KR200408940Y1 - High thermal power of vaporizer possess a torch - Google Patents

Abstract

The present invention relates to a torch equipped with a high thermal power vaporizer which can maximize the vaporization efficiency of a large amount of liquefied butane gas, and obtain a high calorific flame, and includes a gas supply pipe connected to the liquefied butane gas cylinder, A torch comprising a main body including an adjusting valve to adjust, and a vaporizer connected to a supply end of the gas supply pipe and generating a flame through ignition of the ignition means as the gas is ejected; The carburetor is provided with a nozzle including a gas supply pipe and a blow hole on both sides and a space between the connecting body including a gas passage provided with a vaporization chamber, the circumference and both sides when the gas passes through the interior of the vaporization chamber A vaporization body which is installed to be flowable to form a gas movement gap, and vaporizes the gas flowing from the gas supply pipe to be ejected into the ejection hole of the nozzle, and closes the periphery of the connecting body and protrudes in the gas ejection direction. It is characterized in that it is composed of a flame generating tube which is provided so that at least one air inlet hole is formed around.

       Torch, carburetor

Description

High thermal power of vaporizer possess a torch}

1 is a perspective view showing the overall configuration showing the torch of the first embodiment according to the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is an enlarged view of a portion B of FIG. 2;

Figure 4 is an enlarged cross-sectional view showing the initial ignition state and the use state of the torch of the first embodiment according to the present invention.

5 is a cross-sectional view showing a torch of a second embodiment according to the present invention.

Figure 6 is a cross-sectional view showing another embodiment of the heat shield tube constituting the torch of the second embodiment according to the present invention.

7 is a cross-sectional view showing a torch of a third embodiment according to the present invention.

8 is a sectional view showing a torch of a fourth embodiment according to the present invention;

9 is a cross-sectional view showing another embodiment of the heat shield tube constituting the torch of the fourth embodiment according to the present invention;

<Explanation of symbols for the main parts of the drawings>

1: main body

    11: gas supply pipe

    12: control valve

2: carburetor

    21: connector

         211 gas passage

         212: vaporization room

    22: vaporized body

    23: gas movement gap

    24: nozzle

         241: blowout

    25: flame generating tube

         251: air input hole

    26: red bar

3: ignition means

4: liquefied butane gas cylinder

5: heat shield tube

    51: air heat shield

    52: spring tube

6: perimeter recess

7: heat shield tube

    71: air heat shield

    72: spring tube

The present invention relates to a torch equipped with a high thermal vaporizer, and more particularly to a torch equipped with a high thermal vaporizer to obtain a high calorie flame by maximizing the vaporization efficiency of a large amount of liquefied butane gas.

Generally, the torch (torch lamp) refers to a device used when high temperature heating is required. It is mainly used for connecting pipes in various plumbing works and for bending pipes. It is widely used for various purposes, such as sterilizing cutting boards in restaurants.

The torch uses kerosene and liquefied butane gas, and the present invention relates to a torch using liquefied butane gas.

Accordingly, "land vaporizer" (hereinafter, referred to as "traditional torch vaporizer") of Korean Patent Application No. 2005-64482 filed by the present applicant is known.

10 is a cross-sectional view showing a conventional torch vaporizer of the present applicant, the conventional torch vaporizer includes a gas supply pipe 101 is connected to the liquefied butane gas cylinder 400 and the degree of opening and closing of the gas supply pipe 101 The main body 100 including the adjusting valve 102 to be adjusted and the supply end of the gas supply pipe 101 are vaporized to liquefy butane gas to be mixed with the primary air and then ejected to ignite means 300. In the torch consisting of a vaporizer 200 for generating a flame through the ignition of; The vaporizer 200 is connected to the supply end of the gas supply pipe 101, the connecting body 201 including a discharge means 202 for discharging the liquefied butane gas forward, and the connecting body 201 of The inner cap 203 is provided on the liquefied butane gas discharge side is provided with a liquefied butane gas collecting space 205 is formed around the inside of the first blowing hole 204, and the outer surface of the inner cap 203 and The second ejection hole is fixed to the connecting body 201 while being spaced at regular intervals, and the vaporization space 207 is provided between the inner cap 203 and the inner side of the front plate, and the vaporizing gas is ejected in the center of the front plate. 208 is formed with an outer cap 206 and the outer cap 206 is tightly wrapped around the outer cap 206 and protrudes forward to conduct the heat of flame to the inner and outer caps 203 and 206 to be ejected. Flame formed with one or more primary air inlet holes to mix primary air in air It is characterized by configured by gender 209.

