WO2007126137A1 - Flame injection device - Google Patents

Abstract

A flame injection device comprising a flame injector, an air blowing pipe surrounding the flame injector and extending forward from a blower blowing oxygen-containing gas, and an air baffle plate, wherein the combustion efficiency of fuel supplied to the flame injector and a flame temperature injected from the flame injector should be increased. For the above purposes, a turbulent vortex flow generating annular plate, having an inner diameter larger than the outer diameter at a fourth position of the flame but smaller than the tip end opening diameter of the air blowing pipe, and having an outer diameter smaller than the tip end diameter (φ2) of the air blowing pipe when the fourth position is at or behind the tip end position of the air blowing pipe, or an outer diameter smaller than, equal to or larger than the diameter (φ2) when the fourth position is ahead of the tip end position of the air blowing pipe, is disposed concentrically with the flame at the fourth position between the tip end position of the flame injection nozzle of the flame injector and the tip end position of the inner flame of the flame injected from the flame injector.

Description

 Flame injection device

Technical field

 The present invention is such that fuel is supplied from a fuel source and a flame injection nozzle is provided at the front end.

From the installed flame injector and the feed that sends gas with a gas containing wisteria or ^ *, the above Είλ: surrounds the flame injector and is concentric with the axis of the above-mentioned flame injection nozzle Extended forward

The flame blower nozzle and the through-holes are circular, and the upper flame flame nozzle is located at the fifth position near the flame tftlt nozzle. A flame-cutting plate that is arranged concentrically with the axis of the nozzle flame so as to be orthogonal to the axis, and is configured to inject a flame from the upper neck flame injection nozzle, The position of the extended end of the pipe is the above-mentioned third position between ¾λ: the first position of the tip of the flame injection nozzle and the second position of the tip of the inner flame of the above-mentioned flame flame, The present invention relates to a flame injection apparatus in which the diameter of the opening at the extended end of the pipe is set to a diameter φ 2 larger than ^ 2 φ 1 at the second standing end of the inner flame of the above-mentioned flame.

Background art

Conventionally, the fuel F force S is supplied from the fuel source through the fuel pipe 12 as shown in FIGS. 22, 23, and 24, and a flame injection nozzle 13 is attached to the front end. The flame injector 1 1 and the flame injection nozzle 1 3 are surrounded by the flame injector 1 1 from the gas jet (Fig. ^ ¾rf) that sends out the gas G containing firewood or wisteria. A blow pipe 21 extending concentrically forward, a circular shape having a through-hole, and a flame at a fifth position on the tip of the flame injection nozzle 1 3 of the flame Pgtt device 1 1 It is arranged concentrically with the axis of the flame injection nozzle 1 3 so that it is perpendicular to the axis of the injection nozzle 1 3! It has a translating plate 4 1, and from the feed, an acid-containing gas G is introduced into the blower pipe 2 1 in a state of air flow. Supply G fuel 1 from the fuel source to the flame injector 1 1 through the flue 1 2 while G is being sent forward through the blower pipe 2 1 and the wind cut plate 4 1 By injecting the fuel F into the state from the flame fttt nozzle 1 3 of the flame injector 1 1, and igniting the fuel F in that state, the flame injection nozzle 1 3 force forwards the internal flame Flame B, which has a shape of b 1 and a temperature 2 higher than that and expands as it goes forward, is injected, and the position of the extended end of the blow pipe 21 is set to the flame injector 1 1 flame injection nozzle 1 1st standing position at the tip of P 1 force, flame injection nozzle 1 3 force and so on! ^ Flame B inner flame b 1 tip second position up to P 2 The third end position P3 between them, and the diameter of the opening at the extended end of the blower pipe 2 1 is the flame from the flame Rftlt Nozure 1 3 B at the second standing P 2 at the tip of the B internal flame b 1 Flame injection instrumentation ΪΜ is proposed that has a larger diameter phi 2 than 1.

 In FIG. 22, the third installation P 3, which is the erection of the blower pipe 21, is set to the first position の 1 at the tip of the flame ¾ # ί NOZONO 13 and the position of the wind-cut plate 41. Figure 5 shows the age of a fifth position を 5 as the back of the third position Ρ3.Figure 23 shows the same third position Ρ3 as the first position Ρ1 and the flame 内 inner flame b The second position P 2 at the tip of 1 is positioned between the second position P 2 and the fifth position P 5, which is the position of the wind cutting plate 41, is located in front of the third position P 3: ^ 4 is the same third {the standing position P 3 is set to the same second position P 2 and the fifth position P 5 which is the position of the wind-cut plate 41 is set to the front of the third position P 3. ! Illustrate / / Ru respectively! /

The flame P fired gM is the flame injection nozzle 1 in the flame injector 1 1 and the I * fire of the fuel K in the K state, and the acid from the fuel source to the fuel pipe 12 ^ Gas. The flow of the flow rate ^^ The flow rate is polished and the third position P3, which is the position of the extended end of the blow pipe 2 1 is set to the flame P nozzle 1 1 The flame injection nozzle 1 1 The first standing position of the tip 3 P 1 Or the second position P2 side of the tip of flame B's inner flame b1, or the intermediate position between the first position P1 and the second position P2.

By adjusting the diameter 2, which is the diameter of the opening of the extended end of the blower pipe 1, as a pre-adjustment, the shape of the flame B and the as of the flame I injected from the flame injection nozzle 1 3 of the flame injector 1 1 For example, as a flame injection device itself, W 200

 3 Widely used in force.

 As a result, the flame injector 11 1 flames → Noznore 1 3 to Ptlti "flame flame shape and pre-fired It is widely used, but flame orchid nozzle 1 3 is fired from lii "flame B's inner flame b 1 and flame B's« b 2 also during flame injection Nozure 1 3 A small part of the fuel F in the stale state does not become the flame B but is mixed in the flame B as the unburned construction material in the crane state, and the partial power of the unburned fuel in the crane state S flame B It remains in the state and unburned

The other part of the Mi charge sflame It is undeniable that it is in the state of «rT from the flame B to the flame outside. Therefore, the combustion efficacy of the fuel F is low S! Along with / ヽ, flame B has the disadvantage of low! / ヽ.

 Therefore, the present invention proposes a novel flame injection device that can avoid the above-mentioned drawbacks. Disclosure of the invention

Motohara Fuji The flame tfttt device according to the first aspect of the invention includes a flame P sprayer and a wisteria or spear that is supplied with fuel from a fuel source and is equipped with a flame injection nozzle at the front end! It consists of gas »^ A blower that sends out a gas, surrounds the above-mentioned flame injector, a blower pipe extending concentrically forward with the axis of the flame injection nozzle, and a circle with a through hole Concentrated with the axis of the above-mentioned flame injection nozzle so as to be perpendicular to the axis of the above-mentioned flame injection nozzle at the fifth position near the flame injection nozzle of the above-mentioned flame injection nozzle. A flame cutting nozzle, and a flame is injected from the flame injection nozzle. The position of the extended end of the blower pipe is changed from the first position of the tip of the flame injection nozzle. The above-mentioned extension of the above-mentioned feeding rod is used as the third rod position between the tip of the flame flame and the second position. In the flame flame device, the diameter of the opening of the flame is set to a diameter Φ 2 larger than φ 1 at the position corresponding to the second standing position of the tip of the flame flame, The fourth position between the first position of the tip of the tip and the second position of the tip of the upper flame ¾> the flame has an inner diameter φ3 that is larger than the female at the fourth position but smaller than the diameter φ2 of the tip opening of the air duct, and the fourth position is at the fourth position. 3 has an outer diameter Φ 4 smaller than the diameter ψ 2 of the front end opening of the blower pipe, which is at or near the position 3 or behind the third position, but the fourth position is the third position. The front of the position: ^^ Turbulent vortex microcircular with Φ 4 that is smaller than the diameter ψ 2 of the tip opening of the blast pipe or equal to the diameter φ 2 or larger than the diameter φ 2 « However, the plate surface is placed on a plane perpendicular to the axis of the upper vagina flame and is arranged concentrically with the upper vagina flame.

