KR20120010594A - Gas cutter - Google Patents

Abstract

PURPOSE: A gas cutting machine is provided to reduce preheating time by jetting a large amount of mixed gas in a short time. CONSTITUTION: A gas cutting machine comprises a torch head(110), a nozzle(150), a torch tip(170), a gas regulating unit(600), a low-pressure oxygen regulating unit(200), and a high-pressure oxygen regulating unit(400). The torch tip discharges mixed gas to the outside through the jetting groove of the nozzle. The gas regulating unit comprises a gas regulating pin which controls the supply amount of gas. The low-pressure oxygen regulating unit guides a part of oxygen supplied to an oxygen supply pipe to the torch head through a low-pressure oxygen pipe. The high-pressure oxygen regulating unit guides a part of oxygen supplied to the oxygen supply pipe to the torch head through a high-pressure oxygen pipe.

Description

Gas cutter

The present invention relates to a gas cutter, and more specifically, low pressure oxygen control pin, high pressure oxygen control pin and gas control pin is provided in a structure in which the pin valve and the packing valve is merged to increase the safety by blocking the leakage of gas. To a gas cutter.

In general, a gas cutting machine is used to cut a cutting object made of metal such as an iron plate by thermal power.

Specifically, the gas cutting machine discharges the mixed gas through the tip through the operation of the oxygen supply valve and the gas supply valve, and adjusts the discharge amount of the mixed gas through the tip to ignite the ignition mechanism close to the tip. After that, it is used to cut the cutting object such as iron plate.

Conventional gas cutters have a structure in which a torch tip is inserted into the torch head in the case of KS type 1, 2, 3 and type 3 1, 2, 3, for example.

The conventional gas cutting machine as described above has a problem in that the structure is complicated due to the structure in which the torch tip is inserted into the torch head.

Furthermore, when the torch tip is damaged due to a problem such as high tip heat during the use of the gas cutter, and replacement is required, the torch tip is fused at the connection portion to which the torch tip is connected due to the structure of the torch tip inserted into the torch head. There was a problem that it is not easy to replace the torch tip.

On the other hand, the conventional gas cutting machine is mixed with the low-pressure oxygen and gas in the body portion and transported to the torch head side, but in this case, since the time to transfer the mixed gas to the torch head side, it is possible to inject a large amount of mixed gas in a short time There was no problem.

In addition, since a large amount of mixed gas cannot be injected in a short time, there is a problem that the preheating time is prolonged and the cutting capacity is lowered.

In addition, since the low-pressure oxygen and gas are mixed in the body portion, there is a problem that the safety accident of the user frequently occurs due to leakage during the mixing process.

Therefore, there is a need for a structure such as a torch head that can easily replace a torch tip, which is a consumable, and can shorten the preheating time by injecting a large amount of mixed gas in a short time.

In order to solve the above problems, the present invention is to provide a low pressure oxygen control pin, high pressure oxygen control pin and gas control pin in a structure in which the pin valve and the packing valve is merged to block the leakage of gas to increase the safety It is an object to provide a gas cutter.

In addition, another object of the gas cutter according to the present invention is to provide a torch head structure in which low pressure oxygen and gas are mixed to inject a large amount of mixed gas in a short time to shorten the preheating time, the cutting efficiency due to shortening the preheating time It is to provide a gas cutter which can be increased.

In order to achieve the above object, the gas cutting machine according to a preferred embodiment of the present invention, the high-pressure oxygen, low-pressure oxygen and gas is introduced into the internal space, respectively, the introduced high-pressure oxygen is guided to the center side of the nozzle, the low-pressure oxygen and gas Torch head for mixing to guide the mixed gas to the outer peripheral side of the nozzle; The gas injection groove is in close contact with the lower end of the torch head, and an oxygen injection hole is formed at the center to guide the high pressure oxygen introduced into the torch head to the outside, and guides the mixed gas introduced into the torch head to the outside. A nozzle which extends along the circumferential direction at the bottom; A torch tip coupled to a lower end of the torch head after the nozzle is inserted inward and discharging the mixed gas to the outside through the mixed gas injection groove of the nozzle; A gas regulator having a gas adjusting pin for controlling a supply amount of gas for supplying the gas supplied to the gas supply pipe to the torch head to cut the cutting object while preventing leakage of the gas to the outside; A low pressure oxygen regulator having a low pressure oxygen control pin guiding a portion of oxygen supplied to an oxygen supply pipe to the torch head side through a low pressure oxygen conduit, and controlling the amount of guided low pressure oxygen while preventing leakage to the outside; And a high pressure oxygen control device having a high pressure oxygen control pin for guiding a part of oxygen supplied to the oxygen supply pipe to the torch head side through a high pressure oxygen conduit, and controlling the amount of guided high pressure oxygen while preventing leakage to the outside. It is made to include.

