JP2021032240A - Gas turbine which can mix a plurality of types of gases for combustion - Google Patents

Abstract

To provide a gas turbine which can mix a plurality of types of gases for combustion.SOLUTION: A rotational ring is provided, a rightward-opened eccentric circle groove is formed in the rotational ring such that the rotational center of the rotational ring does not overlap with the circular center of the eccentric circle groove. A combustion box is rotatably provided in the eccentric circle groove, a left end of the combustion box is rotatably connected to a left-side inner wall of the eccentric circle groove, and the combustion box overlaps with the rotational center of the rotational ring. An injection device is connected between the combustion box and the rotational ring. A combustion space is provided in the combustion box, and the injection device can inject gas of clean energy into the combustion space. The gas of clean energy is mixed and combusted in the combustion space to generate high-temperature gas.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of gas turbines, and specifically, is a gas turbine capable of mixing and burning a plurality of types of gases.

A gas turbine is an internal combustion engine that rotates an impeller at high speed using a continuously flowing gas as a working substance and converts fuel energy into effective work, and is a rotating impeller type heat engine. Common gas turbine fuels include most flammable liquids such as gasoline, diesel oil, kerosene, and peanut oil, as well as mixed liquids. However, when a general liquid burned and produced is discharged to the atmosphere, it destroys the environment and increases the cost of recovery processing. A gas turbine capable of mixing and burning a plurality of types of gases of the present invention can solve the above problems.

Chinese Patent Application Publication No. 1047633475

Technical problem:
Existing gas turbines generally use flammable liquids or mixed liquids as fuel, and when the products produced by combustion are discharged to the atmosphere, they destroy the environment and increase the cost of recovery processing.

In order to solve the above problems, the present invention employs the following technical plan: a gas turbine capable of mixing and burning a plurality of types of gases of the present invention includes a rotatable rotary wheel, and the rotary wheel of the present invention includes a rotatable rotary wheel. An eccentric groove opened to the right is formed inside, and the center of rotation of the rotating wheel does not overlap with the center of the eccentric groove, and the combustion box is provided in the eccentric groove so that the combustion box can rotate. The left end of the combustion box is connected to the left inner wall of the eccentric circular groove so as to be rotatable, the combustion box overlaps the rotation center of the rotating wheel, and a fuming device is provided between the combustion box and the rotating wheel. Is connected, a combustion space is provided in the combustion box, the jet device can inject a clean energy gas into the combustion space, and the clean energy gas is mixed and burned in the combustion space. A high-temperature gas can be generated, a gas introduction device is provided in the inner wall on the right side of the combustion space, a fixed box is fixedly connected to the right end of the combustion box, and an output device is installed in the fixed box. Provided, the gas introduction device can introduce a high temperature and high pressure gas in the combustion space into the output device, and outputs power with an output shaft, and a motor shaft is at the left end of the rotating wheel. It is fixedly connected, a motor box is provided on the left side of the rotating wheel, a motor is fixed in the motor box, and the left end of the motor shaft is connected so as to be transmitted to the motor, and the motor is connected. It starts and thereby rotates the rotating wheel on the motor shaft, thereby driving the fuming device and injecting a clean energy gas into the combustion space, and a temperature probe on the left inner wall of the combustion space. Is fixed, the temperature probe is connected so that the motor can be energized, and when the temperature probe detects that the temperature in the combustion space is too high, the motor is stopped, thereby causing the combustion space. Stop injecting clean energy gas into it.

As a preferred technical plan, the fuming device includes four gas storage boxes fixedly connected in the combustion box, the four gas storage boxes are arranged in an annular shape at equal intervals, and the gas storage boxes are arranged. A gas storage space is provided in the gas storage box extending into the combustion space, and one kind of clean energy gas is stored in each of the four gas storage spaces, and the gas storage is performed. In the space, a punch hole is provided so as to communicate with the inner wall on the side close to the combustion space, and the punch hole communicates with the combustion space so that the push plate can slide in the gas storage space. A push rod is fixedly connected to an end of the push plate away from the combustion space, the push rod extends into the eccentric circular groove, and the push rod extends from the push plate. The rolling wheels are provided on the distant side so that they can rotate, and the push rod is brought into contact with the rolling wheels by the pressure action of the gas of clean energy in the gas storage space, and the rolling wheels are eccentric circles. The rotating wheel rotates because it comes into contact with the circular inner wall of the groove and the center of rotation of the rolling wheel does not overlap the center of rotation of the eccentric circular groove, and because the combustion box overlaps the center of rotation of the rotating wheel. The rolling wheel can be pushed and moved to slide, which pushes and slides the push plate with the push rod, thereby allowing the clean energy gas in the gas storage space to flow from the vent through the combustion space. Push in.

As a preferential technical plan, slide rods are provided on both sides of the rolling wheel so that they can slide, a connecting shaft is fixedly connected in the rolling wheel, and the connecting shaft is between the slide rods on both sides. Spring grooves are symmetrically provided in the inner walls on both sides of the gas storage space, and the slide rod extends into the spring groove, and is close to the combustion space in the slide rod. A return spring is fixedly connected between the end of the spring and the inner wall of the spring groove on the side close to the combustion space, and the elasticity of the return spring causes the rolling ring to hit the circular inner wall of the eccentric circular groove from beginning to end. It can rotate along the circular inner wall of the eccentric groove while being in contact with the rolling ring, and avoids damaging the rolling ring and the inner wall of the eccentric groove.

As a technical plan of choice, a check valve opened toward the combustion space is fixed in the punch hole, and the check valve allows gas in the combustion space to flow back in the gas storage space. You can prevent that.

As a preferred technical plan, the gas introduction device includes a guide slide groove provided so as to communicate with the inner wall on the right side of the combustion space, and the sealing plate is provided in the guide slide groove so as to slide. A diaphragm hole opened to the right is provided in the inner wall on the right side of the guide slide groove, and a U-shaped groove is provided between the throttle hole and the guide slide groove so as to communicate vertically symmetrically. The sealing plate can block the U-shaped groove and the guide slide groove, and when the pressure in the combustion space rises, the sealing plate is pushed and slides to the right, whereby the U-shaped groove is formed. The groove is communicated with the guide slide groove, and at this time, the gas in the combustion space is discharged into the output device via the guide slide groove, the U-shaped groove, and the throttle hole.

