KR100211265B1 - A fire extinguishing method and device for an electric discharge machine - Google Patents

Abstract

The present invention relates to a method and apparatus for extinguishing an initial fire when a processing liquid ignites due to arc discharge generated during processing in an electric discharge machine. Conventionally, after extinguishing by adopting a method of extinguishing a fire immediately. In order to solve the problem of contamination or damage caused by the extinguishing fluid of the discharge processing machine and it takes a long time to wash and maintain the return to the normal state, the operation rate of the discharge processing machine is lowered. And thirdly, by providing a method and apparatus for extinguishing the fire extinguisher to allow fire extinguishing by a general fire extinguisher, thereby minimizing the frequency of using a fire extinguisher during the initial fire, and thus preventing damage to the discharge processing machine. In addition, it is possible to improve the operation rate by It can be effectively used for vaporization and rehabilitation.

Description

Early Fire Extinguishing Method and Apparatus of EDM

1 is a cross-sectional view showing a conventional electric discharge machine fire protection device.

2 is a cross-sectional view showing a fire protection device of the present invention.

3 is a schematic diagram illustrating the method of the present invention.

Figure 4 is a schematic diagram showing various embodiments of the fire extinguishing equipment applied to the present invention.

* Explanation of symbols for main parts of the drawings

24, 25, 25: injection nozzle 26: control unit

27: main power cutoff mechanism 28: alarm mechanism

29: primary extinguishing mechanism 30: secondary extinguishing mechanism

31: tertiary extinguishing mechanism 32, 33, 34: control valve

S: Sensor

The present invention automatically detects the heat or light of the flame generated by the arc discharge in the discharge processing machine for processing the flame discharge while scanning the processing liquid to the processing site automatically shuts off the power supply, and operates the fire extinguisher primarily The present invention relates to a method and an apparatus for extinguishing an initializing material of an electric discharge machine, which is capable of extinguishing the initializing material step by step by compressed air and secondly by extinguishing gas or thirdly by a general fire extinguisher.

Generally, as shown in FIG. 1, the electric discharge machining machine places the workpiece 1 on the surface plate 3 in the machining tank 2, and the spindle 5 freely moves up and down with the workpiece 1 and the workpiece. The electrode 6 is mounted to have a predetermined interval, and the support 7 on the surface plate 3 is sprayed with the injection nozzle 8 in a freely mounted direction so as to spray the processing liquid to the processing site while being connected to the feeding pipe 9. On the other hand, the power supply device 10 for applying a voltage of a predetermined frequency is connected to the electrode 6 and the workpiece 1, respectively.

In the case of processing by the electric discharge machine, when the processing liquid is not supplied smoothly by the spray nozzle 8 or the supply direction is shifted, the processing liquid cannot be smoothly supplied to the processing part. Fire often occurs due to the generation of ignition due to arc discharge on the machined surface 11.

In this case, conventionally, as shown in FIG. 1, a simple fire prevention detector 12 is installed near the working surface 11 of the workpiece 1 so as to easily detect ignition caused by arc discharge. Since the detector 12 detects that the ignition is fired and shuts off the power supply device and operates a general fire extinguisher, the fire is extinguished, which causes contamination or damage inside the discharge processing machine by the extinguishing agent of the fire extinguisher. In addition, since it takes a long time to wash the pharmaceutical contaminants and return to the normal state, there was a problem that causes a huge obstacle in the use of the discharge processing machine.

The present invention was created to fundamentally solve the above-mentioned problems of the prior art, and has the following objectives.

The present invention is to detect the ignition early from the flame discharge to arc discharge to cut off the main power of the power supply device and at the same time to the initial evolution by the compressed air to prevent contamination and damage due to the extinguishing agent in the discharge processing machine The objective is to prevent and resume operation in a short time.

In addition, the present invention is to enable the initial evolution by the extinguishing gas in the second case when the initial evolution by the compressed air is not performed primarily, and the third chemical to the third chemical It is the purpose of the fire extinguisher to operate more effectively by the normal fire extinguisher is to enable a complete extinguishing.