Here, the oxygen supply pipe is connected to the low-pressure oxygen conduit and the high-pressure oxygen conduit by the oxygen transfer pipe, the low-pressure oxygen control pin selectively opens and closes the low-pressure oxygen conduit so as to adjust the inflow of low-pressure oxygen flowing into the torch head side. Preference is given.

In addition, the low pressure oxygen control pin is connected to a first pin valve for selectively opening and closing the inlet side of the low pressure oxygen conduit, and at the same time to selectively open and close the bottom opening side of the oxygen transfer pipe It comprises a first packing valve for preventing oxygen from leaking to the control knob side of the low pressure oxygen regulator.

The high pressure oxygen control pin may be connected to one side of the second pin valve and the second pin valve to selectively open and close the upper opening side of the oxygen transfer pipe to selectively block oxygen transferred to the high pressure oxygen conduit. And a second packing valve for selectively opening and closing the inlet side of the high pressure oxygen conduit and preventing oxygen from leaking to the control knob side of the high pressure oxygen control port.

Further, the gas control pin is connected to one side of the third pin valve to selectively open and close the inlet side of the gas conduit to selectively block the gas transported to the torch head side through the gas conduit, And opening and closing the inlet side of the gas conduit in a double manner, and at the same time, the third packing valve may be configured to prevent the gas from leaking out through the control knob side of the gas regulator.

In addition, the torch head is fixed to the inlet port is inserted into the inner space, the inlet port is formed by the oxygen guide hole for guiding the high-pressure oxygen introduced through the high-pressure oxygen conduit to the oxygen injection hole side of the nozzle through the center in the vertical direction The first protrusion having a plurality of low pressure oxygen guide holes in a circumferential direction for guiding the low pressure oxygen introduced through the low pressure oxygen conduit downwardly protrudes in an upper direction in the horizontal direction, and the gas introduced through the gas conduit. The second protrusion having a plurality of mixed gas guide holes in the circumferential direction for guiding the mixed gas mixed with the low pressure oxygen introduced through the low pressure oxygen guide hole toward the mixed gas injection groove side of the nozzle protrudes downward in the horizontal direction. Preferably formed.

On the other hand, the torch head has a high pressure oxygen flow path for guiding the high pressure oxygen introduced through the high pressure oxygen conduit to the oxygen injection hole side of the nozzle, and the low pressure oxygen introduced through the low pressure oxygen conduit to the mixed gas injection of the nozzle The low pressure oxygen flow passage guides to the groove side, and the gas introduced through the gas conduit to the mixed gas injection groove side of the nozzle, and communicates with the low pressure oxygen flow passage to mix the low pressure oxygen and gas to mix the gas mixture of the nozzle A gas flow path leading to the groove side may be formed.

Referring to the effect of the gas cutter according to the present invention.

First, by providing a torch head structure in which low pressure oxygen and gas are mixed, it is possible to prevent the explosion caused when oxygen and gas are mixed in the conventional body portion, and to shorten the preheating time by spraying a large amount of mixed gas in a short time can do.

Second, it is possible to increase the cutting efficiency of the gas cutter by shortening the preheating time by spraying a large amount of mixed gas in a short time.

Third, the low pressure oxygen control pin, the high pressure oxygen control device and the gas control device low pressure oxygen control pin, high pressure oxygen control pin and gas control pin is provided by connecting the pin valve and the packing valve to block the leakage of low pressure oxygen and high pressure oxygen oxygen In addition to reducing the loss of gas at the same time, by preventing the leakage of gas to ensure safety can prevent the user's safety accidents.

Fourth, by providing an inlet that is inserted and fixed in the torch head, it is possible to stably mix low-pressure oxygen and gas in the torch head.