Hereinafter, the functional relationship of the land vaporizer configured as described above is as follows.

First, during the initial ignition, the liquefied butane gas collides with the inner surface of the front plate in the collecting space 205 formed inside the inner cap 203, and then diffuses in all directions, and then the outside of the inner cap 203. After being diffused into the vaporization space 207 formed between the side surface and the inner surface of the outer cap 206, it is ejected and ignited through the second ejection hole 208 formed in the center of the front plate of the outer cap 206. The vaporized liquefied butane gas (hereinafter referred to as "vapor gas") ejected from the second ejection hole 208 is ignited to generate a flame.

In the process of continuously generating flame after completing the initial ignition as described above, the heat of flame is conducted to the flame generating tube 209 and the conductive heat conducted to the flame generating tube 209 is in close contact with the flame generating tube 209. Heat conducted to the provided outer cap 206 and conducted to the outer cap 206 is conducted to the inner cap 203 while being radiated to the vaporization space 207. Therefore, the vaporization space 207 is increased by the temperature of the vaporization space 207 formed in the space between the outer cap 206 and the inner cap 203 due to the heat dissipation of the outer cap 206 and the inner cap 203. As the liquefied butane gas passing through the gas is completely vaporized through the second jet hole 208, the flame is continuously generated.

Therefore, in the case of using a conventional vaporizer, only the completely vaporized gas is ejected during the initial ignition to prevent incomplete combustion during the initial ignition, of course, if the flame is continuously produced after the initial ignition It is to have the advantage to prevent the unsafe combustion due to the evaporation of the vaporized gas in advance.

However, in order to obtain a high output by expanding the vaporization space of the vaporizer configured as described above, there was a problem that the amount of gas supplied to the expanded vaporization space is insufficient to obtain a high thermal power.

That is, the gas supplied to the vaporization space is supplied only through the second ejection hole from the collecting space of the inner cap, and as described above, the ejection speed of the vaporization gas ejected from the first ejection hole is insufficient as the amount of gas supplied to the vaporization space is insufficient. You will not be able to get high firepower.

Therefore, the present invention is designed to solve the above problems, maximizing the vaporization efficiency of a large amount of liquefied butane gas by the large amount of vaporized gas is ejected through the nozzle quickly to obtain a high thermal power It is an object to provide a torch equipped with a vaporizer.

It also aims to minimize the incomplete combustion of flames upon initial ignition.

In addition, there is a purpose to completely burn the unburned gas contained in the flame during the initial ignition in a short time to maximize the stabilization time of the flame after the initial ignition.

It also aims to prevent the release of air pollutants into the atmosphere by reheating the flames produced.

Another object is to prevent incomplete combustion even when the gas cylinder is inverted and the vaporizer is used downward.

It also aims to prevent burns and fire accidents caused by conduction heat conducted to the gas supply pipe during the use of the torch.

The present invention for achieving the above object, the main body including a gas supply pipe connected to the liquefied butane gas cylinder and including a control valve for adjusting the opening and closing degree of the gas supply pipe, and connected to the supply end of the gas supply pipe to supply gas A torch comprising a carburetor which generates a flame through the ignition of the ignition means upon ejection; The carburetor is connected to the gas supply pipe and the nozzle is provided with a nozzle including a bore hole on both sides and the space therebetween comprises a gas passage provided with a vaporization chamber. A gas vaporizer which is installed to be flowable so that a gas movement gap is formed in the circumference and both sides when the gas passes through the vaporization chamber, and vaporizes the gas flowing from the gas supply pipe to be ejected into the jet hole of the nozzle; and It is characterized in that it is composed of a flame generating tube wrapped close to the circumference of the connecting body and protruding in the direction of gas ejection, and formed at least one air inlet hole.