The flame injection device according to the second invention of the present application is a flame pitt device in which fuel is supplied from a fuel source and a flame injection nozzle is mounted at the front end thereof, or an acid-aged gas comprising gas containing From the feed that sends out the gas, it surrounds the above-mentioned flame injector, and the upper ff flame injection nozzle is concentric with the axis of the nozzle, and has a through-hole and a circular shape. ¾ and ¾λ: Flame injector Nozz 'nore's tip of flame injector に e a に flame p ィA flame cutting plate arranged concentrically with the axis of the injection nozzle so that a flame is injected from the flame soot nozzle, and the position of the extended end of the blow pipe is set to the position of the flame injection nozzle. The third fan is placed between the first position of the tip and the second position of the top end of the internal flame of the upper flame. In the flame injection apparatus in which the diameter of the opening at the end is set to a diameter φ 2 larger than the diameter φ 1 at the second standing end of the above-mentioned flame inner flame, The first position of the tip of the air is close to the tip of the blower tube in the fifth position of the wind-cut plate, and the second position of the tip of the internal flame of the upper flaming flame from the sixth position. A first opening end having an inner diameter φ 3 1 smaller than the diameter φ 2 of the tip opening of the blower pipe and a larger diameter than the inner diameter ψ 3 1 And a turbulent flow generating fine circle having a second open end having an inner diameter Φ 3 2 larger than 舰 φ 1 at a position corresponding to the second position of the upper flame. The soot cylinder has the above-mentioned second opening end in front of the above-mentioned flame injection rule and the above-mentioned first opening end in the above-mentioned fourth position. Concentric with axis It is arranged. W 200

 5 The flame «t device according to the third invention of the present application is such that a fuel is supplied from a fuel source and a flame spray nozzle is attached to the front tip, and a gas containing ^^ or From the feed that sends out the acid-refractory gas consisting of the above, surrounding the upper flame flame injector, above 5 ^ flame jet, extending forward concentrically with the nozzle axis, the air blow pipe, and the through hole ¾A: Flame injector flame Noz, tip of the nozzle at the fifth position near the tip of the nozzle, so as to be perpendicular to the axis of the flame injection nozzle. A flame cutting nozzle is arranged concentrically with the axis of the flame injection nozzle, and the flame power S is injected from the flame injection nozzle, and the position of the extended end of the blow pipe is Flame ¾tt The third position between the first position of the nozzle tip and the second position of the flame inner flame tip, and The diameter of the opening at the long end is set to a diameter φ 2 larger than よ り 1 at the second position of the tip of the inner flame of the above-mentioned flame! The first position of the upper nozzle of the jet nozzle is separated from the tip of the blow pipe in the fifth position of the wind plate, and the inner flame of the upper flame is detected from the sixth position. A cylindrical body having a large inner diameter φ 61 that is smaller than the diameter φ 2 of the tip opening of the blower pipe, and the inner diameter at the fourth position between the tip and the second position; A first open end having an inner diameter φ 7 1 equal to Φ 6 1, and an inner diameter larger than the inner diameter φ 7 1 and larger than 圣 Ψ 1 in the second position of the above-mentioned flame d 1) d) 7 2 A turbulent vortex tubular body concentrically connected to a conical cylindrical body or a circular cylindrical body having a second open end having the above-mentioned conical cylindrical body or circular cylindrical body Flame injection Nozuno The opposite side of the W-law With the opening end of the cylindrical body opposite to the conical cylindrical body or the circular cylindrical body side being the fourth position, it is arranged concentrically with the axis of the upper flame P nozzle. Les.

Flame according to the fourth invention of this application! The apparatus includes a flame injector that is supplied with fuel from a fuel source and is equipped with a flame injection nozzle at the front end thereof, and a feeder that delivers acid-hazardous gas composed of gas containing soot or soot. Surrounding the above-mentioned flame injector, the above-mentioned flame flame P 蕭 extends forward and concentrically with the nozzle shaft, and has a circular fan shape with a through-hole and a through hole. IB ^ Nozzle of the flame injector, 5th position near the tip of the nozzle, the upper flame flame perpendicular to the axis of the flame injection nozzle With a plate Flame is injected from the flame injection nozzle, and the position of the extended end of the blow pipe is moved from the first position of the tip of the flame injection nozzle to the second position of the tip of the flame inner flame. The diameter of the opening at the extension end of the third ({i, and above feed) ¾ is larger than ^ ¾φ 1 at the position corresponding to the second position of the tip of the internal flame In a flame t * spraying device with a diameter of ψ 2, the first position of the tip of the upper flame injection nozzle of the upper flame is close to the tip of the blow pipe in the fifth position of the wind-cut plate. In the fourth position between the sixth position and the second position of the tip of the inner flame of the flame, the large diameter is smaller than the diameter φ 2 of the tip opening of the blow pipe. A first opening end having 1 0 1 and a second opening having an inner diameter φ 1 0 2 larger than the inner diameter φ 1 0 1 and larger than φ 1 at the second position of the above-mentioned soot flame A first conical cylindrical body having a first end or a first circular cylindrical body, a first open end having an inner diameter φ 3 1 ′ equal to the inner diameter φ 1 0 2, and the inner diameter φ 3 1 ′ A second circular rod or second having a third open end having an inner diameter φ 3 2 ′ larger than ^^ φ 1 in the second standing position of the above-mentioned flame The fluctuating turbulent flow is concentrically connected to the second circular cylinder or the second circular cylinder. An upper flame spray nozzle in front of the injection nose rule and with the first open end of the first conical cylindrical body or the first circular cylindrical body as the fourth position. It is arranged concentrically with the axis.

 According to the flame injection device of the present invention, a turbulent flow of acid-rich gas is generated around the flame, and the partial force of the turbulent flow is combined in the S flame, contributing to the flame formation of the unburnt material in the flame. In addition, the turbulent vortex suppresses the unburned building material in the flame from turning out of the flame. Brief Description of Drawings

 FIG. 1 is a schematic diagram showing a first embodiment of a flame injection device according to the present invention.

 FIG. 2 is a fountain diagram showing a second column of the flame injection device according to the present invention.

 FIG. 3 is a side view showing a third example of the flame injection device according to the present invention.

FIG. 4 is a schematic diagram showing a fourth difficult example of the flame injection device according to the present invention. FIG. 5 is a side view showing a fifth embodiment of the flame injection device according to the present invention. FIG. 6 is a schematic diagram showing a sixth embodiment of the flame injection device according to the present invention. FIG. 7 is a schematic diagram showing a seventh example of the flame injection device according to the present invention. FIG. 8 is a side view showing an eighth embodiment of flame refractory placement according to the present invention. FIG. 9 is a fountain diagram showing a ninth example of the flame injection device according to the present invention. FIG. 10 is a fountain diagram showing a tenth difficult example of the flame example W apparatus according to the present invention. FIG. 11 is a schematic diagram showing a first example of a flame injection device according to the present invention. FIG. 12 is a B fountain diagram showing a first or second embodiment of the flame injection apparatus according to the present invention. FIG. 13 is a schematic diagram showing a first example of the flame injection device according to the present invention. FIG. 14 is a schematic diagram showing a 14th embodiment of the flame injection device according to the present invention. FIG. 15 is a side view showing a fifteenth embodiment of the flame injection apparatus according to the present invention. FIG. 16 is a side view showing a sixteenth embodiment of the flame injection apparatus according to the present invention. FIG. 17 is a schematic diagram showing a 17th embodiment of the flame injection apparatus according to the present invention. FIG. 18 is a schematic diagram showing the eighteenth embodiment of the flame injection device according to the present invention. FIG. 19 is a side view showing a nineteenth embodiment of the flame injection apparatus according to the present invention. FIG. 20 is a side view showing a 20th example of the flame injection device according to the present invention. FIG. 21 is a schematic diagram showing a second example of the flame injection device according to the present invention. FIG. 22 is a schematic diagram showing an example of a conventional flame injection device.

FIG. 23 is a schematic diagram showing another example of a conventional flame injection device.

FIG. 24 is a schematic diagram showing still another example of the conventional flame plt device. BEST MODE FOR CARRYING OUT THE INVENTION

Narrow row 1

Next, referring to FIG. 1, a first difficult example of the flame plow apparatus according to the present invention will be described. In FIG. 1, portions corresponding to those in FIG. The first example of the flame injector by this effort is the conventional flame injector shown in Fig. 22.