1 is an overall cross-sectional view showing the internal structure of the gas cutting machine according to the present invention.
Figure 2 is a cross-sectional view showing a torch head portion in the gas cutter according to the present invention.
Figure 3 is an exploded perspective view showing a guide port and a nozzle coupled to the torch head which is the main part of the gas cutter according to the present invention.
Figure 4 is a bottom perspective view showing a state of the nozzle of the gas cutter according to the present invention as viewed from the bottom.
Figure 5 is a cross-sectional view showing a portion of the low pressure and high pressure oxygen control in the gas cutting machine according to the present invention.
Figure 6 is a plan sectional view showing a gas regulator portion in the gas cutting machine according to the present invention.
7 is a cross-sectional view showing another embodiment of the torch head portion in the gas cutter according to the present invention.

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

1 is an overall cross-sectional view showing the internal structure of the gas cutter according to the present invention, Figure 2 is a cross-sectional view showing a torch head portion in the gas cutter according to the present invention.

Figure 3 is an exploded perspective view showing the induction port and the nozzle coupled to the torch head which is the main portion of the gas cutter according to the present invention, Figure 4 is a bottom perspective view showing a state of the nozzle of the gas cutter according to the present invention viewed from the bottom.

Figure 5 is a cross-sectional view showing a portion of a low pressure and high pressure oxygen control in the gas cutting machine according to the present invention, Figure 6 is a cross-sectional view showing a gas control portion in the gas cutting machine according to the present invention.

As shown in Figure 1 to 6, the gas cutting machine according to a preferred embodiment of the present invention torch head 110, nozzle 150, torch tip 170, gas regulator 600, low pressure oxygen regulator 200 And it consists of a high pressure oxygen control (400).

The gas cutting machine is a head portion 100 having the torch head 110 for cutting the cutting object by largely injecting oxygen and mixed gas, the low oxygen control device 200, high pressure oxygen control device 400 Is provided with a body portion 300 is provided and a handle portion 500 is connected to the gas, oxygen injection pipe (not shown) from the outside and provided with the gas regulator 600.

Here, the torch head 110 is the high pressure oxygen, low pressure oxygen and gas is introduced into the internal space, respectively, and guides the high pressure oxygen introduced to the center side of the nozzle 150, in particular the high pressure oxygen to the nozzle 150 Guide to the oxygen injection hole 151 formed in the center of the discharge to the outside.

In addition, the torch head 110 guides the mixed gas to the outer circumferential side of the nozzle 150 by mixing the low pressure oxygen and gas introduced into the internal space, and in particular, the torch head 110 Guided to the mixed gas injection groove 159 side according to the discharge to the outside.

In detail, the torch head 110 is fixed to the induction port 130 is inserted into the internal space, the induction port 130 is the oxygen content of the nozzle 150 to the high-pressure oxygen introduced through the high-pressure oxygen conduit 111 An oxygen guide hole 131 guiding toward the hole 151 is formed through the center in the vertical direction.

In addition, the induction port 130 has a first projection 132 having a plurality of low pressure oxygen guide holes 133 in the circumferential direction to guide the low pressure oxygen introduced through the low pressure oxygen conduit 113 in the horizontal direction. Protruding on top.

Here, although the high-pressure oxygen conduit 111 and the low-pressure oxygen conduit 113 is not shown in detail in the drawings, it is defined as follows.

First, the high-pressure oxygen conduit 111 is a conduit for transporting oxygen at high pressure because the area of the longitudinal section is smaller than the low-pressure oxygen conduit 113.

In addition, the low-pressure oxygen conduit 113 is a conduit for transporting oxygen at a relatively low pressure is provided with a larger area of the longitudinal section than the high-pressure oxygen conduit 113.

Therefore, hereinafter, a conduit for transferring oxygen at high pressure will be referred to as a high pressure oxygen conduit 111, and a conduit for transferring oxygen at a low pressure will be described as a low pressure oxygen conduit 113.

On the other hand, the induction port 130 is mixed with the mixed gas mixed by the gas introduced through the gas conduit 115 and the low pressure oxygen introduced through the low pressure oxygen guide hole 133 mixed with the nozzle 150 A second protrusion 135 having a plurality of mixed gas guide holes 136 in the circumferential direction guided to the gas injection groove 159 is protruded downward in the horizontal direction.

Through the above structure, the low pressure oxygen introduced through the low pressure oxygen guide hole 133 of the first protrusion 132 is mixed with the gas introduced through the gas conduit 115, so that the mixed gas is the second protrusion. It is guided to the mixed gas injection groove 159 side of the nozzle 150 through the mixed gas guide hole 136 of (135).