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

Figure 1 is a perspective view showing the overall configuration showing the torch of the first embodiment according to the present invention, Figure 2 is a cross-sectional view taken along the line A-A of Figure 1, Figure 3 is an enlarged view of portion B of FIG.

The torch of the first embodiment according to the present invention includes a gas supply pipe 11 connected to the liquefied butane gas cylinder 4 and includes a main body including an adjustment valve 12 for adjusting the opening and closing degree of the gas supply pipe 11. 1) and the vaporizer 2 which is connected to the supply end of the gas supply pipe 11 to vaporize the liquefied butane gas and mixed with the primary air, and then ejects it to produce a flame through the ignition of the ignition means 3. In the torch comprising a, the vaporizer 2 is improved by the large amount of vaporized gas is continuously discharged through the nozzle is characterized by a torch which can obtain a high thermal power.

That is, the vaporizer 2 has a nozzle 24 including a gas supply pipe 11 and a blowing hole 241 on both sides and the gas passage 211 provided with a vaporization chamber 212 in the space therebetween. Connecting body 21 and the. When gas passes through the vaporization chamber 212, the gas flow gap 23 is formed to be circumferentially and laterally formed so that gas flows from the gas supply pipe 11 to vaporize the nozzle ( The vaporization body 22 to be ejected to the blowing hole 241 of the 24, and the circumference of the connecting body 21 is tightly wrapped and provided to protrude in the gas ejection direction and at least one air inlet hole 251 The flame generating tube 25 is formed.

In particular, when the vaporization body 22 is mounted on the gas passage 211, the gas supply pipe 11 is mounted on the other side of the gas passage 211, and the vaporization chamber 212 formed in the gas passage 211 is provided. By mounting the vaporizer 22 therein, by mounting a nozzle on one side of the gas passage 211, the vaporizer 22 is assembled.

In addition, the gas supply cross-sectional area of the gas supply pipe 11 connected to the connecting body 21 is relatively larger than the gas blowing cross-sectional area of the blowing hole 241 provided in the nozzle 24, thereby supplying a large amount of gas. In order to obtain a high firing power by allowing the gas to be ejected from the jet hole 241 at a high speed, a description of the specific operation will be described later.

In addition, the length L1 of the vaporizer 22 is formed shorter than the length L2 between one end of the gas supply pipe 11 constituting the vaporization chamber 212 and the other end of the nozzle 24, the vaporizer ( The outer diameter of 22 is smaller than the inner diameter of the vaporization chamber 211, so that the vaporizer 22 is provided to be flowable in the vaporization chamber 212. Therefore, when gas is supplied from the gas supply pipe 11, the gas movement gap 23 is formed in the circumference and both sides of the inside of the vaporization chamber 212.

In addition, as shown in FIG. 2, around one side of the connecting body 21, the gas protrudes in the direction of ejection and conducts heat to the connecting body 21 at the time of generating a flame, thereby rapidly increasing the temperature of the vaporization chamber. At least one glowing rod 26 for raising is provided.

And the red bar 26, one side is fixed to the inside of the connecting body 21 so as to improve the thermal conductivity.

In addition, the red bar 26 is preferably provided in plural and provided at equal intervals so as to completely burn the unburned gas of the flame.

Hereinafter, the working relationship of the torch of the first embodiment configured as described above is as follows.

In explaining the operation state of the torch of the first embodiment according to the present invention, the state before use, the initial ignition state and the use state after the initial ignition will be described in order.

First, when the state of the torch is explained, as shown in FIG. 3, the vaporizer 22 inserted into the vaporization chamber 212 constituting the connecting body 21 is biased to one side or the other side, and has one side circumference. It is kept in a biased position.

That is, as gas is not supplied from the gas supply pipe 11 connected to the liquefied butane gas cylinder 4, as described above, the vaporized body 22 provided in the vaporization chamber 212 maintains the flowed position. will be.

4 is an enlarged cross-sectional view showing an initial ignition state and a use state of the torch of the first embodiment according to the present invention.