In order to achieve the above object of the present invention, the step of detecting by the detection sensor in the event of ignition due to arc discharge from the processing surface of the workpiece during discharge processing, and the main power is cut off by detecting the ignition by the sensor The first evolutionary stage in which compressed air is injected into the ignition site by the extinguishing mechanism, and the extinguishing pressure gas (e.g. CO ₂ ) The extinguishing method by the third extinguishing step in which the chemical extinguishing fluid of the extinguisher is injected into the ignition site by the third extinguishing mechanism if the extinguishing is not performed by the second extinguishing step and the second extinguishing step, and the discharge processing Fire extinguishing means by detecting means to detect ignition caused by arc discharge at processing part, blocking means to cut off main power, rapid injection of compressed air A primary evolution means, the alarm means adapted to, if necessary, compressed gas (e.g. CO _{2) 2} car evolution means, conventional fire by the extinguishing liquid jet of extinguisher to fight fire by feeding jet for group A fire extinguishing device comprising a third extinguishing means for extinguishing and a control means for controlling operations of the blocking means and the first, second, and third extinguishing means.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

That is, as shown in FIG. 2, the workpiece 1 is located on the surface plate 3 in the processing tank 2, the main shaft 5 is equipped with the electrode 6, and the support 7 In a conventional electric discharge machine in which an injection nozzle (3) for injecting a processing liquid into a machining part is provided, and a power supply device (10) is provided in the electrode (6) and the workpiece (1), the surface plate (3) On one side, a separate support 23 is installed by an attachment method such as a magnet stand, a supply pipe line 21 for supplying compressed air, a supply pipe line 22-1 for supplying extinguishing gas, and a general fire extinguisher. Each of the supply pipelines 22 for supplying the extinguishing fluid has on / off control valves 32, 33, 34 and injection nozzles 24, 25, 35 installed on the support 23, respectively. It is connected to the first, second, third extinguishing mechanisms (29), (30), (31), and the detection sensor (S) is the injection nozzle (24), (25), (35) or the processing liquid injection nozzle ( 8) at any one of It made by installing a position adjacent to the co-planar (11).

In addition, as shown in FIG. 3, the detection sensor S, the main power cutoff mechanism 27, the information mechanism 28, the primary extinguishing mechanism 29, the secondary extinguishing mechanism 30, and the tertiary extinguishing mechanism ( 31 are each connected to a control unit 26.

In addition, the primary fire extinguishing mechanism 29, 30 is shown in Figure 4, the primary fire extinguishing mechanism 29 is a compressor 36, a compressed air storage tank 37, a control valve ( 32) and compressed air supply from the compressor 36 directly to the control valve 32 and the injection nozzle 24 without the compressed air supply pipeline 21 or compressed air storage tank 37 to the injection nozzle (24) The secondary fire extinguishing mechanism 30 may be configured as a pipeline 21 ', and the gas supply pipe may be provided from the fire extinguishing gas supply line to the control valve 33 and the injection nozzle 25 without the storage tank 38. It may also consist of a line 22 '.

Thus, the compressed air supply pipe line 21, the injection nozzle 24, the digestion gas supply pipe line 22-1, the injection nozzle 25, and the extinguishing liquid supply pipe line 22 and the injection nozzle 35 as described above. As shown in FIG. 2, it is not limited to one side of the processing tank 2 and the support 23, and you may select separately and install a position suitably as needed.

Next will be described with respect to the action and effects according to the present invention as described above.

Referring to FIG. 2 to FIG. 4, the operation relation is not smoothly supplied to the processing liquid by the injection nozzle 8 during the processing of the electric discharge machine, or the supply direction is shifted. In case of failure, if a fire occurs due to the generation of ignition due to arc discharge on the processing surface 11 of the workpiece 1, the sensor S detects the light or heat caused by the fire to the control unit 26. At the same time, a signal is transmitted from the control unit 26 to the main power cutoff mechanism 27 so that the power of the power supply device 10 is cut off. 29), 30, and 31 do not operate.

In spite of the power cutoff by the main power shutoff mechanism 27 as described above, when ignition is continuously detected by the detection sensor S, a signal is first transmitted from the control unit 26 to the primary fire extinguishing mechanism 29 to control the valve 32. The compressed air is injected toward the ignited flame on the processing surface 11 through the compressed air supply pipe line 21 and the injection nozzle 24, and the extinguishing operation is performed. When the evolution is detected by the detection sensor (S) in this manner, the control valve 32 is closed and the injection operation of the compressed air is also stopped.