At this time, the nozzle 150 is in close contact with the lower end of the torch head 110, the oxygen injection hole 151 for guiding the high-pressure oxygen introduced into the torch head 110 to the outside is formed in the center.

In addition, the nozzle 150 has a mixed gas injection groove 159 that guides the mixed gas introduced into the torch head 110 along the circumferential direction to the outside.

In addition, the nozzle 150 is provided with a stepped portion in which a plurality of communication holes 157 are formed along the circumferential direction of the upper portion in close contact with the lower end of the torch head 110, and through the communication hole 157. The mixed gas discharged through the mixed gas guide hole 136 of the second protrusion 135 protruding from the tool 130 may be stably guided to the mixed gas injection groove 159.

In addition, the torch tip 170 is coupled to the lower end of the torch head 110 by a tightening nut 190 after the nozzle 150 is inserted into the inside, and the mixed gas injection groove of the nozzle 150 ( 159) discharges the mixed gas to the outside.

In addition, the gas regulator 600 is a gas for controlling the supply of the gas supplied to the gas supply pipe 116 to the torch head 110 through the gas conduit 115 to prevent leakage of the outside to the outside Control pin 630 is included.

At this time, the gas control pin 630 includes a third pin valve 610 and the third packing valve 620.

Here, the third pin valve 610 selectively opens and closes the inlet side of the gas conduit 115 to selectively block the gas transferred to the torch head 110 through the gas conduit 115, one direction It is preferable to form a tapered pin type so that the cross-sectional area is wider.

In addition, the third packing valve 620 is connected to one side of the third pin valve 610 to open and close the inlet side of the gas conduit 115 in a double, at the same time control of the gas regulator 600 O-ring 621 is preferably provided at the center in the longitudinal direction to prevent the gas leakage to the handle 650 side.

On the other hand, the low pressure oxygen control unit 200 guides a part of the oxygen supplied to the oxygen supply pipe 511 to the torch head 110 side through the low pressure oxygen conduit 113, and guides the supply amount of low pressure oxygen to the outside It includes a low pressure oxygen control pin 230 to adjust while preventing the leakage.

At this time, the low pressure oxygen regulating pin 230 is preferably made to include a first pin valve 210 and the first packing valve 220.

The first pin valve 210 selectively opens and closes the inlet side of the low pressure oxygen conduit 113 to selectively block the low pressure oxygen transferred to the torch head 110 through the low pressure oxygen conduit 113. In addition, it is preferable that it is formed in a tapered pin type so that the cross-sectional area becomes wider in one direction.

In addition, the first packing valve 220 is connected to one side of the first pin valve 210 to selectively open and close the oxygen transfer pipe 310, the control knob of the low pressure oxygen control port 200 ( O-ring 221 is preferably provided in the center in the longitudinal direction to prevent oxygen leakage to the 250) side.

On the other hand, the high pressure oxygen control unit 400 guides a part of the oxygen supplied to the oxygen supply pipe 511 to the torch head 110 through the high pressure oxygen conduit 111 via the oxygen transfer pipe 310, It includes a high pressure oxygen control pin 430 to adjust the supply amount of the high pressure oxygen to be guided while preventing leakage to the outside.

At this time, the high pressure oxygen control pin 430 is preferably made to include a second pin valve 410 and the second packing valve 420.

Here, the second pin valve 410 selectively opens and closes the upper opening side of the oxygen transfer pipe 310 to selectively block oxygen transferred to the high-pressure oxygen conduit 111, and the cross-sectional area is wider in one direction. It is preferable to form a tapered pin type.

In addition, the second packing valve 420 is connected to one side of the first pin valve 210 to selectively open and close the inlet side of the high-pressure oxygen conduit 111, the high-pressure oxygen control port 400 O-ring 421 is preferably provided at the center in the longitudinal direction to prevent the leakage of oxygen to the control knob 450 side.

The oxygen supply pipe 511 as described above is connected to the low pressure oxygen conduit 113 and the high pressure oxygen conduit 111 by the oxygen transfer pipe 310.

In detail, the upper opening side of the oxygen transfer pipe 310 is connected to the inlet side of the high-pressure oxygen conduit 111, the lower opening side of the oxygen transfer pipe 310 and the inlet side of the low pressure oxygen conduit 113 Are connected in communication.