When the torch according to the present invention is initially ignited, liquefied butane gas is first passed through the gas supply pipe 11 through the opening of the control valve 12 (see FIG. 1) constituting the torch.

Then, the liquefied butane gas ejected from the gas supply pipe 11 is diffused in all directions while colliding with the center of the other side of the vaporization body 22 provided on the ejecting side to vaporize some of the gas.

In addition, some of the vaporized gas is moved to one side through a gap formed around the inner circumference of the vaporization chamber 212, and thus the vaporized gas moved to one side is moved to one side due to the pressure of the gas continuously introduced into the nozzle 24 It is supplied between the other side of the and the one side of the vaporization body 22 is passed through forming a gas flow gap 23 in one side of the vaporization chamber 212, and then passes through the blowing hole 241 formed in the nozzle 24 Will be ejected. That is, the gas movement gaps 23 are formed in the inner circumference and both sides of the vaporization chamber 212.

Next, the ejected gas ejected from the ejection hole 241 is mixed with the primary air introduced from the air inlet hole 251 formed in the flame generating tube 25 while ejecting inside the flame generating tube 25. In this way, the ejected gas mixed with the primary air is ejected to the front of the flame generating pipe 25 and ignited through a separate ignition means 3 to generate a flame.

Therefore, as described above, by injecting some vaporized gas during the initial ignition, it is possible to minimize the incomplete combustion during the initial ignition.

That is, by causing the liquefied butane gas supplied from the gas supply pipe 11 to collide with the other side of the vaporization body 22, part of the liquefied butane gas is vaporized due to instantaneous diffusion and scattering due to the collision. Therefore, by increasing the degree of vaporization of the ejected gas emitted through the initial nozzle it is possible to minimize the incomplete combustion of the flame during the initial ignition.

In addition, as shown in FIG. 4, when the flame is generated and the torch is used, the mixed gas mixed with the primary air is ejected to the front of the flame generating tube 25 to generate the flame as described above.

Then, the conductive heat conducted to the flame generating tube 25 is conducted to the connector 21 provided in close contact with the flame generating tube 25, and the heat conducted to the connector 21 is formed in the vaporization chamber 212. Is emitted into the interior of the.

Therefore, the heat conducted to the vaporization chamber 212 increases the temperature of the gas movement gap 23 formed between the inside of the vaporization chamber 212 and the outside of the vaporizer 22, the gas movement gap 23 Quickly vaporize the gas in the liquid phase through

Therefore, when heat is conducted from the generated flame to the flame generating tube 25 after the initial flame is generated, the gas containing the liquid gas passing through the gas movement gap 23 formed in the vaporization chamber 212 is rapidly generated by the conductive heat. It is vaporized. Therefore, after the flame is generated after the initial ignition, some incomplete combustion occurs. As described above, the initial ignition flame is generated by rapidly and completely vaporizing the gas moved to the gas movement gap 23 formed in the vaporization chamber 212. It can be stabilized in a short time.

In addition, one side of the connector 21 is provided with a glowing bar 26, the flame heat complexed as described above is also conducted to the glowing bar 26.

In this way, the conductive heat conducted by the red bar 26 is conducted to the connector 21 and the heat conducted to the connector 21 is radiated into the vaporization chamber 212 formed therein, thereby providing the vaporization chamber 212. As the temperature of the gas movement gap 23 formed between the inside of the gas and the outside of the vaporization body 22 increases more rapidly, the liquid gas moved through the gas movement gap 23 is rapidly vaporized.

Therefore, by stabilizing the initial ignition flame within a faster time (about 10 seconds to about 20 seconds) by vaporizing the gas moved to the gas movement gap 23 formed on the periphery and both sides of the vaporization chamber 212 more quickly and completely. You can let

As described above, the temperature of the vaporization chamber 212 is rapidly increased through the conduction heat of the flame generating tube 25 and the red bar 26 to stabilize the flame rapidly after the initial ignition, as well as to the vaporization chamber 212. As the gas containing the liquid gas passing through the formed gas movement gap 23 is rapidly vaporized, a sufficient vaporization effect can be obtained even if the gas passage amount is increased.