As with the age of M, the fuel source rn rt) is a fuel injector 1 1 which is supplied with fuel F force S via a fuel pipe 1 2 and is equipped with a flame injection nozzle 1 3 at the front end. , ^^ or ^^ consisting of a gas containing wisteria ^^ sending gas G (from figure ^, surrounding flame injector 1 1 and extending forward concentrically with the axis of flame injection nozzle 1 3 Blowing pipe 2 1 which has a through hole and a circular shape, and flame Rftti device 1 1 Flame P Corrosion Nozure 1 3 Flame near fifth end P 5 It has a wind-cut plate that is arranged concentrically with the axis of the flame injection nozzle 1 3 so as to be orthogonal to the axis of the injection nozzle 1 3. In the state in which the aged gas G is introduced in the state of air flow and the acid-containing gas G is sent forward through the blow pipe 21 and the wind cut plate 41, the fuel is supplied from the fuel source to the flame injector 11. F fuel pipe 1 2 through the fuel injection nozzle 13 of the flame injector 1 1, the fuel F is ejected to the ¾ ^ state, and the point to the fuel F in that state is Flame injection nozzle 1 3 force, flame B having a shape consisting of the inner flame b 1 and a higher temperature ^^ b 2 and expanding greatly toward the front is made to be injected forward, and The vertical end of the blower tube 2 1 is set up, the flame injection nozzle 1 1 from the first position P 1 at the tip of the flame injection nozzle 1 1, the flame injection nozzle 1 3 force, and the flame B flame b Set the third position P3 between the first position of P1 up to the second position P2, and set the third position P3 to flame. The diameter of the opening at the extended end of the blow pipe 2 1 is set as the standing flame 1 and the second (at the standing P 2 at the tip of the flame b 1 which is injected from the flame jet nozzle 1 3径 φ 2 larger than φ 1 Together and has a structure that the backward Tatsu置 P 5 of the fifth Kazesetsuban 4 1 than the first position P 1 of the tip of the flame injection nozzle 'Honoré 1 3.

In the first embodiment of the flame injection device according to the present invention, in the above-described formation, the first position P 1 of the tip of the flame injection nozzle 13 and the fifth position P of the wind-cut plate 41 are used. 6th position close to the tip of the blast pipe 2 1 in 5 (Fig. ^ Rf) Force, 4th position P 4 between the flame B inner flame b 2nd position P 2 of the tip of 1そ の in its fourth position P4, flame B in the fourth position P4 (Fig. -f) has an inner diameter φ3 smaller than the diameter φ2 of the tip opening of the blower tube 21 and 圣 Φ4 smaller than the diameter ψ2 of the tip opening of the blower tube 21. The turbulent turbulence generated by ffl circle 纖 3 1, which lies on a plane perpendicular to the axis of flame B, is arranged concentrically with flame B. The above is the configuration of the first embodiment of the flame injection device according to the present invention.

According to the embodiment of the flame injection device according to the present invention having such a configuration, as in the age of the conventional flame injection difficulty shown in FIG. Flame at position Ρ 3 Flame shooter 1 1 Flame Bt shoot nosfre 1 Fuel at the 1st position P 1 at the tip of 3 Adjust the injection amount of F, and the amount of oxygen gas G from the fuel source to the flow rate of G 2 and the flow rate of the gas, and the diameter of φ 2 that is the diameter of the opening of the extension end of the blow pipe 21 By making adjustments in advance, it is possible to make adjustments in advance to the shape of the flame B that is sprayed from the flame injection nozzle 1 3 of the flame injector 1 1, for example, for the flame equipment itself and for boilers and boilers. By the way, the flame injection device according to the present invention of the first embodiment of the flame injection device, ^, flame P 賁 nosunre 1 3 The first position P 1 of the tip and the fifth position P 1 of the wind cutting plate 41 The second position of the tip of the inner flame b 1 from the sixth position to the tip of the blow pipe 21 in the P 5 from the sixth position The position between P 2 is the fourth position P 4, and the turbulent vortex 3 1 force is obtained at the fourth position P 4, so the inside of the blow pipe 2 1 and the wind cut plate 4 The acid total gas G that is sent forward through 1 is interrupted by the plate part 3 2 of the turbulent vortex 3 1 and forms the inner diameter φ 3 of the turbulent vortex 3 1 Between the inner surface of the hole 3 3 and the outer surface of the flame injector 1 1 and the outer surface of the flame injector 1 1, the outer surface of the tongue L vortex flow ^ ffl circle 3 1 and the inner surface of the air duct 2 1 For this reason, the negative pressure of the gas G is generated in front of the back side of the turbulent vortex 3 1, so that the gas G is transferred to the flame injection nozzle 1 3. Of the circular plate for generating turbulent flow 3 1 in front of the first position P 1 which is the position of the tip At the front side of the surface side, turbulent vortex flow E is sent out forward, and ^^ gas G that becomes turbulent vortex flow E is injected from the flame injection nozzle 1 3 of the flame injector 1 1. It works with fuel F in the nourishment state. Incidentally, in the case of the conventional flame injection device M described above with reference to Fig. 2 2, since the turbulent flow generating annular plate 3 1 is not arranged, ^^ gas G is the tip of the flame ¾t † nozzle 1 3 The first position P 1, which is the position of the turbulent flow, is moved forward in a steady flow, and then the turbulent flow becomes the tongue I ^, and is sent forward in a steady flow. Gas G Force S Flame Injector 1 1 Flame Injector Nozzle 1 Only interacts with fuel F, which is in a state of low pressure from 3

 From the above, in the first example of the flame injection device according to the present invention: ^, 酉 gas G is injected from the flame injection nozzle 1 3 of the flame injector 1 1! «| In addition, the turbulent vortices 3 1 force is effective compared to the age of the conventional flame injection device M, which is accompanied by Fig. 22.

 For this reason, the flame injection nos, No. 1 3 force, etc. are fired (^ Κϋ fuel F force S, flame << flame No. 1 3 Almost no fuel remains in the mixed state as a fuel, or even if it remains, it is not much less than the conventional flame 1 «trimmed SM: ^ ¾6 with Fig. 2 2 and , Fuel F force Flame B From flame B to outside of the flame B as a reminder, or even «cf ', even compared to the age of the conventional flame injector SM Remarkably less force «· ¾τΤ, therefore, fuel F can be burned at a higher rate and flame B compared to the conventional flame injection: ^ It is possible to obtain the action and effect that “Iti can be sprayed at a high level”. Embodiment 2

 Next, with reference to FIG. 2, a second example of a flame injector according to the present invention will be described.

 In FIG. 2, the same reference numerals are given to the portions corresponding to FIG.

In the second embodiment of the flame injection device M according to the present invention, the fifth position P 5 of the wind cutting plate 41 is set behind the first position P 1 of the tip of the flame injection nozzle 13. Instead of the forward and turbulent turbulence ^ ffl circle rebound 3 1 force ¾ the 4th ί 己 4 is the first position that is the position of the tip of the flame ift shoot nose 1 3 Instead of P 1, wind cutting board 4 1 5th position P 5 and flame B internal flame b 1 Except that it is positioned as a position between the second position P 2 that is the position of the tip of the flame, the same configuration as that of the first implementation of the flame if firing according to the invention shown in FIG. Have.

 The above is the configuration of the second embodiment of the flame injection device M according to the present invention.

 According to the second embodiment of the flame injection device MM according to the present invention having such a configuration, it is shown in FIG. 1 except that it is 1 "^: flame according to the invention [> Since it has the same configuration as ^, detailed description is omitted, but the same operation and effect as the flame injector S according to the present invention shown in Fig. 1 can be obtained.

 Next, with reference to FIG. 3, a third embodiment of the flame injection device according to the present invention will be described.

 In FIG. 3, parts corresponding to those in FIG.

 The third male example of the flame injection device according to the present invention is that the turbulent flow generating circular rod 3 1 force ψ 4 is changed to be smaller than the diameter φ 2 of the front end opening of the blower tube 21, and 2 has the same configuration as: ^ in the second embodiment of the flame injector SM according to the invention, except that it is larger than the diameter Φ 2 of the tip opening of FIG.

 The above is the configuration of the third embodiment of the flame injector g according to the present invention.

 According to the third embodiment of the flame injection device gM according to the present invention having such a configuration, it has the same configuration as that of the flame injection device according to the invention shown in FIG. Although detailed explanation is omitted, the second of the flame injection device gM according to the invention shown in FIG. In the example: The same effect as ^ can be obtained. Example 4

 Next, referring to FIG. 4, a fourth difficult example of the flame B flame apparatus according to the present invention will be described.