As a technical plan of choice, when the gas passes through the throttle hole, the flow velocity of the gas increases, and the output device is driven by the kinetic energy of the gas.

As a preferred technical plan, a pressure spring is fixedly connected between the right end of the sealing plate and the right inner wall of the guide slide groove, and a barometric pressure probe is fixedly connected to the left end of the sealing plate. In order to connect the barometric pressure probe so that the pressure spring can be energized and to make the power consumed by the motor much smaller than the power output by the output shaft, a limit value is set for the barometric pressure probe and the barometric pressure is set. When the probe detects that the air pressure in the combustion space is small, the pressure spring is energized to seal the U-shaped groove in the sealing plate, and the air pressure probe measures the air pressure in the combustion space. When it is detected that the limit value of the pressure cylinder is reached, the energized state of the pressure spring is released, whereby the sealing plate slides due to the action of the air pressure in the combustion space, thereby guiding the U-shaped groove to the guide. It communicates with the slide groove, whereby the high-pressure gas in the combustion space enters the output device via the U-shaped groove and the throttle hole, and outputs power with the output shaft.

As a preferential technical plan, the output device includes an empty space provided in the fixed box, and an air inlet hole opened to the left is provided in the inner wall on the left side of the empty space so as to communicate with each other. The air inlet hole communicates with the throttle hole, and the connecting rotating component is provided so as to be rotatable in the empty space, and the left end of the output shaft is fixedly connected to the connecting rotating component. The right end of the output shaft extends out of the fixed box, four blades are fixedly connected to the circumferential surface of the connecting rotating component, and the four blades are arranged in an annular shape at equal intervals, and the space is empty. Exhaust holes opened toward the back are provided in the inner walls on both the upper and lower sides of the space so as to communicate with each other, and when the high-pressure gas passes through the throttle holes, the flow rate of the gas increases, so that the high-pressure gas passes through the throttle holes. And the air inlet hole, the vane and the connecting rotating component are pushed and moved to rotate, whereby the output shaft is rotated and interlocked to output power, and the empty space is output. Since the gas inside is discharged to the atmosphere from the exhaust hole and uses clean energy gas, the gas produced by combustion can be directly discharged without polluting the air, and the cost of recovery processing is reduced.

As a preferential technical plan, plugs are symmetrically provided on both the upper and lower sides of the fixed box, a concave groove opened toward the empty space is provided in the plug, and the plug is fixed by the concave groove. The exhaust hole can be sealed by covering the box, and pin holes are provided in the inner walls on both the left and right sides of the concave groove so as to communicate with each other, and the pin holes are opened toward the back of the concave groove. The engaging holes are symmetrically provided in the inner walls on both the left and right sides of the exhaust hole, the engaging hole is opened toward the exhaust hole, and the pin hole faces the engaging hole. At this time, the stopper is connected to the fixed box by a pin, and at this time, the gas cannot be discharged to the atmosphere from the exhaust hole.

The present invention uses clean energy gas as fuel, and even if the product produced by combustion is discharged to the atmosphere, it does not pollute the environment, saves the cost of recovery processing, and also. It is possible to mix and burn many kinds of gases, avoid using only one kind of clean energy gas fuel, and control the cost of fuel use.

In order to explain the invention of the present application in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 coincide with each other.

FIG. 1 is a schematic diagram of the overall configuration of a gas turbine capable of mixing and burning a plurality of types of gases of the present invention. FIG. 2 is a schematic configuration diagram in the AA direction of FIG. FIG. 3 is an enlarged schematic view of FIG. 1B. FIG. 4 is an enlarged schematic view of C in FIG. FIG. 5 is an enlarged schematic view of D in FIG.

The present invention takes up a gas turbine capable of mixing and burning a plurality of types of gases, and is mainly applied to a gas turbine using a clean energy gas as a fuel. To do.

The gas turbine capable of mixing and burning the plurality of types of gases of the present invention includes a rotatable rotary wheel 11, and an eccentric circular groove 27 opening to the right is formed in the rotary wheel 11. The center of rotation of the rotating wheel 11 does not overlap with the center of the eccentric groove 27, and the combustion box 12 is provided in the eccentric groove 27 so that the combustion box 12 can rotate, and the left end of the combustion box 12 is the eccentricity. The combustion box 12 is connected to the inner wall on the left side of the circular groove 27 so as to be rotatable, the combustion box 12 overlaps the rotation center of the rotating wheel 11, and the fuming device 100 is connected between the combustion box 12 and the rotating wheel 11. A combustion space 16 is provided in the combustion box 12, the blower 100 can inject a clean energy gas into the combustion space 16, and the clean energy gas is mixed and burned in the combustion space 16. A high-temperature gas can be generated, a gas introduction device 101 is provided in the inner wall on the right side of the combustion space 16, and a fixed box 23 is fixedly connected to the right end of the combustion box 12, and the fixed box 23 is connected. An output device 102 is provided therein, and the gas introduction device 101 can introduce a high-temperature and high-pressure gas in the combustion space 16 into the output device 102, and outputs power by the output shaft 21. A motor shaft 15 is fixedly connected to the left end of the rotary wheel 11, a motor box 13 is provided on the left side of the rotary wheel 11, a motor 14 is fixed in the motor box 13, and the motor The left end of the shaft 15 is connected so as to be transmitted to the motor 14, and the motor 14 is started, whereby the rotating wheel 11 is rotated by the motor shaft 15, thereby driving the gas jet device 100 and the combustion space. Clean energy gas can be injected into 16, a temperature probe 45 is fixed to the left inner wall of the combustion space 16, and the temperature probe 45 is connected so as to be able to energize the motor 14, and the temperature probe 45 is connected. When the needle 45 detects that the temperature in the combustion space 16 is too high, the needle 45 stops the motor 14, thereby stopping the injection of clean energy gas into the combustion space 16.