Therefore, the gas supply cross-sectional area of the gas supply pipe 11 connected to the connecting body 21 is provided to be relatively larger than the gas blowing cross-sectional area of the jet hole 241 provided in the nozzle 24.

Therefore, a large amount of gas is supplied into the vaporization chamber 212 and is ejected at a high speed from the blowing hole to obtain a high heating power.

That is, the gas supplied through the large gas supply pipe 11 having the cross-sectional area of the gas is completely vaporized while moving along the gas movement gap 23 of the vaporization chamber 212 where the temperature rises rapidly, and the gas that is ejected is completely vaporized. do. Therefore, it is possible to continuously produce a stable flame in which incomplete combustion does not occur, thereby providing a high power torch in which a stabilized flame is produced.

In addition, even when the liquefied butane gas cylinder 4 is upright and the liquefied butane gas cylinder 4 is turned upside down and the vaporizer is used downward, the pressure of the gas blown out from the liquefied butane gas cylinder 4 is reduced. As the position of the vaporizer 22 located inside 212 is not changed, the ejected gas is constant so that incomplete combustion can be prevented even when the vaporizer 2 is used downward.

On the other hand, the red bar 26 provided around one side of the connecting body 21 is provided with one or a plurality of equal intervals, the red bar 26 is in close contact with the flame is accumulated due to the heat of the flame heating element Becomes

Therefore, by re-heating the flame generated through the hot rod 26 to completely burn the unburned gas contained in the flame, the phenomenon that air pollutants such as carbon monoxide generated by the unburned gas is released into the atmosphere. It can also provide an environmentally friendly torch that can be prevented.

5 is a cross-sectional view showing a torch of a second embodiment according to the present invention.

The torch of the second embodiment according to the present invention, on the premise that it includes the configuration of the first embodiment described above, the gas supply pipe between one side of the main body 1 and the other side of the connecting body 21 An air heat shielding space 51 is formed between the outer and inner surfaces of the gas supply pipe 11 so that the inner diameter is larger than the outer diameter of the gas supply pipe 11 so as to prevent heat conducted to the outside from being discharged to the outside. It is characterized in that the heat shield tube 5 further provided.

Therefore, it is possible to prevent burns and fire accidents due to conduction heat conducted to the gas supply pipe 11 in the process of using the torch.

That is, by providing the heat shield tube 5 with the air heat shield space 51 interposed between the gas supply pipe 11, the heat conduction heat transmitted through the connecting member 21 constituting the vaporizer gas supply pipe 11 Due to this, even if the temperature rises rapidly, the heat of emission of the gas supply pipe 11 is blocked through the air heat shield space 51.

Therefore, in the heat shield pipe 5 surrounding the gas supply pipe 11, the temperature of the heat emitted is maintained at a low temperature so that the operator may not be burned even if the worker catches the heat shield pipe during use.

In addition, the surrounding fire caused by placing the torch at the moment of burn can be prevented in advance.

Figure 6 is a cross-sectional view showing another embodiment of the heat shield tube constituting the torch of the second embodiment according to the present invention, the heat shield tube 5 is composed of a coil spring tube 52, the one side of the main body and The other side of the connecting body 21 is to increase the adhesion of both ends to be firmly fixed.

Therefore, the spring tube 52 is firmly fixed in the process of using the torch, thereby preventing the phenomenon in which the spring tube 52 is in close contact with the gas supply pipe 11, thereby providing a more stable torch.

7 is a cross-sectional view showing a torch of a third embodiment according to the present invention.

The torch of the third embodiment according to the present invention, on the premise that it includes the configuration of the first embodiment described above, from the connecting body 21 around the gas supply pipe 11 on the other side of the connecting body 21 Peripheral recessed groove 6 recessed inward to reduce the conduction of heat conducted to the gas supply pipe 11 is characterized in that it is further provided.

Therefore, it is possible to prevent burns and fire accidents due to conduction heat conducted to the gas supply pipe 11 in the process of using the torch.