In FIG. 4, parts corresponding to those in FIG. The fourth embodiment of the flame injector SM according to the present invention is configured such that the fourth position P 4 where the turbulent flow generating circle 31 is disposed, the fifth position P 5 of the wind-cut plate 41 and the flame Instead of the position between the second position P 2 which is the position of the tip of the inner flame b 1 of B, the second position P 2 is the position of the tip of the inner flame b 1 of the flame B 3 has the same configuration as that of the first example of the flame injection apparatus according to the invention shown in FIG.

 The above is the configuration of the fourth third row of the flame injection device according to the present invention.

 According to the fourth embodiment of the flame injection device M of the present invention having such a configuration, it has the same configuration as the flame injection device SM shown in FIG. Therefore, although detailed explanation is omitted, the first of the flame injection apparatus according to the present invention shown in FIG. The same effects as in the embodiment can be obtained. Example 5

 Next, a fifth embodiment of the flame injection device according to the present invention will be described with reference to FIG.

 In FIG. 5, parts corresponding to those in FIG.

 In the fifth embodiment of the flame injector SM according to the present invention, instead of making the diameter φ 4 of the turbulent vortex generating circle 謹 3 1 larger than the diameter φ 2 of the tip opening of the blast pipe 21, Except that it is smaller than the diameter φ 2 of the tip opening of the tube 21, it has the same configuration as the age of the fourth orchid row of the flame injection device gM according to the present invention shown in FIG.

 The above is the configuration of the fifth example of the flame injection device according to the present invention.

According to the fifth example of the flame injection device VI according to the present invention having such a configuration, the configuration similar to the age of the flame soot shown in FIG. Therefore, although detailed explanation is omitted, it is shown in Fig. 4 by adjusting φ4 of the vortex vortex 3 1 in advance so that it is not so small as the differential force S from the inner diameter φ2. The effect similar to that of: ^ in the fourth male example of flame injection gM according to the invention is obtained. Example θ

 Next, a sixth embodiment of the flame injection device according to the present invention will be described with reference to FIG.

 In FIG. 6, parts corresponding to those in FIG. 23 are given the same reference numerals.

In the sixth embodiment of the flame injection device に よ る according to the present invention, the fifth position Ρ 5 of the wind cutting plate 41 is replaced with the front of the first position Ρ 1 at the tip of the flame injection nozzle 13. The first position 後方 1 is the rear side of the conventional flame injection device, except that it has a structure similar to the age of the 噴射 Μ in Fig. 23, and shown in Fig. 1. As with ¾ ^ in the first example of flame injection gM according to the invention, flame! ¹ Appropriate device 1 1 Flame injection nozzle 1 1 The first position P 1 which is the position of the tip of the flame 3 From the first position P 1 of the flame injection nozzle 1 3 The flame B internal flame b 1 tip The fourth position P 4 between the second position P 2 and the fourth position P 4 of the second position P 4 of the flame B at the fourth position P 4 is also a large pipe 2 1 Turbulent vortex flow circle 3 1 force having an inner diameter φ 3 smaller than the diameter φ 2 of the tip opening of the air pipe and ^ ¾φ 4 smaller than the diameter Φ 2 of the tip opening of the blower tube 21 1 Located on a plane perpendicular to the axis of the flame, it is arranged concentrically with the flame spear.

 The above is the configuration of the sixth embodiment of the flame injector SM according to the present invention.

 According to the sixth embodiment of the flame injection device according to the present invention having such a configuration, as in the conventional flame injection device MM shown in FIG. 3rd position standing P3, flame 1¾ gun 1 1 flame tft gunnos, / 1st tip of 3 1 P 1 and flame 内 inner flame b 1 tip In the state between the second position P 2 and the second position P 2, the flame injection nozzle 1 3 in the flame injector 1 1, the fuel F in the crane state 1 1 By adjusting the diameter Φ 2 which is the diameter of the opening of the extension end of the blow pipe 2 1 as a pre-adjustment, the flow of M gas G from the funnel source to the stagnation 1 2 The shape of the flame B injected from the flame injection nozzle 13 of the flame injector 11 can be adjusted in advance, and can be widely used, for example, as a flame injector itself and for a power boiler.

By the way, the sixth example of the flame injection expansion according to the present invention is as follows: According to the first embodiment of the flame gM: In the same way as the flame injector 1 1 the flame injection nozzle 1 1 the tip position of the tip 3 P 1, the flame injection nozzle 1 3 tip of the tip The fourth position P 4 between position P 1 and the inner flame b 1 of the flame B to the second position P 2 at the tip of the flame 1 is the circular plate for generating turbulent flow at the fourth position P 4. 3 1 is selfish, so as shown in Fig. 1, as in the first difficult example of the flame spraying g according to the invention, it is sent forward through the blower pipe 2 1 and through the wind cut plate 4 1 The gas G is blocked by the plate 3 2 of the turbulent vortex 3 1 and the inner surface of the hole 3 3 forming the inner diameter φ 3 of the turbulent vortex 3 1 It passes between the outer peripheral surface of the flame jet nozzle 1 of the flame injector 1 1 and between the outer peripheral surface of the turbulent vortex flow ^ ffl circle ¾3 1 and the inner surface of the blower pipe 21. For this reason, as in the first example of the flame injector according to the 1 "^ invention shown in Fig. 1, the negative pressure of the oxygen-containing gas G is generated in front of the back side of the turbulent vortex ring plate 31. Therefore, ^^ gas G is ahead of the first position P 1 which is the tip of the flame injection nozzle 1 3, turbulent vortex flow 3 1 E is sent forward, and then the turbulent flow E becomes a gas G, which is fired from the flame injector 1 1 flame P 賁 Nozonre 1 3 P! Used for fuel F.

 By the way, with Fig. 23, ± ¾! The conventional flame jet butterfly ¾M: ^ also has a circular flame plate 3 1 for turbulent flow generation as shown in Fig. 2 ^^ Gas G is sent forward in a steady flow that is not a turbulent flow or a tongue L flow, in front of the first position P 1 that is the position of the tip of the flame injection nozzle 1 3, and Such constant and severe acid gas O gas G force S flame injector 1 The flame spray nozzle 1 1 of the jet sprayed from the spray jet 1 3 is just acting with the atomized fuel F.

 From the above, in the sixth embodiment of the flame injection apparatus according to the present invention, the acid ^^ gas G is applied to the fuel F in the P 麵 state injected from the flame injection nozzle 13 of the flame P device 11. This is more effective than the conventional flame sprayer described above with reference to Fig. 23.

For this reason, the fuel F in the ¾ ^ state injected from the flame injection nozzle 1 3 becomes the flame injection nozzle 1 «""From flame 3 in the flame B which does not become flame B but remains almost unburned as a raw material. GM: not much less than ¾ ^, and also the fuel F force S, flame B to the flame B outside the flame B is almost m¾ , »Even if the conventional flame with Fig. 2 3! Ftlt gM ¾1 remarkably less force« iirf, therefore, with the conventional flame 装Compared with ®M, the fuel F can be burned with high efficiency, and the flame B can be injected with high as IT. Example 7

 Next, with reference to FIG. 7, a seventh example of the flame injection device according to the present invention will be described.

 In FIG. 7, parts corresponding to those in FIG. 6 are given the same reference numerals.

 In the seventh embodiment of the flame injection device M according to the present invention, the fifth position P 5 of the wind cutting plate 41 is set as the rear of the first position P 1 which is the position of the tip of the flame injection nozzle 13. Instead of the first position P 1 and the fourth position P 4 of the turbulent vortex generating circle 31, the fourth position P of the flame ¾ t † g of the present invention shown in FIG. In the same way as ^ in the second embodiment, instead of the first position P 1 which is the position of the tip of the flame injection nozzle 1 3, the fifth position P 5 of the wind-cut plate 4 1 and the flame B As shown in Fig. 6, the flame injection device according to the sixth embodiment of the flame injection device «位置 shown in Fig. 6 is a position between the second position P 2 which is the position of the tip of the flame b 1 It has the same configuration as.

 The above is the key to the seventh embodiment of the flame P firing gM according to the present invention.

According to the seventh example of the flame injection device according to the present invention having such a structure, the sixth example of the flame jet gM according to the invention of the forest shown in FIG. Since it has the same configuration as the age of the difficult example, detailed description is omitted, but the same operation and effect as the flame injection device M according to the present invention shown in FIG. 6 can be obtained. Example 8 Next, an eighth embodiment of the flame soot apparatus according to the present invention will be described with reference to FIG.

 In FIG. 8, parts corresponding to those in FIG.