The fuming device 100 will be described in detail below, and the fuming device 100 includes four gas storage boxes 36 fixedly connected to the combustion box 12, and the four gas storage boxes 36 are annularly formed at equal intervals. Arranged, the gas storage box 36 extends into the combustion space 16, a gas storage space 44 is provided in the gas storage box 36, and one in each of the four gas storage spaces 44. A gas of various types of clean energy is stored, and a punch hole 35 is provided in the gas storage space 44 on the inner wall on the side close to the combustion space 16 so as to communicate with the combustion space 16. A push plate 43 is provided in the gas storage space 44 so as to be slidable, and a push rod 42 is fixedly connected to an end of the push plate 43 away from the combustion space 16. The push rod 42 extends into the eccentric circular groove 27, and a rolling ring 41 is provided on the side of the push rod 42 away from the push plate 43 so that the rolling ring 41 can rotate. The push rod 42 is brought into contact with the rolling ring 41 by the pressure action of the gas of the clean energy inside, the rolling ring 41 is brought into contact with the circular inner wall of the eccentric circular groove 27, and the rotation center of the rolling ring 11 is the said. Since the combustion box 12 does not overlap with the circular center of the eccentric circular groove 27 and the combustion box 12 overlaps with the rotation center of the rotating wheel 11, the rotating wheel 11 can rotate and push and move the rolling wheel 41 to slide. As a result, the push rod 42 pushes and slides the push plate 43, thereby pushing the clean energy gas in the gas storage space 44 into the combustion space 16 through the punch hole 35.

Beneficially, slide rods 39 are provided on both sides of the rolling wheel 41 so that the slide rods 39 can slide, the connecting shaft 40 is fixedly connected to the rolling wheel 41, and the connecting shaft 40 is fixedly connected to the slide rods on both sides. A spring groove 37 is symmetrically provided in the inner walls on both sides of the gas storage space 44 so as to be rotatable between the slide rods 39, and the slide rod 39 extends into the spring groove 37. A return spring 38 is fixedly connected between the end of the rod 39 close to the combustion space 16 and the inner wall of the spring groove 37 on the side close to the combustion space 16, and the elasticity of the return spring 38 causes the return spring 38 to be fixedly connected. The rolling ring 41 can rotate along the circular inner wall of the eccentric groove 27 while being in contact with the circular inner wall of the eccentric groove 27 from beginning to end, and damages the rolling ring 41 and the inner wall of the eccentric groove 27. Avoid.

Beneficially, a check valve 34 opened toward the combustion space 16 is fixed in the punch hole 35, and the check valve 34 allows the gas in the combustion space 16 to be in the gas storage space 44. It is possible to prevent the backflow of gas.

The gas introduction device 101 will be described in detail below, and the gas introduction device 101 includes a guide slide groove 28 provided so as to communicate with the inner wall on the right side of the combustion space 16, and the guide slide groove 28 contains the guide slide groove 28. The sealing plate 17 is provided so as to be slidable, and a throttle hole 18 opened to the right is provided in the inner wall on the right side of the guide slide groove 28, and between the throttle hole 18 and the guide slide groove 28. When the U-shaped groove 25 is provided so as to communicate vertically symmetrically, the sealing plate 17 can block the U-shaped groove 25 and the guide slide groove 28, and the pressure in the combustion space 16 rises. The sealing plate 17 is pushed and slides to the right, whereby the U-shaped groove 25 communicates with the guide slide groove 28, and at this time, the gas in the combustion space 16 is transferred to the guide slide groove 28. It is discharged into the output device 102 via the U-shaped groove 25 and the throttle hole 18.

Advantageously, when the gas passes through the throttle hole 18, the flow velocity of the gas increases, and the kinetic energy of the gas drives the output device 102.

Beneficially, a pressure spring 26 is fixedly connected between the right end of the sealing plate 17 and the right inner wall of the guide slide groove 28, and a barometric pressure probe 46 is fixedly connected to the left end of the sealing plate 17. Then, the barometric pressure probe 46 is connected so that the pressure spring 26 can be energized, and the power consumed by the motor 14 is made much smaller than the power output by the output shaft 21, so that the barometric pressure probe 46 is limited. When the value is set and the atmospheric pressure probe 46 detects that the atmospheric pressure in the combustion space 16 is small, the pressure spring 28 is energized, the sealing plate 17 seals the U-shaped groove 25, and the above. When the atmospheric pressure probe 46 detects that the atmospheric pressure in the combustion space 16 reaches the limit value of the atmospheric pressure cylinder 46, the pressure spring is released from the energized state, whereby the sealing plate 17 causes the combustion space 16 to be released. The U-shaped groove 25 communicates with the guide slide groove 28, whereby the high-pressure gas in the combustion space 16 passes through the U-shaped groove 25 and the drawing hole 18. Then, it enters the output device 102 and outputs power with the output shaft 21.

The output device 102 will be described in detail below, and the output device 102 includes an empty space 19 provided in the fixed box 23, and an air inlet opened to the left in the left inner wall of the empty space 19. The holes 24 are provided so as to communicate with each other, the inflator hole 24 communicates with the throttle hole 18, and the connecting rotating component 20 is provided so as to be rotatable in the empty space 19, and the output shaft 21 is provided. The left end of the connecting rotating component 20 is fixedly connected to the connecting rotating component 20, the right end of the output shaft 21 extends out of the fixed box 23, and four blades 22 are fixed to the circumferential surface of the connecting rotating component 20. The four blades 22 are arranged in an annular shape at equal intervals, and exhaust holes 30 opened toward the back are provided in the inner walls on both the upper and lower sides of the empty space 19 so as to communicate with each other. Since the flow rate of the gas increases when passing through the drawing hole 18, high-pressure gas enters the empty space 19 via the drawing hole 18 and the inflating hole 24, and is connected to the blade 22. The rotating component 20 is pushed to rotate, whereby the output shaft 21 is rotated and interlocked to output power, and the gas in the empty space 19 is discharged to the atmosphere from the exhaust hole 30, and is a gas of clean energy. Because it uses, the gas produced by burning can be discharged directly without polluting the air, reducing the cost of recovery processing.