Therefore, oxygen supplied from the oxygen supply pipe 511 may be divided into upper and lower portions via the oxygen transfer pipe 310 and transferred to the high pressure oxygen conduit 111 and the low pressure oxygen conduit 113, respectively.

As described above, the gas cutter according to the present invention may mix low gaseous oxygen and gas by the induction port 130 in the torch head 110 to transfer the mixed gas to the nozzle 150.

Therefore, it is possible to prevent a safety accident such as an explosion caused by a structure in which oxygen and gas are mixed in the body part of the conventional gas cutter, and the injection path is shortened to shorten the preheating time by injecting a large amount of mixed gas in a short time. have.

In addition, by cutting a large amount of mixed gas in a short time to shorten the preheating time it is possible to increase the cutting efficiency of the gas cutter.

In addition, the low pressure oxygen control port 200, the high pressure oxygen control port 400 for adjusting the supply of high pressure oxygen, low pressure oxygen, respectively, the first pin valve 210, the first packing valve 220, the second pin valve The low pressure oxygen control pin 230 and the high pressure oxygen control pin 430 provided as the 410 and the second packing valve 420 may block the leakage of the low pressure oxygen and the high pressure oxygen to reduce the loss of oxygen. .

In addition, the gas control port 600 for adjusting the supply amount of gas is provided to the gas control pin 630 provided with the third pin valve 610 and the third packing valve 620 to block the leakage of gas safety You can prevent user's safety accident by securing

Furthermore, the inlet port 130 inserted into the torch head 110 is provided to mix the low pressure oxygen and gas in the torch head 110 to stably discharge the mixed gas to the outside through the nozzle 150. You can.

7 is a cross-sectional view showing another embodiment of the torch head portion in the gas cutter according to the present invention.

First, the gas cutting machine of FIG. 7 is different from only the gas cutting machine and the torch head portion described with reference to FIGS. 1 to 6. Hereinafter, the gas cutting machine of FIG. This will be described.

As shown in FIG. 7, the torch head 110 ′ according to another embodiment has a high pressure oxygen flow passage 111 ′, a low pressure oxygen flow passage 113 ′, and a gas flow passage 115 ′ formed therein.

Here, the high pressure oxygen flow passage 111 ′ guides the high pressure oxygen introduced through the high pressure oxygen conduit 111 to the oxygen injection hole 151 of the nozzle 150, and to the outside through the oxygen injection hole 151. Discharged.

In addition, the low pressure oxygen flow passage 113 ′ guides the low pressure oxygen introduced through the low pressure oxygen conduit 113 to the mixed gas injection groove 159 of the nozzle 150, and the gas flow path 115 ′. It communicates and mixes the low pressure oxygen and gas to guide the mixed gas injection groove 159 side of the nozzle.

In addition, the gas passage 115 ′ communicates with the low pressure oxygen passage 113 ′ and mixes the low pressure oxygen and gas to guide the mixed gas injection groove 159 of the nozzle.

In this case, the mixed gas mixed through the low pressure oxygen flow passage 113 ′ and the gas flow passage 115 ′ is mixed gas injection groove 159 through the communication hole 157 formed along the upper circumferential direction of the nozzle 150. Is guided to the side.

The mixed gas guided as described above is injected to the outside through the mixed gas injection groove 159 of the nozzle 150 in close contact with the lower inner peripheral surface of the torch tip 170.

As described above, the gas cutting machine according to the present invention has a high pressure oxygen flow passage 111 ′, a low pressure oxygen flow passage 113 ′, and a gas flow passage 115 ′ formed in the torch head 110 ′. By mixing the low pressure oxygen and gas in the) it can be stably discharged to the outside through the nozzle 150.

Although specific embodiments of the present invention have been described in detail above, the present invention is not limited thereto, and the present invention can be variously modified by those skilled in the art to which the present invention pertains. Is included in the scope of the present invention.