 The eighth embodiment of the flame injection device MM according to the present invention shows the ψ ψ 4 of the turbulent flow fine fiber 31 as shown in FIG. 3 1 "^: of the third embodiment of the flame injection device g according to the invention. As in the case of ^, except that the diameter is smaller than the diameter 2 of the front end opening of the blower tube 21, except that the diameter is larger than the diameter φ 2 of the front end opening of the airflow pipe 21. 7 has the same configuration as that of i ″ ^ in the seventh example of the flame injection device according to the invention.

 The above is the configuration of the seventh embodiment of the flame injector SM according to the present invention.

 According to the seventh embodiment of the flame injection device of the present invention having such a configuration, it is the same as that of the seventh example of the flame injection device © M shown in FIG. 7 except that it is _B6. The detailed explanation is omitted, but the turbulent flow generating circular plate 3 1-4 is adjusted in advance within a range that is not so large, so that the flame injection SM according to the invention shown in FIG. The same effects as those of the seventh embodiment can be obtained. Example 9

 Next, a ninth embodiment of the flame injection apparatus according to the present invention will be described with reference to FIG.

 In FIG. 9, parts corresponding to those in FIG.

 In the ninth embodiment of the flame injection device according to the present invention, the fourth position P 4 of the turbulent flow generating circular rod 31 is shown in FIG. 4, and the fourth male example of the flame orchid device according to the forest invention shown in FIG. Like: ^: As the position between the 5th position P5 of the windshield 4 1 and the second position P2 of the inner flame b1 of the flame B 1! / Instead of the second position P 2 that is the position of the inner flame b 1 of the flame B! /, Except that! / It has the same configuration as the sixth example: ^. The above is the configuration of the ninth embodiment of the flame injection apparatus M according to the present invention.

According to the ninth fe example of the flame injection device M according to the present invention having such a configuration, except for the spear that it did, the eighth male example of the flame injection device SM according to the present invention shown in FIG. 8: ^ And Since it has the same structure, detailed explanation is omitted, but the tongue is adjusted in advance within a range where 円 Φ 4 of the scalpel 3 1 for torrential flow generation is not so large. The same action and effect as the injection device can be obtained. Example 1 0

 Next, with reference to FIG. 10, a tenth embodiment of the flame injection device according to the present invention will be described. In FIG. 10, parts corresponding to those in FIG. 9 are given the same reference numerals.

 The 10th embodiment of the flame injection device M according to the present invention shows the outer diameter Φ 4 of the circular plate 31 for generating turbulent flow, and the fifth example of the flame injection device ¾M according to the present invention shown in FIG. In the same way as ^, except that it is larger than the diameter φ 2 of the tip opening of the blower tube 21, instead of being smaller than the diameter φ 2 of the tip opening of the blower tube 21, Fig. 9 shows the same structure as ^ in the ninth example of the flame injector according to the 1 "* invention.

 The above is the configuration of the tenth embodiment of the flame injection device gM according to the present invention.

 According to the tenth example of the flame injector SM according to the present invention having such a configuration, the above-described matters except for the above-described items are the ninth one of the flame injector M according to the present invention shown in FIG. Since the configuration is the same as in the case of the embodiment, detailed explanation is omitted, but the bottle φ4 of the turbulent vortex 3 1 is adjusted in advance within the range where the difference from the inner diameter ψ2 does not become so small. By providing the same, the same operation and effect as the ^ in the ninth example of the flame injection device gM according to the present invention shown in FIG. 9 can be obtained. Narrow row 1 1

 Next, with reference to FIG. 11, a first embodiment of the flame injection device according to the present invention will be described. Figure 1 in 1! / The pair | 5 minutes with Fig. 24 is shown with the same symbol.

In the first fi example of the flame injection device according to the present invention, the fifth position P 5 of the wind cutting plate 41 is replaced with the first position P 1 at the tip of the flame injection nozzle 13 as the front. Except that the first position P1 is behind the conventional flame injection device gM as shown in Fig. 24 :! Same configuration as ^ In the first embodiment of the flame P fitting gM according to the invention as shown in FIG. 1: As with tj ^, the first position of the tip of the flame injection nozzle 1 3 of the flame injector 1 1 The first position P 1 of the tip of the flame injection nozzle 1 3 is the fourth position P 4 between the first position P 1 of the flame injection nozzle 1 and the second position P 2 of the inner flame b 1 of the flame B 1. In the fourth position P 4, the flame B has a large droop at the fourth position P 4, but the diameter of the tip opening of the blower pipe 21 is 2 / J, and the inner diameter φ 3 And turbulent turbulence with a diameter of f f φ φ 4 smaller than the diameter φ 2 of the front end opening of the blow pipe 21 1 ffl circular repulsion 3 1 force The plate surface is perpendicular to the axis of the flame B On the surface, it is arranged concentrically with flame B.

 The above is the configuration of the first example of the flame injection device gM according to the present invention.

According to the first difficult example of the flame injection device according to the present invention having such a configuration, the position of the extended end of the blow pipe 21 is the same as that of the conventional flame injection device g shown in FIG. In the state where the third position P 3 is the second position P 2 which is the position of the tip of the inner flame b 1 of the flame B, the flame injection nose, the nore 1 3 force, etc. in the flame injector 1 1 , J fuel F injection ft ^ B injection ¾ adjustment fuel stagnation 1 Flow of oxygen-containing gas G from the fuel source to 2 Adjustment of flow velocity, diameter of the opening of the extension end of the blow pipe 2 1 By adjusting the diameter of φ 2 as a pre-adjustment, the pre-adjustment of the shape of the flame B injected from the flame injection nozzle 13 of the flame injector 11 is performed, for example, flame! Can be widely used as a ^single- fired MM itself, for cars, boilers, etc. By the way, the first embodiment of the flame injector gM according to the present invention is the same as that of the first embodiment of the flame injector g according to the 1 "* invention shown in FIG. The first position P 1 which is the position of the tip of the injection nozzle 1 3 is changed from the first position P 1 of the tip of the flame injection nozzle 1 3 to the second position P 2 of the inner flame b 1 of the flame B 1 The first position of the flame injection device g according to the present invention shown in FIG. 1 is set to the fourth position P4, and the fourth position P4 is the circular fiber for generating turbulent flow 3 1 In the same way as in the example, the oxygen-containing gas G to be sent forward through the blower pipe 21 and through the wind-cut plate 41 is blocked by the plate part 3 2 of the turbulent vortex 3 1 and turbulent vortex 3 1 The inner surface of the hole 3 forming the inner diameter φ 3 of 3 1 and the inner surface of the flame injector 3 1 and the outer surface of the flame injection nozzle 1 3 and the outer surface of the turbulent flow generation circle 3 1 And the inner surface of the air duct 2 1 And between. Therefore, as in the case of the first embodiment of the flame injection device gM according to the invention shown in Fig. 1, the negative pressure of the gas ^^ is generated in front of the back side of the turbulent flow generating annular plate 31. In this way, the turbulent vortex flow is generated in front of the back side of the turbulent vortex flow 3 1 in front of the first position P 1 which is the position of the tip of the gas G force flame injection nozzle 1 3. E is sent forward, and turbulent vortex E is generated in this way. «^ Gas G is a fuel in a crane state that is blown from the flame flame nozzle 1 1 of the flame B device 1 1 Acts.

 By the way, the conventional flame injector KM: ^ with Fig. 24 is also the same as the age of the conventional flame injector ± ¾6 with Fig. 22. Since S is not arranged, the oxygen-containing gas G is in front of the first position P 1 which is the tip of the flame injection nozzle 1 3 and is in front of the turbulent flow and steady flow that is not turbulent. Then, the gas with a constant acidity of such a constant G force S flame injector 1 1 flame injection nose, no fuel 1 ,.

 From the above, in the first embodiment of the flame injection device according to the present invention: ^, the gas G is P from the flame injection nozzle 1 3 of the flame injector 1 1 to the fuel F in a state where it is P 蕭. Turbulent vortex flow f ffl 赚 3 1 force ¾ Acts more effectively than the conventional flame injection device with unillustrated Fig. 24.

For this reason, the flame ¾tt nozzles 1 3 are injected! From the fuel injection flame nozzle 1 3 (from ftl flame B, it is not left as flame B but is mixed as unburned material, or even if it remains, it is accompanied by Fig. 24. It is not much less than the age of the conventional flame injection device that has been ± ¾fe. Also, it is almost not as unburned material from inside the fuel F power flame B to outside the flame B, or Wr. As compared with the conventional flame injection device with _ ζ with Fig. 24, the number of the conventional flame injection devices with a little less than ± ¾ϋ with Fig. 24 is obtained. Compared to ^^, fuel F can be burned with high efficiency, and flame B can be injected with high power. Bell tower 1 2

 Next, with reference to FIG. 12, a second embodiment of the flame injection device according to the present invention will be described. In FIG. 12, the same reference numerals are given to pairs corresponding to FIG.