Beneficially, plugs 32 are symmetrically provided on both the upper and lower sides of the fixed box 23, and a concave groove 33 opened toward the empty space 19 is provided in the plug 32, and the plug 32 is provided with the concave groove. The fixed box 23 can be covered with the 33 to seal the exhaust hole 30, and pin holes 29 are provided in the inner walls on both the left and right sides of the concave groove 33 so that the pin holes 29 communicate with each other. The recessed groove 33 is opened toward the back, and the engaging holes 31 are symmetrically provided in the inner walls on both the left and right sides of the exhaust hole 30, and the engaging holes 31 are opened toward the exhaust hole 30. When the pin hole 29 faces the engaging hole 31, the plug 32 is connected to the fixed box 23 by a pin, and at this time, gas cannot be discharged to the atmosphere from the exhaust hole 30.

The procedure for using the present invention will be described in detail below with reference to FIGS. 1 to 5.

In the initial state, the sealing plate 17 seals the U-shaped groove 25, the pressure spring 26 is energized, the stopper 32 is put on the fixed box 23, and the stopper 32 is fixed to the fixed box 23 by a pin. Each of the four gas storage spaces 44 stores one kind of clean energy gas, and the air pressure in the gas storage space 44 is high.

At the time of use, the pin is taken out from the pin hole 29 and the engagement hole 31, the stopper 32 is removed from the fixing box 23, the motor 14 is started, thereby rotating the rotary wheel 11 on the motor shaft 15, thereby causing the eccentric groove 27. At the same time that the rolling ring 14 is pushed toward the combustion space 16 by the circular inner wall of the above, the rolling ring 41 can rotate along the circular inner wall of the eccentric groove 27, damaging the rolling ring 41 and the inner wall of the eccentric groove 27. Avoiding, when the rolling wheel 41 slides in the direction of the combustion space 16, it pushes the push rod 42, which pushes the push plate 43, whereby the clean energy gas in the gas storage space 44 becomes the check valve 34. Pushed into the combustion space 16 through the draft hole 35, the rotating wheel 11 continues to rotate, and the elasticity of the return spring 38 pushes and moves the slide rod 39 to slide, whereby the rolling wheel 41 is moved by the connecting shaft 40. By sliding, the rolling wheel 41 can be brought into contact with the circular inner wall of the eccentric groove 27 from beginning to end, and at the same time, the push plate 43 is pushed and slid by the action of the pressure in the gas storage space 44, thereby sliding. The push rod 42 is driven and slid so that the push rod 42 is brought into contact with the rolling wheel 41 from beginning to end, and the check valve 34 can prevent the gas in the combustion space 16 from flowing back into the gas storage space 44. it can.

The rotating wheel 11 continues to rotate, which allows four types of clean energy gases to be sequentially and continuously injected into the combustion space 16 to mix and burn, thereby and the temperature in the combustion space 16. The air pressure is raised, the temperature probe 45 detects the temperature in the combustion space 16, and when the temperature in the combustion space 16 is too high, the motor 14 is stopped, thereby releasing a clean energy gas into the combustion space 16. When the injection is stopped, the pressure probe 46 detects the pressure in the combustion space 16 and detects that the pressure in the combustion space 16 is low, the pressure spring 26 is energized and the sealing plate 17 is U-shaped. When the groove 25 is closed and the pressure probe 46 detects that the pressure in the combustion space 16 reaches the limit value of the pressure cylinder 46, the energized state of the pressure spring is released, whereby the sealing plate 17 is placed in the combustion space. It slides by the action of the atmospheric pressure of 16, thereby communicating the U-shaped groove 25 with the guide slide groove 28, whereby the gas in the combustion space 16 is brought into the guide slide groove 28, the U-shaped groove 25, and the drawing hole 18. , The blade 22 is sprayed via the air inlet hole 24, and when the gas passes through the throttle hole 18, the flow rate increases, whereby the gas can push and move the empty space 19 and the connecting rotating component 20 to rotate. By doing so, the output shaft 21 is driven and rotated to output power, and in order to make the power consumed by the motor 14 much smaller than the power output by the output shaft 21, a limit value is set for the barometric pressure probe 46. The gas in the empty space 19 is discharged to the atmosphere through the exhaust hole 30.

When the device of the present invention is stopped, the motor 14 is stopped, the output shaft 21 stops rotating, and then the plug 32 is covered with the fixed box 23 and the exhaust hole 30 is closed.

The beneficial effects of the present invention are: The present invention uses clean energy gas as fuel, does not pollute the environment even if the product produced by combustion is discharged to the atmosphere, saves the cost of recovery processing, and also. It is possible to mix and burn many kinds of gases, avoid using only one kind of clean energy gas fuel, and control the cost of fuel use.

By the above method, those skilled in the art can make various changes by the working method within the scope of the present invention.

The present invention takes up the field of gas turbines, and specifically, is a gas turbine capable of mixing and burning a plurality of types of gases.

A gas turbine is an internal combustion engine that rotates an impeller at high speed using a continuously flowing gas as a working substance and converts fuel energy into effective work, and is a rotating impeller type heat engine. Common gas turbine fuels include most flammable liquids such as gasoline, diesel oil, kerosene, and peanut oil, as well as mixed liquids. However, when a general liquid burned and produced is discharged to the atmosphere, it destroys the environment and increases the cost of recovery processing. A gas turbine capable of mixing and burning a plurality of types of gases of the present invention can solve the above problems.

Chinese Patent Application Publication No. 1047633475

Technical problem:
Existing gas turbines generally use flammable liquids or mixed liquids as fuel, and when the products produced by combustion are discharged to the atmosphere, they destroy the environment and increase the cost of recovery processing.