100: head portion 110: torch head
130: guide port 150: nozzle
170: torch tip 190: tightening nut
200: low pressure oxygen regulator 210: first pin valve
220: first packing valve 230: low pressure oxygen control pin
300: body 400: high pressure oxygen control
410: second pin valve 420: second packing valve
430: high-pressure acid control pin 500: handle portion
600: gas regulator 610: third pin valve
620: third packing valve 630: gas control pin

Claims (7)

High pressure oxygen, low pressure oxygen and gas is introduced into the inner space, the high pressure oxygen is introduced to the center side of the nozzle, the low pressure oxygen and gas is mixed to guide the mixed gas to the outer peripheral side of the nozzle;
The gas injection groove is in close contact with the lower end of the torch head, and an oxygen injection hole is formed at the center to guide the high pressure oxygen introduced into the torch head to the outside, and guides the mixed gas introduced into the torch head to the outside. A nozzle which extends along the circumferential direction at the bottom;
A torch tip coupled to a lower end of the torch head after the nozzle is inserted inward and discharging the mixed gas to the outside through the mixed gas injection groove of the nozzle;
A gas regulator having a gas adjusting pin for controlling a supply amount of gas for supplying the gas supplied to the gas supply pipe to the torch head to cut the cutting object while preventing leakage of the gas to the outside;
A low pressure oxygen regulator having a low pressure oxygen control pin guiding a portion of oxygen supplied to an oxygen supply pipe to the torch head side through a low pressure oxygen conduit, and controlling the amount of guided low pressure oxygen while preventing leakage to the outside; And
Part of the oxygen supplied to the oxygen supply pipe to the torch head side through the high-pressure oxygen conduit, and includes a high-pressure oxygen regulator having a high-pressure oxygen control pin for controlling the supply amount of the high-pressure oxygen guided to the outside to prevent leakage Gas cutting machine. The method of claim 1,
The oxygen supply pipe is connected to the low-pressure oxygen conduit and the high-pressure oxygen conduit by an oxygen transfer pipe, the low-pressure oxygen control pin selectively opens and closes the low-pressure oxygen conduit to control the amount of low-pressure oxygen flowing into the torch head side. Gas cutting machine characterized in that. The method of claim 2,
The low pressure oxygen control pin is connected to one side of the first pin valve to selectively open and close the inlet side of the low pressure oxygen conduit, and at the same time to selectively open and close the lower opening side of the oxygen transfer pipe, Gas cutting machine characterized in that it comprises a first packing valve for preventing oxygen leakage to the control knob side of the low-pressure oxygen regulator. The method of claim 2,
The high pressure oxygen control pin has a second pin valve for selectively opening and closing the upper opening side of the oxygen transfer pipe to selectively cut off oxygen transferred to the high pressure oxygen conduit, and is connected to one side of the second pin valve to the high pressure oxygen And a second packing valve for selectively opening and closing the inlet side of the conduit and preventing oxygen from leaking to the control knob side of the high pressure oxygen control port. The method according to claim 1 or 2,
The gas control pin is connected to one side of the third pin valve and selectively connected to the side of the third pin valve by selectively opening and closing the inlet side of the gas conduit to selectively block the gas transported to the torch head side through the gas conduit And a third packing valve which opens and closes the inlet side of the gas conduit twice and prevents gas from leaking to the outside through the control knob side of the gas regulator. The method of claim 1,
The torch head is fixed to the inlet port is inserted into the internal space, the induction port is formed through the center of the oxygen guide hole for guiding the high pressure oxygen introduced through the high pressure oxygen conduit to the oxygen injection hole side of the nozzle, The first protrusion having a plurality of low pressure oxygen guide holes in the circumferential direction for guiding the low pressure oxygen introduced through the low pressure oxygen conduit downwardly protrudes in the horizontal direction, and the gas introduced through the gas conduit to the low pressure The second projection having a plurality of mixed gas guide holes in the circumferential direction for guiding the mixed gas mixed with the low pressure oxygen introduced through the oxygen guide hole toward the mixed gas injection groove side of the nozzle is formed to protrude downward in the horizontal direction. Gas cutting machine characterized in that. The method of claim 1,
The torch head has a high pressure oxygen flow path for guiding the high pressure oxygen introduced through the high pressure oxygen conduit to the oxygen injection hole side of the nozzle and the low pressure oxygen introduced through the low pressure oxygen conduit to the mixed gas injection groove side of the nozzle. Guides the low pressure oxygen flow passage and the gas introduced through the gas conduit to the mixed gas injection groove side of the nozzle, and communicates with the low pressure oxygen flow passage to mix the low pressure oxygen and gas to the mixed gas injection groove side of the nozzle. Gas cutting machine, characterized in that to guide the gas flow path is formed.

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