 The first 2 »f row of the flame sprayer M according to the present invention is the fifth position P 5 of the windshield 4 1 at the first position P 1 which is the position of the tip of the flame injection nozzle 1 3. Instead of turning back as the rear, it is assumed that the first position P 1 is in front and the fourth position of the turbulent vortex divergence 3 1 is shown in FIG. As in the case of the second embodiment, the first position, which is the position of the front end of the flame injection nozzle 13, is used instead of the first position P 1 which is the position of the front end of the flame injection nozzle 13. Fig. 11 shows a flame injection device according to the invention shown in Fig. 11 except that it is placed between P 1 and the second position P 2 which is the position of the inner flame b 1 of flame B. The structure is similar to the age of the first example.

 The above is the configuration of the first and second embodiments of the flame injector M according to the present invention.

 According to the first embodiment of the flame injection device gM according to the present invention having such a configuration, it is shown in FIG. 1 1 except that it is 1 "^: the first of the flame injection device gM according to the invention 1 1 1 Since the configuration is the same as that of the first embodiment, detailed description is omitted, but the same effect as the first embodiment of the flame injection device according to the present invention shown in FIG. 11 can be obtained. Example 1 3

 Next, with reference to FIG. 13, a third embodiment of the flame shooting apparatus according to the present invention will be described. In Fig.13, the same reference numerals are attached to the parts ji ^ in Fig.12.

Fig. 13 Shown ^: Flame according to the invention Pftf † gM The first example of gM is the 4th position P 4 of the turbulent flow 3 1 and the 5th position of the wind-cut plate 4 1 Instead of the position between P 5 and the second position P 2 of the tip of flame B's inner flame b 1, the second position P 2 is the position of the tip of flame B's inner flame b 1. This has the same configuration as that of the first and second embodiments of the flame injection device gM according to the present invention shown in FIG. The above is the configuration of the first example of the flame I * firing apparatus M according to the present invention.

 According to the first and third embodiments of the flame injection device according to the present invention having such a configuration, the first and second embodiments of the flame injection device に よ る according to the present invention shown in FIG. Since it has the same configuration as in the example, detailed description is omitted, but the same effects and advantages as r ^ of the first example of the flame injection device according to the present invention shown in FIG. 12 can be obtained. Example 1 4

 Next, with reference to FIG. 14, a 14th male example of the flame injection device according to the present invention will be described.

 In FIG. 14, parts corresponding to those in FIG.

 Fig. 14 1 ^ The first embodiment of the flame injector according to the invention 1 is a turbulent vortex generator ^ ffl Ento 3 1 Force flame B flame H 賁 Noz, No 1 1 Standing P 1 and wind-cutting plate 4 5th ^: Close to the tip of the blower pipe 2 1 in the place P 5, from the 6th position to the 2nd position of the flame B internal flame b 1 from the 6th position A first open end having an inner diameter Φ 3 1 that is larger than the diameter φ 2 of the tip opening of the blower tube 21 but smaller than the diameter φ 2 at the fourth position between P 2 and the inner diameter φ 3 Replaced by a turbulent vortex generator 5 1 with a second open end with an inner diameter φ 3 2 greater than 1 and flame B at the second position P 2 of ^ B The turbulent vortex generating circular body 5 1 has the second opening end having the same 4 φ 4 2 as 乱 φ 4 of the turbulent vortex generating circle 謹 3 1, and the first opening end With the second opening end 圣 φ 4 1 smaller than ψ ψ 4 2 Except that it is arranged concentrically with the axis of the flame injection nozzle 13 with the mouth end in front of the side opposite to the flame injection nozzle side 13 and the first opening end in the fourth position P4. FIG. 7 shows a flame Bftlt device according to the invention shown in FIG.

 The above is the configuration of the 14th embodiment of the flame injection device according to the present invention.

According to the 14th embodiment of the flame injection device according to the present invention having such a configuration, except that it is shown in FIG. Since it has the same configuration, detailed description is omitted, but the first opening of the conical cylindrical body 51 for generating turbulent vortex flow is used. The plate portion between the mouth end and the second open end corresponds to the plate portion 3 2 of the turbulent vortex ring plate 31 of the seventh embodiment of the flame injection device according to the present invention shown in FIG. The action and effect similar to the age of the seventh difficult example of the flame injection device according to the invention shown in Fig. 7 can be obtained. Example 1 5

 Next, with reference to FIG. 15, a fifteenth embodiment of a flame injector according to the present invention will be described. Figure 1 in 5! / Corresponding parts to those in FIG.

 A 15th embodiment of the flame injection device according to the present invention shown in FIG.

5 1 force The inner diameter of the first open end ψ 3 ΐΜΜ ^ φ 4 1 is the same inner diameter! The first open end with W 圣 and the second opening of the turbulent flow-shaped circular body 5 1 End inner diameter ψ 3 2 and 圣

The book shown in Fig. 14 except that it is replaced by a turbulent vortex tube 5 having a second open end with the same inner diameter as Φ 4 2 and 5 2. It has the same configuration as that of the seventh embodiment of the flame injection device according to the invention.

 The above is the configuration of the fifteenth embodiment of the flame injection device according to the present invention.

 According to the fifteenth example of the flame injection device according to the present invention having such a configuration,

Except for the fact that Jt¾ &, the flame injection device according to the present invention shown in FIG. 14 has the same configuration as that of the seventh ¾fe example, so detailed description is omitted, but FIG. The same effects as the ^ in the 14th example of the device can be obtained. Bell train 1 6

 Next, with reference to FIG. 16, a sixth embodiment of the flame injector according to the present invention will be described. In FIG. 16, the same reference numerals are given to the parts corresponding to FIG.

Fig. 16 shows an example of a flame jet apparatus according to the invention in the first sixteenths of a turbulent flow ^ ^ circular body 5 1 force its first opening inner diameter φ 3 1 the same inner diameter φ 6 1 , A first open end having the same inner diameter φ 71 as the inner diameter φ 61, and the second of the turbulent vortex generator 51 A circular body 70 having a second opening end having the same inner diameter φ 7 2 as the inner diameter φ 3 2 of the open end and force 70 1 Is replaced by a turbulent vortex generating cylindrical body 90 concentrically, and the turbulent vortex generating cylindrical body 90 force S, the second of the conical cylindrical body 70 The open end is assumed to have a turbulent vortex flow circle «like body 5 1 圣 Φ 4 2 ^ 圣 φ 8 2, and the first open end of circle« like body 7 0 is smaller than 圣 8 2 圣 8 The cylindrical body 6 0 has the same ^ f φ as φ 8 1 and the cylindrical end of the cylindrical body 70 is opposite to the 70 0 rule. It is P4, except that it is arranged concentrically with the axis of the flame injection nose / re 1 3. It has the same configuration.

 The above is the configuration of the 16th embodiment of the flame injection apparatus according to the present invention.

 According to the sixteenth embodiment of the flame injection device according to the present invention having such a configuration, the seventh embodiment of the flame injection device according to the invention shown in FIG. 14 is shown in FIG. Since it has the same configuration as # ^ in the example, detailed description is omitted, but the same effect and effect as tj ^ in the 1st 4th H¾ example of the flame injection device by Akira Hayashi shown in Fig. 14 can be obtained . Example 1 7

 Next, with reference to FIG. 17, a seventh embodiment of the flame injector according to the present invention will be described. In FIG. 17, the same reference numerals are given to the pairs corresponding to FIG.

 In the 17th embodiment of the flame injection device according to the present invention shown in FIG. 17, the circular body 70 of the cylindrical body 90 for generating turbulent vortices has an inner diameter φ 71 of the first open end. A first opening end having the same inner diameter and diameter as φ 8 1, and an inner diameter φ 72 and a second opening end of circular rod-shaped body 70, each having the same diameter as i ¾OW 16 has the same configuration as that of the 16th embodiment of the flame injection device according to the present invention shown in FIG. 16 except that it is replaced by a circular cylindrical body 80 having two open ends.