In order to solve the above problems, the present invention employs the following technical plan: a gas turbine capable of mixing and burning a plurality of types of gases of the present invention includes a rotatable rotary wheel, and the rotary wheel of the present invention includes a rotatable rotary wheel. An eccentric groove opened to the right is formed inside, and the center of rotation of the rotating wheel does not overlap with the center of the eccentric groove, and the combustion box is provided in the eccentric groove so that the combustion box can rotate. The left end of the combustion box is connected to the left inner wall of the eccentric circular groove so as to be rotatable, the combustion box overlaps the rotation center of the rotating wheel, and a fuming device is provided between the combustion box and the rotating wheel. Is connected, a combustion space is provided in the combustion box, the jet device can inject a clean energy gas into the combustion space, and the clean energy gas is mixed and burned in the combustion space. A high-temperature and high-pressure gas can be generated, a gas introduction device is provided in the inner wall on the right side of the combustion space, a fixed box is fixedly connected to the right end of the combustion box, and an output device is inside the fixed box. Is provided, the gas introduction device can introduce a high temperature and high pressure gas in the combustion space into the output device, and outputs power with an output shaft, and a motor shaft is at the left end of the rotating wheel. Is fixedly connected, a motor box is provided on the left side of the rotating wheel, a motor is fixed in the motor box, and the left end of the motor shaft is connected so as to be transmitted to the motor. Is started, thereby rotating the rotating wheel on the motor shaft, thereby driving the jet device and injecting a clean energy gas into the combustion space, and a temperature probe on the left inner wall of the combustion space. When the needle is fixed and the temperature probe is connected so that the motor can be energized, and the temperature probe detects that the temperature in the combustion space is too high, the motor is stopped, thereby stopping the combustion space. Stop injecting clean energy gas into.

As a preferred technical plan, the fuming device includes four gas storage boxes fixedly connected in the combustion box, the four gas storage boxes are arranged in an annular shape at equal intervals, and the gas storage boxes are arranged. A gas storage space is provided in the gas storage box extending into the combustion space, and clean energy gas is stored in each of the four gas storage spaces, and the gas storage space is used. A punch hole is provided so as to communicate with the inner wall on the side close to the combustion space, the punch hole communicates with the combustion space, and a push plate is provided so as to slide in the gas storage space. , The push rod is fixedly connected to the end of the push plate away from the combustion space, the push rod extends into the eccentric circular groove, and is separated from the push plate in the push rod. A rolling ring is provided on the side so that it can rotate, and the push rod is brought into contact with the rolling ring by the pressure action of a gas of clean energy in the gas storage space, and the rolling ring is circular in the eccentric circular groove. Since the rolling wheel abuts on the inner wall and the center of rotation of the rolling wheel does not overlap the center of rotation of the eccentric groove, and the combustion box overlaps the center of rotation of the rotating wheel, the rotating wheel rotates and causes the rolling wheel to rotate. It can be pushed and slid, thereby pushing and sliding the push plate with the push rod, thereby pushing the clean energy gas in the gas storage space from the punch into the combustion space. ..

As a preferential technical plan, slide rods are provided on both sides of the rolling wheel so that they can slide, a connecting shaft is fixedly connected in the rolling wheel, and the connecting shaft is between the slide rods on both sides. Spring grooves are symmetrically provided in the inner walls on both sides of the gas storage space, and the slide rod extends into the spring groove, and is close to the combustion space in the slide rod. A return spring is fixedly connected between the end of the spring and the inner wall of the spring groove on the side close to the combustion space, and the elasticity of the return spring causes the rolling ring to hit the circular inner wall of the eccentric circular groove from beginning to end. It can rotate along the circular inner wall of the eccentric groove while being in contact with the rolling ring, and avoids damaging the rolling ring and the inner wall of the eccentric groove.

As a technical plan of choice, a check valve opened toward the combustion space is fixed in the punch hole, and the check valve allows gas in the combustion space to flow back into the gas storage space. You can prevent that.

As a preferred technical plan, the gas introduction device includes a guide slide groove provided so as to communicate with the inner wall on the right side of the combustion space, and the sealing plate is provided in the guide slide groove so as to slide. A diaphragm hole opened to the right is provided in the inner wall on the right side of the guide slide groove, and a U-shaped groove is provided between the throttle hole and the guide slide groove so as to communicate vertically symmetrically. The sealing plate can block the U-shaped groove and the guide slide groove, and when the pressure in the combustion space rises, the sealing plate is pushed and slides to the right, whereby the U-shaped groove is formed. The groove is communicated with the guide slide groove, and at this time, the gas in the combustion space is discharged into the output device via the guide slide groove, the U-shaped groove, and the throttle hole.

As a technical plan of choice, when the gas passes through the throttle hole, the flow velocity of the gas increases, and the output device is driven by the kinetic energy of the gas.

As a preferred technical plan, a pressure spring is fixedly connected between the right end of the sealing plate and the right inner wall of the guide slide groove, and a barometric pressure probe is fixedly connected to the left end of the sealing plate. In order to connect the barometric pressure probe so that the pressure spring can be energized and to make the power consumed by the motor much smaller than the power output by the output shaft, a limit value is set for the barometric pressure probe and the barometric pressure is set. When the probe detects that the air pressure in the combustion space is small, the pressure spring is energized to seal the U-shaped groove in the sealing plate, and the air pressure probe measures the air pressure in the combustion space. When it is detected that the limit value of the pressure cylinder is reached, the energized state of the pressure spring is released, whereby the sealing plate slides due to the action of the air pressure in the combustion space, thereby guiding the U-shaped groove to the guide. It communicates with the slide groove, whereby the high-pressure gas in the combustion space enters the output device via the U-shaped groove and the throttle hole, and outputs power with the output shaft.

As a preferential technical plan, the output device includes an empty space provided in the fixed box, and an air inlet hole opened to the left is provided in the inner wall on the left side of the empty space so as to communicate with each other. The air inlet hole communicates with the throttle hole, and the connecting rotating component is provided so as to be rotatable in the empty space, and the left end of the output shaft is fixedly connected to the connecting rotating component. The right end of the output shaft extends out of the fixed box, four blades are fixedly connected to the circumferential surface of the connecting rotating component, and the four blades are arranged in an annular shape at equal intervals, and the space is empty. Exhaust holes opened toward the back are provided in the inner walls on both the upper and lower sides of the space so as to communicate with each other, and when the high-pressure gas passes through the throttle holes, the flow rate of the gas increases, so that the high-pressure gas passes through the throttle holes. And the air inlet hole, the vane and the connecting rotating component are pushed and moved to rotate, whereby the output shaft is rotated and interlocked to output power, and the empty space is output. Since the gas inside is discharged to the atmosphere from the exhaust hole and uses clean energy gas, the gas produced by combustion can be directly discharged without polluting the air, and the cost of recovery processing is reduced.

