JPS614627A - Electric machining device - Google Patents

Abstract

PURPOSE:To prevent a device from generating a leak-out or the lie of machining fluid before its occurrence, by constituting the device such that operation of the main unit of a machine is stopped by providing a machining fluid detecting sensor in a pad and generating an alarm on the basis of an output signal from this sensor, in the case of the electric machining device. CONSTITUTION:An electric machining device, being prepared for an unexpected accident of machining fluid 11 in its overflow trouble or the like from a machining tank 6 due to excessive supply of the machining fluid, is constituted such that the main unit 1 of a machine, providing in the bottom of its machining bed 2 a pad 19 while receiving the machining fluid 11 leaking or overflowing from the tank 6 to be contained in this pad 19 and promptly detecting the machining fluid accumulated in the pad 19 by a machining fluid detecting sensor 20, actuates on the basis of its output signal an alarm device 22 to generate an alarm sound and the other alarm or stops machining as necessary by feeding a signal to a spoer supply device 12 and a machining fluid control device 18 or the like. In this way, generation of an accident of the machining fluid due to its leak and/or overflow can be prevented before occurrence.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to electrical processing equipment, and in particular, when machining fluid is used for machining, leakage or overflow of the machining fluid can be detected at an early stage to prevent unexpected disasters, etc. The present invention relates to an electrical processing device configured to prevent such problems from occurring.

[Prior art and its problems]

In recent years, various electrical machining devices such as electrical discharge machining devices and electrolytic machining devices have become widespread, and with the development of automatic control equipment, it has become possible to operate these electrical machining devices unattended for long periods of time.

Therefore, in the above-mentioned electrical processing equipment, generally,
Machining is performed by placing the workpiece and the tool electrode facing each other and applying a voltage such as a voltage pulse between them. When performing the above machining, the workpiece is immersed in a machining liquid filled in a machining tank, or Machining is performed while constantly supplying machining liquid to the machining area.

As the machining fluid, kerosene, pure water, water with some chemical substances added, etc. are used in the case of electric discharge machining equipment, and various electrolytes are used in the case of electrolytic machining equipment.

As the above-mentioned machining fluid becomes contaminated during processing, and its concentration and temperature also need to be maintained at an appropriate level, the machining fluid in the machining tank must be collected and purified as appropriate. In some cases, the liquid may be adjusted in concentration and other liquid properties before being fed into the processing tank again. For this reason, a float swing or other liquid level detector is installed inside the processing tank to control the amount of liquid in the tank to be maintained at a constant level at all times, and the tank itself is also equipped with an overflow pipe to prevent excess The machining fluid supplied to the machining tank is designed to be naturally discharged from the tank, thereby preventing the machining fluid from overflowing from the machining tank.

However, during positioning and machining, when the machining tank is moved by numerical control, etc., the machining fluid in the machining tank may ripple and spill out of the machining tank. Otherwise, the seal on the processing tank may not be perfect and the processing fluid may leak out in small quantities.In such cases, if the processing fluid is flammable such as kerosene, a fire may occur. In addition, if water or electrolyte is present, it will cause corrosion of various parts of the machine (and it will be difficult to continue normal processing, so to prevent these unexpected accidents, Conventional float swings and other safety devices alone were not always sufficient.

[Object of the present invention]

The present invention has been developed to solve the above-mentioned problems, and its purpose is to detect leakage or overflow of machining fluid from a machining tank as early as possible, thereby preventing accidents such as those mentioned above. It is an object of the present invention to provide an electrical processing device that prevents the occurrence of the above-mentioned problems, and thereby enables unmanned processing for a long period of time.

Means for Solving Problem c] Therefore, the above object is to provide a vat below the machining head of the machining machine body to receive the machining fluid leaking or overflowing from the machining tank, and to install a vat in the vat. This can be achieved by providing a machining fluid detection sensor and configuring the system to issue an alarm and/or stop the operation of the machining machine body based on the output signal of the sensor.

The above bat may be placed on the entire bottom surface of the processing machine body,
Alternatively, the gutter member may be laid or attached to the lower part of the support leg of the processing machine main body, which is the final end of the flow path of the processing fluid in the case of may be attached so that the machining liquid collected by the gutter member is received by the pad.