The above is the configuration of the 17th row of the flame ftli device according to the present invention. According to the seventeenth embodiment of the flame injection device according to the present invention having such a configuration, FIG. 16 shows the first sixteenth embodiment of the flame injection device according to the third embodiment except that it is ± ¾ &. Since it has the same configuration as the ^^ in the example, detailed explanation is omitted, but the same action and effect as the ^ in the 16th embodiment of the flame B 簾 apparatus according to the invention shown in Fig. 16 can be obtained. It is done. Bell train 1 8

 Next, with reference to FIG. 18, the 18th difficult example of the flame injection device according to the present invention will be described.

 In FIG. 18, parts corresponding to those in FIG.

 Fig. 18 The 18th embodiment of the flame injection device by Tomoaki Hayashi shows that the turbulent vortex generator ^ ffl cylindrical body 90 has a cylindrical body 60 force with the same inner diameter φ 10 1 as its inner diameter φ 61 1 open end and its inner diameter φ 1 0 1 is larger than the diameter of the cylindrical body for turbulent vortex generation 9 0 «Inner diameter of the second open end of 7 0 The conical cylindrical body 110 having a second open end with 2 is difficult, and accordingly the inner diameter φ of the first open end of the conical cylindrical body 70 of the turbulent vortex generator 90 7 1 Force S circular body 1 1 0 2nd opening end inner diameter φ 1 0 2 is changed to the same inner diameter, and circular opening 70 0 1st opening end is the second opening end And the second open end of the conical cylindrical body 110 has the same reed as that of the first open end of the circular body 70. The first open end of the circular body 1 1 0 has a ridge smaller than the female of the second open end. Except that it is a shall have similar values 冓成 the example of the first 6 of the flame P 賁射 apparatus according shows the invention in FIG 6.

 The above is the configuration of the 18th embodiment of the flame injection apparatus according to the present II II.

According to the 18th column of the flame injection device according to the present invention having such a configuration, FIG. 16 shows the configuration of the 16th embodiment of the flame injection device according to the present invention, except that it is; Since it has the same structure as t, detailed description is omitted, but the same effect as the ^ of the 16th embodiment of the flame injection apparatus according to the invention shown in Fig. 16 can be obtained. Example 1 9

 Next, with reference to FIG. 19, a 19th embodiment of the flame t> no apparatus according to the present invention will be described. In FIG. 19, portions corresponding to those in FIG. 17 and FIG.

 Fig. 1 9 1 The 9th difficult example of the flame P 蕭 device according to the invention is the turbulent vortex generator f ffl cylindrical body 90, the diameter of the first open end φ 7 1 and Ψ ψ 8 1 have the same inner diameter and tm, respectively, and the second opening end of the circular body 70 has the same inner diameter as φ 2 2 and φ 8 2. This is the same as that of the 18th example of the flame injection apparatus according to the invention shown in FIG. 18 except that it is replaced by a circular cylindrical body 80 having two open ends. It has a configuration.

 The above is the configuration of the nineteenth embodiment of the flame refrigeration apparatus according to the present invention.

 According to the nineteenth embodiment of the flame injection device according to the present invention having such a configuration, except that it is _bz6, the eighteenth embodiment of the flame injection device according to the present invention shown in FIG. Since it has the same structure as the age of, detailed explanation is omitted, but the effect S of the same effect as; ^ of the 18th embodiment of the flame apparatus according to the invention shown in FIG. Example 2 0

 Next, a 20th example of the flame injection device according to the present invention will be described with reference to FIG. In FIG. 20, the same parts as in FIG.

 In the 20th embodiment of the flame injection device according to the present invention shown in FIG. 20, the circular rod-shaped body 1 1 0 of the cylindrical body for turbulent flow generation 9 0 has an inner diameter φ 1 0 of the first opening end. 1 The first open end with the same inner diameter as the lantern and the second inner diameter φ 1 0 2 of the second open end of the conical cylindrical body 110 2 The second with the same inner diameter as the RXM diameter Fig. 18 has the same configuration as the 18th Mai example of the flame injector according to the invention shown in Fig. 18 except that it is replaced with a circular cylinder 1 2 0 having an open end of .

The above is the configuration of the 20th example of the flame injection device according to the present invention. According to the 20th embodiment of the flame ¹¹ apparatus according to the present invention having such a configuration, the flame ¹¹ apparatus according to the 18th embodiment of the flame apparatus according to the invention shown in FIG. Since the structure is similar to that of FIG. 18, the detailed explanation is omitted. FIG. 18 shows the same effect as the ^^ of the 18th example of the flame flame apparatus according to the present invention.

Row 2 1

 Next, a second embodiment of the flame injection device according to the present invention will be described with reference to FIG. In FIG. 21, parts corresponding to those in FIGS. 17 and 19 are denoted by the same reference numerals.

 Fig. 2 The first embodiment of the flame injection device according to the invention shown in Fig. 1 shows that the turbulent vortex flow ^ ffl cylindrical body 90 force no force its first open end inner diameter Φ 1 0 1 and a first opening end having the same inner diameter as each of the rW rods, and an inner diameter φ 1 0 2 of the second opening end of the conical cylindrical body 110, and a second opening end having the same inner diameter ^ Except that it has been replaced with a circular cylinder 1 2 0! / *, It has the same configuration as the nineteenth embodiment of the flame injection device according to the invention shown in FIG. Have.

 The above is the configuration of the second embodiment of the flame injection device according to the present invention.

 According to the second embodiment of the flame injection device according to the present invention having such a configuration, the 19th implementation of the flame injection device according to the present invention shown in FIG. Since the configuration is the same as that of!, Detailed description is omitted, but the same effect as the age of the nineteenth embodiment of the flame flame apparatus according to the present invention shown in FIG. 19 can be obtained.

Variation of the embodiment of the inventionChange

In the above description, only a few examples of the flame injection device according to the present invention have been shown. In the example of the flame injection device according to the present invention shown in FIG. Position P 4 can be changed to the rear of the third position P 3 or the third position, which is the position of the extended end of the blower pipe 21. Implementation In the example, 圣 φ 4 of the turbulent vortex generating circle ¾¾ 3 1 is the fourth ^ standing Ρ 4 force S where the turbulent vortex generating ^ ^ circle 3 1 is arranged. Position 3 後方 Behind 3 or 3rd position ^ ¾ Wind tube 2 Diameter of tip opening 1 is smaller than φ 2, Turbulent vortex ring 3 1 force ¾ 4th Position P 4 force S forward of the third position P 3 which is the position of the extended end of the blower pipe 21: smaller than or equal to the diameter φ2 of the end opening of the pipe 21 or Various changes can be made to the case where the circular plate 31 for generating the L peristaltic flow is provided in a range in which the diameter is larger than the diameter ^ 2.

 Further, in the above-described embodiment in which the turbulent flow generating annular plate 31 is provided, the turbulent vortex generating circle 31 is assumed to have a ventilation hole formed in the plate portion 3 2. It is also possible to provide a thin notch force s extending from the outer edge toward the inside. Furthermore, the turbulent flow generating circular body 51 in the 14th embodiment of the flame injection device according to the present invention, and the turbulent flow generating cylinder ¾ circular cylinder in the 15th embodiment of the flame injection device according to the present invention. 52. Cylindrical body 90 of turbulent vortex generating cylinder 90 in the first, sixth, eighth, and twenty-first embodiments of the flame injection device according to the present invention, and the flame B propelling device according to the present invention. The cylindrical body 80 for turbulent vortex flow generation 90 in the first, first, ninth, and second first embodiments is provided with a plurality of air holes dispersed therein and / or inside from the outer edge. A plurality of TO notches extending in the direction of the head can be provided with equiangular spacing, and various modifications, changes, and the like can be made without departing from the spirit of the present invention. It will be apparent that changes can be made. Availability of production

 The flame injection device according to the present invention can be widely used as a flame soot device itself, as a boiler or boiler.