As a preferential technical plan, plugs are symmetrically provided on both the upper and lower sides of the fixed box, a concave groove opened toward the empty space is provided in the plug, and the plug is fixed by the concave groove. The exhaust hole can be sealed by covering the box, and pin holes are provided in the inner walls on both the left and right sides of the concave groove so as to communicate with each other, and the pin holes are opened toward the back of the concave groove. The engaging holes are symmetrically provided in the inner walls on both the left and right sides of the exhaust hole, the engaging hole is opened toward the exhaust hole, and the pin hole faces the engaging hole. At this time, the stopper is connected to the fixed box by a pin, and at this time, the gas cannot be discharged to the atmosphere from the exhaust hole.

The present invention uses clean energy gas as fuel, and even if the product produced by combustion is discharged to the atmosphere, it does not pollute the environment, saves the cost of recovery processing, and also. It is possible to mix and burn many kinds of gases, avoid using only one kind of clean energy gas fuel, and control the cost of fuel use.

In order to explain the invention of the present application in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 coincide with each other.

FIG. 1 is a schematic diagram of the overall configuration of a gas turbin capable of mixing and burning a plurality of types of gases of the present invention. FIG. 2 is a schematic configuration diagram in the AA direction of FIG. FIG. 3 is an enlarged schematic view of FIG. 1B. FIG. 4 is an enlarged schematic view of C in FIG. FIG. 5 is an enlarged schematic view of D in FIG.

The present invention takes up a gas turbine capable of mixing and burning a plurality of types of gases, and is mainly applied to a gas turbine using a clean energy gas as a fuel. To do.

The gas turbine capable of mixing and burning the plurality of types of gases of the present invention includes a rotatable rotary wheel 11, and an eccentric circular groove 27 opening to the right is formed in the rotary wheel 11. The center of rotation of the rotating wheel 11 does not overlap with the center of the eccentric groove 27, and the combustion box 12 is provided in the eccentric groove 27 so that the combustion box 12 can rotate, and the left end of the combustion box 12 is the eccentricity. The combustion box 12 is connected to the inner wall on the left side of the circular groove 27 so as to be rotatable, the combustion box 12 overlaps the rotation center of the rotating wheel 11, and the fuming device 100 is connected between the combustion box 12 and the rotating wheel 11. A combustion space 16 is provided in the combustion box 12, the blower 100 can inject a clean energy gas into the combustion space 16, and the clean energy gas is mixed and burned in the combustion space 16. A high-temperature and high-pressure gas can be generated, a gas introduction device 101 is provided in the inner wall on the right side of the combustion space 16, and a fixed box 23 is fixedly connected to the right end of the combustion box 12, and the fixed box 23 is fixedly connected. An output device 102 is provided therein, and the gas introduction device 101 can introduce a high-temperature and high-pressure gas in the combustion space 16 into the output device 102, and outputs power by the output shaft 21. A motor shaft 15 is fixedly connected to the left end of the rotating wheel 11, a motor box 13 is provided on the left side of the rotating wheel 11, and a motor 14 is fixed in the motor box 13. The left end of the motor shaft 15 is connected so as to be transmitted to the motor 14, and the motor 14 is started, whereby the rotating wheel 11 is rotated by the motor shaft 15, thereby driving the gas jet device 100 and the combustion. Clean energy gas can be injected into the space 16, a temperature probe 45 is fixed to the left inner wall of the combustion space 16, and the temperature probe 45 is connected so as to be able to energize the motor 14, and the temperature is When the probe 45 detects that the temperature in the combustion space 16 is too high, it stops the motor 14, thereby stopping the injection of clean energy gas into the combustion space 16.

The fuming device 100 will be described in detail below, and the fuming device 100 includes four gas storage boxes 36 fixedly connected to the combustion box 12, and the four gas storage boxes 36 are annularly formed at equal intervals. Arranged, the gas storage box 36 extends into the combustion space 16, a gas storage space 44 is provided in the gas storage box 36, and each of the four gas storage spaces 44 is clean. A gas of energy is stored, and a punch hole 35 is provided so as to communicate with the inner wall of the gas storage space 44 on the side close to the combustion space 16, and the punch hole 35 communicates with the combustion space 16. The push plate 43 is provided in the gas storage space 44 so as to be slidable, and the push rod 42 is fixedly connected to the end of the push plate 43 away from the combustion space 16. 42 extends into the eccentric circular groove 27, and a rolling ring 41 is provided on the side of the push rod 42 away from the push plate 43 so that the rolling ring 41 can rotate, and is clean in the gas storage space 44. The push rod 42 is brought into contact with the rolling ring 41 by the pressure action of a gas of energy, the rolling ring 41 is brought into contact with the circular inner wall of the eccentric circular groove 27, and the rotation center of the rolling ring 11 is the eccentric circular groove. Because it does not overlap the center of the circle 27, and because the combustion box 12 overlaps the center of rotation of the rotating wheel 11, the rotating wheel 11 can rotate and push and move the rolling wheel 41 to slide. The push rod 42 pushes and slides the push plate 43, thereby pushing the clean energy gas in the gas storage space 44 into the combustion space 16 through the punch hole 35.

Beneficially, slide rods 39 are provided on both sides of the rolling wheel 41 so that the slide rods 39 can slide, the connecting shaft 40 is fixedly connected to the rolling wheel 41, and the connecting shaft 40 is fixedly connected to the slide rods on both sides. A spring groove 37 is symmetrically provided in the inner walls on both sides of the gas storage space 44 so as to be rotatable between the slide rods 39, and the slide rod 39 extends into the spring groove 37. A return spring 38 is fixedly connected between the end of the rod 39 close to the combustion space 16 and the inner wall of the spring groove 37 on the side close to the combustion space 16, and the elasticity of the return spring 38 causes the return spring 38 to be fixedly connected. The rolling ring 41 can rotate along the circular inner wall of the eccentric groove 27 while being in contact with the circular inner wall of the eccentric groove 27 from beginning to end, and damages the rolling ring 41 and the inner wall of the eccentric groove 27. Avoid.