When the extinguishing is not performed by the primary fire extinguishing mechanism 29 as described above, the sensor S continues to detect the flame that is printed and the signal is transmitted from the control unit 26 to the secondary fire extinguishing mechanism 30 to be controlled. As the valve 33 is opened, the extinguishing gas is injected toward the ignited flame through the gas supply pipeline 22-1 and the injection nozzle 25 to perform the secondary extinguishing operation.

When the evolution is detected by the sensor (S) in this operation, the control valve 33 is closed and the injection operation of the compressed gas is automatically stopped.

At this time, the role of the compressed gas in the extinguishing by the injection of the compressed gas takes the surrounding heat from the flame in a flash and achieves the evolution along with the prevention of the spread of the flame.

As described above, when the extinguishing by the secondary extinguishing mechanism 30 is not performed, the sensor S continues to detect the flame that is printed. In this case, the operation signal is transmitted from the control unit 26 to the tertiary extinguishing mechanism 31. As it is delivered to the control valve 34 is opened through the injection nozzle 35, a conventional chemical fire extinguishing liquid is injected to complete the evolution.

The operation of the first, second, and third extinguishing mechanisms 29, 30, and 31 is performed within a few seconds. The operation of the first, second, and third extinguishing mechanisms 29, 30, and 31 is performed. The order and operation parallax may be input to the control unit 26 in advance, and the operation may be performed. The operations of the first, second, and third extinguishing mechanisms 29, 30, and 31 may be performed independently.

At this time, if the information mechanism 28 is installed as necessary, if the ignition caused by arc discharge on the processing surface 11 of the workpiece 1 by the sensor (S) is detected by the sensor (S) The detection signal is transmitted to the control unit 26 and the operation signal is transmitted from the control unit 26 to the alarm mechanism 28, whereby the alarm mechanism 28 can be operated to issue an alarm signal.

As described in detail above, in the present invention, when ignition occurs due to arc discharge from the processing surface of the workpiece to be processed by the electric discharge machine, it is detected by a sensor to cut off the main power supply, the primary fire extinguishing operation by the primary extinguishing mechanism, If the evolution is not performed even by the primary evolutionary operation, the second evolutionary operation is performed by the secondary evolutionary mechanism. Fire is completely extinguished at the initial stage to maximize stability, and the first and second extinguishing operations allow for the initial evolution by compressed air and extinguishing gas, thus preventing contamination and damage due to extinguishing agents in the discharge processing machine and providing a fast time. It is to provide the effect of restarting the operation within.

Claims (2)

In the fire extinguishing method, when fire occurs due to arc discharge from the processed surface of the workpiece, it is detected by the fire detection sensor and extinguished by operation of the fire extinguishing device with the main power cut off. The first evolutionary step of injecting compressed air to the ignition site by the primary extinguishing mechanism, and the second extinguishing pressure gas is injected to the ignition site by the secondary extinguishing mechanism if the extinguishing is not performed by the first extinguishing mechanism. If the evolution is not carried out by the extinguishing stage and the secondary evolution stage, the discharge is characterized in that it evolves into a series of processes by the third evolution stage in which the chemical digestion fluid of the extinguisher is injected into the ignition site by the tertiary extinguishing mechanism. Evolving method of initializing material of processing machine. The surface plate 3 in the processing tank 2 in which the workpiece 1 is to be installed, the main shaft 5 in which the electrode 6 is mounted, the injection nozzle 3 injecting the processing liquid into the processing portion, and Fire generated by arc discharge from the processing surface is detected by the power supply device 10 that supplies current to the electrode 6 and the workpiece 1 and the detection sensor S that detects the fire occurring in the processing part. In the apparatus for extinguishing, a separate support 23 is provided on one side of the surface plate 3, and the support 23 has opening / closing control valves 32, 33, 34 and injection nozzles 24. 1, 2, 3rd extinguishing mechanism (29), (30), (31) having (3), (25), (35) and supply pipeline 21 for supplying compressed air and extinguishing gas, respectively. The supply pipe line 22-1 and the supply pipe line 22 for supplying a normal fire extinguisher extinguishing liquid are connected and installed, and the detection sensor S, the main power cutoff mechanism 27, the primary fire extinguishing mechanism 29, Secondary evolution 30 and the third extinguishing mechanism 31 are connected to the control unit 26, respectively, so that the primary extinguishing mechanism 29, the secondary extinguishing mechanism 30, and the tertiary extinguishing mechanism 31 are operated in stages. Initialization and re-evolution of the discharge processing machine, characterized in that made.

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