That is, by providing a peripheral recessed groove 6 having a heat shielding space therein on the other side of the connecting body 21 constituting the vaporizer 2, the conductive heat conducted from the circumference of the connecting body 21 to the inner center It is possible to prevent the sudden rise in temperature of the gas supply pipe 11 by preventing the phenomenon of conducting directly to the gas supply pipe 11.

In other words, conduction heat, which is conducted from the circumference of the connector 21 to the inner center, passes through the heat shielding space formed inside the circumferential recess 6, thereby reducing the conduction of heat. Therefore, it is possible to prevent the sudden temperature rise of the gas supply pipe (11).

Therefore, by maintaining the temperature of the heat emitted from the gas supply pipe 11 surrounding the gas supply pipe 11 at a low temperature, even if the operator grabs the gas supply pipe 11 during use, it is possible to prevent burns, as well as the burn Ambient fire caused by placing the torch can also be prevented in advance.

8 is a cross-sectional view showing a torch of a fourth embodiment according to the present invention.

The torch of the fourth embodiment according to the present invention, including the configuration of the third embodiment described above, the peripheral recess formed around one side of the main body 1 and the other side of the connecting body 21 The inner surface of the gas supply pipe 11 is larger than the outer diameter of the gas supply pipe 11 so as to prevent heat conducted to the gas supply pipe 11 from being discharged to the outside between the inner surfaces of the gas supply pipe 11. A heat shield tube 7 having an air heat shield space 71 is further provided between the inner surfaces.

And one side of the heat shield tube 7 is fixed with a space to reduce the heat conduction and the inner, outer surface of the circumferential recessed groove (6).

Therefore, it is possible to prevent burns and fire accidents due to conduction heat conducted to the gas supply pipe 11 in the process of using the torch.

That is, by providing a peripheral recessed groove 6 having a heat shielding space therein on the other side of the connecting body 21 constituting the vaporizer 2, the conductive heat conducted from the circumference of the connecting body 21 to the inner center By preventing the phenomenon of being directly conducted to the gas supply pipe 11, it is possible to prevent the rapid temperature rise of the heat shield pipe 7.

In other words, conduction heat, which is conducted from the circumference of the connector 21 to the inner center, passes through the heat shielding space formed inside the circumferential recess 6, thereby reducing the conduction of heat. Therefore, it is possible to prevent the sudden temperature rise of the gas supply pipe (11).

Therefore, by maintaining the temperature of the heat emitted from the gas supply pipe 11 surrounding the gas supply pipe 11 at a low temperature, even if the operator grabs the gas supply pipe 11 during use, it is possible to prevent burns, as well as the burn Ambient fire caused by placing the torch can also be prevented in advance.

Figure 9 is a cross-sectional view showing another embodiment of a heat shield tube constituting the torch of the fourth embodiment according to the present invention, the heat shield tube 7 is composed of a coil spring tube 72, the main body 1 It is to be able to be firmly fixed by increasing the adhesion of both ends to the inner surface of the peripheral recessed groove 6 formed in one side and the connector 21 of.

Therefore, the spring tube 72 is firmly fixed in the process of using the torch, thereby preventing the spring tube 72 from being in close contact with the gas supply pipe 11 in advance, thereby providing a more stable torch.

The present invention as described above, by providing a high thermal power vaporizer that can obtain a high thermal power by allowing a large amount of vaporized gas is quickly ejected through the nozzle, it is easy to produce a torch that can obtain a high calorific value from the flame There is.

In addition, there is also an object to provide a torch equipped with an environmentally friendly vaporizer that can reduce the air pollution due to incomplete combustion during the initial ignition by minimizing the incomplete combustion of the flame during the initial ignition.

In addition, by completely burning the unburned gas contained in the flame during the initial ignition within a short time to maximize the stabilization time of the flame after the initial ignition, there is also an effect that can be used quickly while preventing the waste of gas.

In addition, there is also an object to provide a torch equipped with an environmentally friendly vaporizer to re-heat the generated flame to prevent the emission of air pollutants into the atmosphere due to unburned.

In addition, it is also possible to provide a torch having excellent flame stability by preventing incomplete combustion even when the liquefied butane gas cylinder is used upside down.