Beneficially, a check valve 34 opened toward the combustion space 16 is fixed in the punch hole 35, and the check valve 34 allows the gas in the combustion space 16 to be in the gas storage space 44 . It is possible to prevent backflow to.

The gas introduction device 101 will be described in detail below, and the gas introduction device 101 includes a guide slide groove 28 provided so as to communicate with the inner wall on the right side of the combustion space 16, and the guide slide groove 28 contains the guide slide groove 28. The sealing plate 17 is provided so as to be slidable, and a throttle hole 18 opened to the right is provided in the inner wall on the right side of the guide slide groove 28, and between the throttle hole 18 and the guide slide groove 28. When the U-shaped groove 25 is provided so as to communicate vertically symmetrically, the sealing plate 17 can block the U-shaped groove 25 and the guide slide groove 28, and the pressure in the combustion space 16 rises. The sealing plate 17 is pushed and slides to the right, whereby the U-shaped groove 25 communicates with the guide slide groove 28, and at this time, the gas in the combustion space 16 is transferred to the guide slide groove 28. It is discharged into the output device 102 via the U-shaped groove 25 and the throttle hole 18.

Advantageously, when the gas passes through the throttle hole 18, the flow velocity of the gas increases, and the kinetic energy of the gas drives the output device 102.

Beneficially, a pressure spring 26 is fixedly connected between the right end of the sealing plate 17 and the right inner wall of the guide slide groove 28, and a barometric pressure probe 46 is fixedly connected to the left end of the sealing plate 17. Then, the barometric pressure probe 46 is connected so that the pressure spring 26 can be energized, and the power consumed by the motor 14 is made much smaller than the power output by the output shaft 21, so that the barometric pressure probe 46 is limited. When the value is set and the atmospheric pressure probe 46 detects that the atmospheric pressure in the combustion space 16 is small, the pressure spring 28 is energized, the sealing plate 17 seals the U-shaped groove 25, and the above. When the atmospheric pressure probe 46 detects that the atmospheric pressure in the combustion space 16 reaches the limit value of the atmospheric pressure cylinder 46, the pressure spring is released from the energized state, whereby the sealing plate 17 causes the combustion space 16 to be released. The U-shaped groove 25 communicates with the guide slide groove 28, whereby the high-pressure gas in the combustion space 16 passes through the U-shaped groove 25 and the drawing hole 18. Then, it enters the output device 102 and outputs power with the output shaft 21.

The output device 102 will be described in detail below, and the output device 102 includes an empty space 19 provided in the fixed box 23, and an air inlet opened to the left in the left inner wall of the empty space 19. The holes 24 are provided so as to communicate with each other, the inflator hole 24 communicates with the throttle hole 18, and the connecting rotating component 20 is provided so as to be rotatable in the empty space 19, and the output shaft 21 is provided. The left end of the connecting rotating component 20 is fixedly connected to the connecting rotating component 20, the right end of the output shaft 21 extends out of the fixed box 23, and four blades 22 are fixed to the circumferential surface of the connecting rotating component 20. The four blades 22 are arranged in an annular shape at equal intervals, and exhaust holes 30 opened toward the back are provided in the inner walls on both the upper and lower sides of the empty space 19 so as to communicate with each other. Since the flow rate of the gas increases when passing through the drawing hole 18, high-pressure gas enters the empty space 19 via the drawing hole 18 and the inflating hole 24, and is connected to the blade 22. The rotating component 20 is pushed to rotate, whereby the output shaft 21 is rotated and interlocked to output power, and the gas in the empty space 19 is discharged to the atmosphere from the exhaust hole 30, and is a gas of clean energy. Because it uses, the gas produced by burning can be discharged directly without polluting the air, reducing the cost of recovery processing.

Beneficially, plugs 32 are symmetrically provided on both the upper and lower sides of the fixed box 23, and a concave groove 33 opened toward the empty space 19 is provided in the plug 32, and the plug 32 is provided with the concave groove. The fixed box 23 can be covered with the 33 to seal the exhaust hole 30, and pin holes 29 are provided in the inner walls on both the left and right sides of the concave groove 33 so that the pin holes 29 communicate with each other. The recessed groove 33 is opened toward the back, and the engaging holes 31 are symmetrically provided in the inner walls on both the left and right sides of the exhaust hole 30, and the engaging holes 31 are opened toward the exhaust hole 30. When the pin hole 29 faces the engaging hole 31, the plug 32 is connected to the fixed box 23 by a pin, and at this time, gas cannot be discharged to the atmosphere from the exhaust hole 30.

The procedure for using the present invention will be described in detail below with reference to FIGS. 1 to 5.

In the initial state, the sealing plate 17 seals the U-shaped groove 25, the pressure spring 26 is energized, the stopper 32 is put on the fixed box 23, and the stopper 32 is fixed to the fixed box 23 by a pin. Clean energy gas is stored in each of the four gas storage spaces 44, and the atmospheric pressure in the gas storage space 44 is high.

At the time of use, the pin is taken out from the pin hole 29 and the engagement hole 31, the stopper 32 is removed from the fixing box 23, the motor 14 is started, thereby rotating the rotary wheel 11 on the motor shaft 15, thereby causing the eccentric groove 27. At the same time that the rolling ring 14 is pushed toward the combustion space 16 by the circular inner wall of the above, the rolling ring 41 can rotate along the circular inner wall of the eccentric groove 27, damaging the rolling ring 41 and the inner wall of the eccentric groove 27. Avoiding, when the rolling wheel 41 slides in the direction of the combustion space 16, it pushes the push rod 42, which pushes the push plate 43, whereby the clean energy gas in the gas storage space 44 becomes the check valve 34. Pushed into the combustion space 16 through the draft hole 35, the rotating wheel 11 continues to rotate, and the elasticity of the return spring 38 pushes and moves the slide rod 39 to slide, whereby the rolling wheel 41 is moved by the connecting shaft 40. By sliding, the rolling wheel 41 can be brought into contact with the circular inner wall of the eccentric groove 27 from beginning to end, and at the same time, the push plate 43 is pushed and slid by the action of the pressure in the gas storage space 44, thereby sliding. The push rod 42 is driven and slid so that the push rod 42 is brought into contact with the rolling wheel 41 from beginning to end, and the check valve 34 can prevent the gas in the combustion space 16 from flowing back into the gas storage space 44. it can.