[For production]

If configured as above, the machining fluid leaking or overflowing from the machining tank will flow into the vat, and the machining fluid accumulated in the vat will be detected by the machining fluid detection sensor, and an alarm will be issued by the output signal. Since the processing is stopped or the processing is stopped, the risk of fire, contamination and corrosion of the processing machine body are minimized, and long-term unmanned processing is possible.

[Embodiments] Hereinafter, the structure of the present invention will be explained in detail with reference to embodiments shown in the drawings.

FIG. 1 is an explanatory diagram showing one embodiment of the electrical processing device according to the present invention, and FIGS. 2 to 4 are explanatory diagrams showing main parts of different embodiments of the electrical processing device according to the present invention. .

In each figure, the same reference numerals indicate components having the same or equivalent effects.

In Fig. 1, 1 is the main body of the electric discharge machining device, and 2 is
is its processing head, 3 and 3 are its supporting legs, 4 is a Y-axis moving table provided on the processing note 2, 5 is an X-axis moving table, and 6 is attached on the X-axis moving table 5. 7 is a column, 8 is a machining outlet, 9 is an electrode attached to the machining outlet 8, 10 is a workpiece attached to the machining tank, 11 is a machining liquid filled in the machining tank, 12 is a machining power supply device that applies voltage pulses between the electrode 9 and the workpiece 10; 13 is a storage tank for storing machining liquid to be supplied into the machining tank; 14 is a pump; 15 is a solenoid valve; 16 is a filter. , 17 are the temperature and concentration of the machining fluid in the service tank 13,
A machining fluid adjustment device that manages and automatically adjusts the liquid quality, etc.; 18 is a machining fluid control device that controls the supply and discharge of machining fluid from the service tank 13 into the machining tank or the operation of the machining fluid adjustment device 17; 19 is a vat installed at the bottom of the processing vat 2 of the processing machine main body, 20 is a machining fluid detection sensor installed in the vat, 21 is an amplifier, and 22 is an alarm device that operates based on a signal from the amplifier 21. .

The electrical discharge machine main body 1 itself is a known electrical discharge machine, in which a workpiece 10 and an electrode 9 are opposed to each other with a predetermined machining gap maintained in a machining tank filled with machining fluid 11, and a machining material is placed between them. By applying a voltage pulse from the power supply device 12, a discharge is generated within the machining gap, and the discharge erosion etch a machining shape corresponding to the shape of the electrode 9 on the workpiece, and the machining process described in 7. During the period, the machining fluid 11 is supplied from the service tank 13 through the pump 14 and the solenoid valve 15 into the machining tank, and the machining fluid contaminated with machining debris or altered by electric discharge is supplied to the service tank 13 through the filter 16 etc. The machining fluid is collected by the machining fluid adjusting device 17 and subjected to concentration adjustment and other liquid quality control, so that the machining fluid in the machining tank always maintains a constant liquid quality. Note that the electrode 9 and the workpiece 10 are facing each other.
New machining fluid is constantly sprayed into the minute machining gap that is formed through a machining fluid jetting nozzle (not shown in the figure) or a machining fluid jetting hole formed in the electrode 9 itself, thereby preventing contamination with machining debris, etc. The machining tank is configured to remove the machining fluid from the machining gap and constantly replace it with clean machining fluid, and the machining tank is equipped with a liquid level detector, as described above.
A liquid temperature detector and the like (not shown in the figure) are provided, and their output data is led to a machining liquid control device 18, and the supply of machining liquid, etc. is controlled based on this.

Accidents of overflow of machining fluid from the machining tank due to excessive supply of machining fluid, etc., can be prevented to some extent by the liquid level detector and overflow pipe in the machining tank; One side of the processing tank is equipped with a door that can be opened and closed to make it easier to attach and remove workpieces, and water leakage caused by poor sealing cannot be prevented by using the liquid level detector or overflow pipe mentioned above. Furthermore, although it is extremely rare in terms of probability, there are cases where the liquid level detector or machining fluid control device 18 fails or the overflow pipe stops functioning (furthermore,
The amount of machining fluid supplied needs to be changed depending on the machining shape and other machining conditions, and it is not impossible for machining fluid to overflow from the machining tank due to programming errors. .

In the present invention, in preparation for such an unexpected accident, a vat 19 is provided at the lower part of the machining heel 2 of the machining machine main body 1, and the machining fluid leaked or overflowing from the machining tank is received in the vat, and the vat is The machining fluid accumulated in the interior is quickly detected by the machining fluid detection sensor 20, and based on the output signal, the alarm device 22 is activated to issue an alarm or other alarm, or if necessary, the power supply device 12 or machining It is configured to send a signal to the liquid control device 18 or the like to stop processing.