In addition, it is possible to provide an excellent torch with safety that can prevent burns and fire accidents caused by conduction heat conducted to the gas supply pipe in the process of using the torch.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the present invention from this description. Therefore, the scope of the present invention should be construed by the claims described to include many such variations.

Claims (10)

A main body 1 including a gas supply pipe 11 connected to the liquefied butane gas cylinder 4 and including a control valve 12 for adjusting the opening and closing degree of the gas supply pipe 11, and supply of the gas supply pipe 11. A torch composed of a vaporizer 2 which is connected to an end and produces a flame through the ignition of the ignition means 3 as the gas is ejected; The vaporizer 2, And a nozzle (24) including gas supply pipes (11) and ejection holes (241) on both sides thereof, and a connecting body (21) including a gas passage (211) provided with a vaporization chamber (212) in the space therebetween. When gas passes through the vaporization chamber 212, the gas flow gap 23 is formed to be circumferentially and laterally formed so that gas flows from the gas supply pipe 11 to vaporize the nozzle ( Evaporator 22 to be ejected to the blowing hole 241 of 24, and A flame generating tube 25 which is wrapped around the circumference of the connection body 21 and protrudes in a gas ejection direction and has at least one air inlet hole 251 formed therein; Torch equipped with a high-heat carburetor, characterized in that consisting of. The torch with a high thermal power vaporizer according to claim 1, wherein the gas supply cross-sectional area of the gas supply pipe 11 is larger than the gas ejection cross-sectional area of the ejection hole 241 provided in the nozzle 24. . The circumference of the other side of the connecting body 21, At least one red hot rod 26 is further provided to protrude in the direction of gas ejection to conduct heat to the connecting body 21 when generating a flame, thereby raising the temperature of the vaporization chamber 212 quickly. Torch with fire carburetor. The method of claim 2, wherein the glowing bar 26, Torch with a high thermal power vaporizer, characterized in that one side is fixed to the inside of the connecting body 21 to improve the thermal conductivity. The heat sink 26 according to claim 3 or 4, The torch is provided with a plurality of high-power carburetor, characterized in that provided at equal intervals to completely burn the unburned gas of the flame. The method according to any one of claims 1 to 4, The inner diameter is larger than the outer diameter of the gas supply pipe between one side of the main body 1 and the other side of the connecting body 21 to prevent heat conducted to the gas supply pipe 11 from being discharged to the outside. A torch having a high thermal power vaporizer, characterized in that a heat shield pipe (5) is further provided between the outer surface and the inner surface of the gas supply pipe (11) having an air heat shield space (51). The method of claim 6, wherein the heat shield tube 5, High thermal power carburetor, characterized in that the coil spring pipe 52 is configured to be firmly fixed by increasing the adhesion of both ends on one side of the body 1 and the other side of the connecting body 21 while increasing the thermal barrier effect Equipped torch. The method according to any one of claims 1 to 4, wherein around the gas supply pipe (11) on the other side of the connector (21) reduces conduction of heat conducted from the connector (21) to the gas supply pipe (11). Torch with a high thermal power vaporizer, characterized in that it is further provided with a peripheral recessed groove (6) recessed inward. The method of claim 8, wherein the heat conducted to the gas supply pipe 11 between the one side of the main body 1 and the inner side of the peripheral recessed groove 6 formed around the other side of the connecting body 21 The heat shield tube 7 further includes an air heat shield space 71 between the outer surface and the inner surface of the gas supply pipe 11 so that the inner diameter is larger than the outer diameter of the gas supply pipe so as to prevent the gas from being discharged to the outside. It is; One side of the heat shield tube (7) is provided with a torch with a high thermal power vaporizer, characterized in that the space is fixed so as to reduce the heat conduction inside and outside of the peripheral recessed groove (6). The heat shield tube (7) according to claim 9, Consists of a coil spring tube 72 so as to increase the thermal barrier effect and firmly fixed by increasing the adhesion of both ends to the inner surface of the peripheral recessed groove 6 formed in one side of the body 1 and the connecting body 21. Torch equipped with a high-heat carburetor, characterized in that.

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