terminal of armature 98. A reference voltage signal is applied to the right connection terminal of the armature 98 with a polarity such that a current flows in a direction which triggers the start of the downward movement of the electrode 18.

If the working gap is just short-circuited, the control circuit grants to known ones Move the electrode backwards temporarily to remove the short circuit.

The drive for the downward movement of the electrode is provided by the drive roller 61 on the shaft 48 of the motor 22 is attached, causes. The limiter arm 56 is adjusted to stop the movement of the arm 46 is determined. This setting is made according to the desired working depth. If a through hole is to be cut, the number scale shows how thick it is Workpiece 90 including an allowable margin.

The limiting arm 56 is z. B. set to an electrode movement of 7.5 mm. For a removal ratio of 1: 1, the limiting arm 60 must then be set to 15 mm. When the electrodes are lowered, the indicator arms 44 and 46 move simultaneously. The indicator arm 46 is rotated downward until it is stopped by the lug 58 on the limiter arm 56. The display arm 44 moves on until it rests against the stop 52 of the limiting arm 60 and actuates the switch SW1 located thereon. When switch SWl closes it actuates the relay ICi ?, which reverses the polarity of the armature 98 through the contacts 1 CRa and ICRb. This switches the motor to reverse and moves the electrode away from the workpiece. When the shaft 48 changes direction of rotation, the indicator arms 44 and 46 are raised to their normal vertical position. Since the display arm 46 has to cover a shorter distance, it first reaches its starting position and closes the switch SW 2.

By closing the switch SW 2 , the relay 2 CR is actuated and the previously closed switch 5TF 3 is opened, whereby the connection between the control circuit 101 and armature 98 is interrupted and the motor 22 is stopped. At the same time the normally open contact 2 CR b is closed and the contact 2 CRa is opened. This causes the capacitor 94 to be discharged through the control coil of the solenoid 65. This actuates the solenoid 65 and brings the display arm 44 into the normal position, whereby a further operation can be prepared using the switch SW 3.

Claims (3)

Patent claims: 1. Device for adjusting the electrode advance and retraction by a motor in spark erosion equipment, taking into account the respective degree of electrode wear and using control switches with adjustable stops for actuation in predetermined positions of the electrode, characterized by a first display arm that is flexibly driven by the motor (22) (46) and a first stop arm (56) assigned to it, adjustable to a predetermined electrode feed path, as well as a second display arm (44), which is also resiliently driven by the motor (22), and a second display arm (44) assigned to this and independent of the first stop arm (56) on another larger one A second stop arm (60) which can be adjusted to a predetermined electrode advance path, as well as a first control switch (SW1), which is attached to the second stop arm (60) and can be actuated by the second display arm (44), for initiating the electrode retraction and one on attached to the output point of the first display arm (46), operated by this second control switch (SW 2) to interrupt the electrode retraction. 2. Apparatus according to claim 1, characterized by one with the second display arm (44) cooperating electromagnet (65) which is controllable by the second control switch (SW 2) in such a way that after the interruption of the electrode retraction, the second display arm (44) through this Electromagnet (65) is rotated back into the starting position. 3. Apparatus according to claim 1 or 2, characterized in that the stop and Display arms are mounted on a plate (34) such that they can pivot about a common axis (48), which is provided with a scale indicating the electrode path. 1 sheet of drawings