In the embodiment shown in FIG. 1, the vat 19 is sufficiently wide across the entire bottom surface of the machining vat 2 to accommodate any leakage or overflow of machining fluid from any position in the machining tank. The area is laid out. As the machining fluid detection sensor 20, various known sensors such as capacitance type and electric resistance type can be used depending on the properties of the machining fluid, and a plurality of sensors may be installed at appropriate locations in the vat. is also possible.

The amplifier 21 amplifies the output of the sensor 20 and the alarm device 2
2 into a predetermined control signal for operating.

The alarm device 22 may include not only an emergency emergency alarm or other audible alarm, but also a visual means such as flashing emergency lamps.

Therefore, the shape of the butt that receives the machining fluid and its 8'J
Many variations of the j-1 method are possible.

In other words, the machining fluid leaked or overflowed from the machining tank.
It flows down along the outer walls of the processing tank, the X-axis moving table 5, the Y-axis moving table 4, and the processing head 2.
In the case of
, 3, respectively, and machining fluid detection sensors 20, 20 may be installed in each hole. Alternatively, the embodiment shown in FIG. 3 may be used. As shown, butts 24.
24, and a machining fluid detection sensor may be installed therein.

In the embodiment shown in FIG. 4, a gutter member 26 is attached so as to go around the outer circumference of the machining head 2, and the machining liquid flowing down the outer wall of the machining bed is collected by this gutter member, and the machining liquid is collected from the outlet 26'. The machining fluid flowing out from the bunt 25 is received by a bunt 25 and detected by a machining fluid detection sensor 20 provided inside the bunt 25. If the gutter member 26 is attached to the machining head so that the outlet 26' is at its lowest point, all the machining fluid flowing down at any position on the entire outer wall of the machining head can be quickly collected in the vat 25. Because it is done,
Detection time becomes earlier, and prompt response becomes possible.

〔Effect of the invention〕

Since the present invention is configured as described above, according to the present invention, the machining fluid leaked or overflowing from the machining tank is received by the vat, and the machining fluid accumulated in the vat is collected by the machining fluid installed in the vat. detected by the detection sensor,
Since the output signal issues an alarm or stops the machining, leakage or overflow of machining fluid from the machining tank can be detected extremely quickly, and malfunctions of various control devices such as liquid level detectors installed in the machining tank can be detected. Even if an unforeseen accident occurs, the risk of fire, contamination and corrosion of the processing machine body can be minimized, and unmanned processing can be performed in a relatively short period of time.

It should be noted that the configuration of the present invention is not limited to the above-mentioned embodiments, and for example, the shape of the eight saws 1-, its installation location, etc. can be freely changed within the scope of the purpose of the present invention. Furthermore, the present invention is applicable not only to electrical discharge machining equipment using die-sinking electrodes as shown in FIG. This invention can be applied to all electrical processing devices that use liquid, and the present invention encompasses all of them.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram showing one embodiment of the electrical processing device according to the present invention, and FIGS. 2 to 4 are explanatory diagrams showing main parts of different embodiments of the electrical processing device according to the present invention. .

Claims (1)

[Claims] 1) In an electric machining device that performs machining using a machining fluid,
A vat is provided at the bottom of the machining bed of the processing machine main body to receive the machining liquid leaking or overflowing from the machining tank, and a machining liquid detection sensor is provided in the vat, and an alarm is issued based on the output signal of the sensor. The above-mentioned electric processing device is characterized in that it is configured to stop the operation of the processing machine main body. 2) The electric processing device according to claim 1, wherein the bat is installed on the entire lower surface of the processing machine main body. 3) The electric processing device according to claim 1, wherein the butt is laid or attached to the lower part of the support leg of the processing machine main body. 4) The electric processing apparatus according to claim 1, wherein the bat is configured to receive processing liquid collected by a gutter member attached to surround the outer periphery of the processing bed. 5) The electric machining device according to any one of claims 1 to 4, wherein the electric machining device is an electrical discharge machining device. 6) The electrical machining device according to any one of claims 1 to 4, wherein the electrical machining device is a wire-cut electrical discharge machining device. 7) The electrical processing device according to any one of claims 1 to 4, wherein the electrical processing device is an electrolytic processing device.