Claims

 The scope of the claims

 1 · Fuel is supplied from the fuel source and a flame ¾tt nozzle is attached to the front end of the flame, and a flame f * t † and a feed that sends out gas containing m or soot A blow pipe surrounding the upper flame flame injector and extending forward concentrically with the axis of the upper flame flame nozzle, and having a through hole and a circular shape, and a soda flame flame ¾tt The flame tip of the vessel Noz 'Nole's tip isa near the fifth (upward to stand a <flame so that it is perpendicular to the axis of the flame nozzle ^ ^ the wind that is arranged concentrically with the axis of the jet nozzle The upper end of the blow pipe is set to the position of the extended end of the blower pipe from the first position of the end of the upper end of the fire jet nozzle. The third position between the second end of the flame end flame and the second position of the extension end of the feed In a flame injector that is to a large diameter phi 2 than St [psi 1 in location,

 The first position of the tip of the jet spray nozzle and the tip of the internal flame of the above-mentioned flame from the sixth position close to the tip of the blower tube during the fifth standing of the windshield A fourth position between the second position and the second position of the upper flame has an inner diameter φ3 that is larger than the fiber in the fourth position but smaller than the diameter φ2 of the tip opening of the air duct, And the fourth position is the third position, the vicinity thereof, or the rear of the third position: a diameter ψ 2 smaller than the diameter ψ 2 of the tip opening of the blower pipe, The age at which the fourth position is the front of the third position is smaller than the diameter φ2 of the tip opening of the blower pipe or equal to the diameter ^) 2 or larger than the diameter φ2. The turbulent vortex generating circle with φ 4 is placed concentrically with the axis of the upper jet flame injection nozzle, with its plate surface lying on a plane perpendicular to the upper flame flame axis. Flame injection instrumentation Mo to Les, the Rukoto and 稱敫 Te

2. In the flame injection device according to claim 1,

A flame injection device with a ventilated hole in the street against the turbulent vortex generation circle.

3. In the flame injection device according to claim 1,

 The above-mentioned turbulent flow generating annular plate is provided with a ventilation notch extending from the outer end to the inside, and the flame is designed as a tree.

 4. A flame injector that is supplied with fuel from a fuel source and is equipped with a flame injection nozzle at the front end, and a feed force that delivers an oxygen-containing gas consisting of soot or gas containing soot. Surrounding the soot flame injector, the above-mentioned soot flame P is concentric with the axis of the nozzle, and the air duct extends forward, and has a circular shape with a through hole. Nozzle's tip of the flame Nozzle at the fifth position near fi, so that it is perpendicular to the axis of the flame injection nozzle, the flame is arranged concentrically with the axis of the orchid nozzle. A flame is injected from the above-mentioned flame spray nozzle, and the position of the extended end of the above-mentioned blow pipe is changed from the first position of the tip of the above-mentioned flame flame nozzle to the tip of the internal flame of the above-mentioned flame flame. The third position between the second position and the diameter of the opening of the extended end of the blower is the first position of the tip of the inner flame of the flame. In the flame injection device having a diameter φ 2 larger than the outer diameter φ 1 at position 2,

 ¾Ac 1st position of the flame injection nozzle tip of the flame ¾¾ and above The 6th position of the flame is close to the tip of the blast pipe in the fifth position of the cutting plate. The first open end having an inner diameter φ 3 1 that is larger than ^^ at the fourth position between the end of the inner flame and up to the second position, but smaller than the diameter φ 2 of the tip opening of the blast pipe And a second opening end having an inner diameter φ 3 2 larger than ψ ψ 1 at a position larger than the inner diameter φ 3 1 and corresponding to the second position of the upper flame. A circular tube or a turbulent turbulent tube is formed so that the second opening end is in front of the opposite side of the flame injection nozzle X and the first opening end is the fourth opening. A flame injection device that is placed in a concentric position with the axis of the flame injection nozzle.

 5. In the flame flame apparatus according to claim 4,

Flame it shooting with vent holes in the circular vortex generator or circular cylinder for generating turbulent flow

6. Recognize the flame P device according to claim 4,

 The turbulent vortex generating conical cylinder or the turbulent vortex generating circular cylinder is provided with the second opening end force through TO notch force S extending toward the first opening end. "Three flames with a town"

 7. »Fuel source is supplied from the source and a flame injection nozzle is attached to the front end, and a flame injector that sends oxygen or a gas containing oxygen ^ ^ The air pipe surrounding the flame injector nozzle and extending forward concentrically with the shaft of the flame flame nozzle, and having a circular shape with a through hole, and the flame P 簾In the fifth position near the nose, the above-mentioned flame is arranged concentrically with the axis of the flame injection nozzle so that it is perpendicular to the axis of the flame injection nozzle! A flame is injected from the above-mentioned flame injection nozzle, and the position of the extended end of the above-mentioned blow pipe is set from the first position of the tip of the above-mentioned flame injection nozzle to the above 5 ^ The third position of the tip of the internal flame until the second standing position is set, and the diameter of the opening at the extended end of the feed is set to the tip of the internal flame of the above-mentioned flame. In the flame injection device having a diameter φ 2 larger than ^^ φ 1 at the second position of the end,

 Top of the flame & k The first position of the tip of the flame injection nozzle ¾¾ Near the tip of the blower pipe in the fifth position of the wind-cut plate, The fourth ^ until the second tip of the flame is placed: A cylinder having an inner diameter φ 61 that is larger than the diameter of the tip of the blow pipe but smaller than the diameter φ 2 A first open end having an inner diameter φ 71 equal to the inner diameter φ 61, and an inner diameter φ larger than the inner diameter φ 71 and larger than the diameter φ 1 at the second position of the upper flame. 7 A turbulent vortex tubular body concentrically connected to a circular body or a circular cylindrical body having a second open end having 2 is the conical cylindrical body or the circular cylindrical body. The body is placed in front of the Noh's law and the opening end of the cylindrical body opposite the circular hit or circular cylindrical body is in the fourth position. The axis of the flame spray nozzle Flame flame outfits that are concentrically arranged and are reminiscent of being

8. The flame injection device according to claim 7, A flame injection device Mo in which a ventilation hole is formed in the cylindrical body or the cylindrical body of the turbulent flow generating cylinder.

 9. The flame u 颜 device according to claim 7,

 A flame that makes it difficult to extend the inner cylinder from the outer end of the cylindrical body for generating a turbulent vortex, or a circular notch extending inward from the outer end. Injection equipment go

1 0. From a flame injector that is supplied with fuel from a fuel source and equipped with a flame injection nozzle at the front end, and a blower that sends out a gas consisting of gas containing firewood or wisteria, An air blow pipe surrounding the upper flame flame injector and extending forward concentrically with the axis of the upper flame flame injection nozzle; and a circular shape having a through hole; and the upper flame flame At the fifth position near the tip of the flame spray nozzle of the injector, the upper plate should be perpendicular to the axis of the flame spray nozzle and be arranged concentrically with the axis of the flame spray nozzle. The flame is injected from the upper flame injection nozzle, and the position of the extended end of the blower pipe is changed from the first position of the tip of the nozzle to the inside of the flame. A third position between the second end of the flame tip and the diameter of the opening at the extended end of the feed is set to the second end of the flame inner flame tip. In the flame injection device having a diameter ψ 2 larger than 舰 ψ 1 at the position corresponding to the position, the first position of the top of the flame injection nozzle at the top of the above-mentioned flame and the fifth position of the wind cutting plate Although there is a large amount of distortion in the fourth position between the sixth position close to the tip of the blow pipe and the second position of the inner flame tip of the above-mentioned flame, A first open end having an inner diameter Φ 1 0 1 smaller than the diameter φ 2, and an inner diameter larger than the inner diameter ψ 1 0 1 and greater than ^ g ψ 1 in the second position of the above-mentioned flame A first conical cylindrical body or a first circular cylindrical body having a second open end having 1 0 2 and a first open end having an inner diameter Φ 3 1 ′ equal to the inner diameter 1 0 2 And a third open end having an inner diameter Φ 3 2 ′ larger than the above inner diameter φ 3] and above the above third position of the flame: ^ 圣 φ 1 larger than φ 1 2 round bowl Alternatively, the second circular cylindrical body is concentrically connected, and the cylindrical body for generating turbulent vortex flows above the second circular cylindrical body or the second circular cylindrical body. Flame injection nozzle side And the axis of the upper flame flame nozzle with the first open end of the first circular cylinder or the first circular cylindrical body at the first position. Flame I * fired with i concentrically arranged ¾

1. In the flame injection device according to claim 10,

 The first circular filament or first circular cylindrical body of the turbulent vortex generating cylindrical body, and / or the second circular cylindrical body or second circle of the turbulent turbulent thin cylindrical body Flame Pf fired with a fistula that is pierced through a cylindrical body

2. The flame injection device according to claim 10!

 Extending from the fourth opening to the third opening end to the first second circular body or the second circular cylindrical body of the turbulent vortex generating cylindrical body. , Ru It is a flame that assumes a notch is 1st fire it shooting go