The rotating wheel 11 continues to rotate, which allows four types of clean energy gases to be sequentially and continuously injected into the combustion space 16 to mix and burn, thereby and the temperature in the combustion space 16. The air pressure is raised, the temperature probe 45 detects the temperature in the combustion space 16, and when the temperature in the combustion space 16 is too high, the motor 14 is stopped, thereby releasing a clean energy gas into the combustion space 16. When the injection is stopped, the pressure probe 46 detects the pressure in the combustion space 16 and detects that the pressure in the combustion space 16 is low, the pressure spring 26 is energized and the sealing plate 17 is U-shaped. When the groove 25 is closed and the pressure probe 46 detects that the pressure in the combustion space 16 reaches the limit value of the pressure cylinder 46, the energized state of the pressure spring is released, whereby the sealing plate 17 is placed in the combustion space. It slides by the action of the atmospheric pressure of 16, thereby communicating the U-shaped groove 25 with the guide slide groove 28, whereby the gas in the combustion space 16 is brought into the guide slide groove 28, the U-shaped groove 25, and the drawing hole 18. , The blade 22 is sprayed via the air inlet hole 24, and when the gas passes through the throttle hole 18, the flow rate increases, whereby the gas can push and move the empty space 19 and the connecting rotating component 20 to rotate. By doing so, the output shaft 21 is driven and rotated to output power, and in order to make the power consumed by the motor 14 much smaller than the power output by the output shaft 21, a limit value is set for the barometric pressure probe 46. The gas in the empty space 19 is discharged to the atmosphere through the exhaust hole 30.

When the device of the present invention is stopped, the motor 14 is stopped, the output shaft 21 stops rotating, and then the plug 32 is covered with the fixed box 23 and the exhaust hole 30 is closed.

The beneficial effects of the present invention are: The present invention uses clean energy gas as fuel, does not pollute the environment even if the product produced by combustion is discharged to the atmosphere, saves the cost of recovery processing, and also. It is possible to mix and burn many kinds of gases, avoid using only one kind of clean energy gas fuel, and control the cost of fuel use.

By the above method, those skilled in the art can make various changes by the working method within the scope of the present invention.

Claims (9)

An eccentric circular groove opened to the right is formed in the rotary wheel including a rotatable rotary wheel, and the center of rotation of the rotary wheel does not overlap with the circular center of the eccentric circular groove, and the eccentric circular groove is formed. The combustion box is provided so as to be rotatable inside, and the left end of the combustion box is connected to the left inner wall of the eccentric circular groove so as to be rotatable, and the combustion box overlaps with the rotation center of the rotating wheel.
A combustion device is connected between the combustion box and the rotating wheel, a combustion space is provided in the combustion box, and the combustion device can inject a gas of clean energy into the combustion space and is clean. Energy gas can be mixed and burned in the combustion space to produce high temperature gas.
A gas introduction device is provided in the inner wall on the right side of the combustion space, a fixed box is fixedly connected to the right end of the combustion box, and an output device is provided in the fixed box. Can introduce high temperature and high pressure gas in the combustion space into the output device and output power on the output shaft.
A motor shaft is fixedly connected to the left end of the rotating wheel, a motor box is provided on the left side of the rotating wheel, a motor is fixed in the motor box, and the left end of the motor shaft is attached to the motor. Connected so that they can be transmitted, the motor is started, thereby rotating the rotating wheel on the motor shaft, thereby driving the fuming device and injecting clean energy gas into the combustion space.
When a temperature probe is fixed to the inner wall on the left side of the combustion space, the temperature probe is connected so that the motor can be energized, and the temperature probe detects that the temperature in the combustion space is too high, A gas turbine capable of mixing and burning a plurality of types of gases, characterized in that the motor is stopped, thereby stopping the injection of a gas of clean energy into the combustion space. The fumarole device includes four gas storage boxes fixedly connected to the combustion box, the four gas storage boxes are arranged in an annular shape at equal intervals, and the gas storage boxes are placed in the combustion space. It extends, and a gas storage space is provided in the gas storage box, and one kind of clean energy gas is stored in each of the four gas storage spaces.
In the gas storage space, a punch hole is provided so as to communicate with the inner wall on the side close to the combustion space, and the punch hole communicates with the combustion space.
A push plate is provided in the gas storage space so that the push plate can slide, and a push rod is fixedly connected to an end of the push plate away from the combustion space, and the push rod is formed of the eccentric circular groove. A rolling wheel is provided on the side of the push rod that extends inward and is separated from the push plate so that the rolling wheel can rotate, and the push rod is pushed by the pressure action of the gas of clean energy in the gas storage space. The gas turbine capable of mixing and burning a plurality of types of gases according to claim 1, wherein the rolling wheels are in contact with the rolling wheels and the rolling wheels are in contact with the circular inner wall of the eccentric circular groove. Slide rods are provided on both sides of the rolling wheel so that they can slide, and a connecting shaft is fixedly connected to the rolling wheel so that the connecting shaft can rotate between the slide rods on both sides. Spring grooves are symmetrically provided in the inner walls on both sides of the gas storage space, the slide rod extends into the spring groove, and the end of the slide rod close to the combustion space and the spring groove. A gas turbine capable of mixing and burning a plurality of types of gases according to claim 2, wherein a return spring is fixedly connected to the inner wall on the side close to the combustion space. .. A check valve opened toward the combustion space is fixed in the punch hole, and the check valve can prevent gas in the combustion space from flowing back in the gas storage space. A gas turbine capable of mixing and burning a plurality of types of gases according to claim 2. The gas introduction device includes a guide slide groove provided so as to communicate with the inner wall on the right side of the combustion space, and the guide slide groove is provided so that a sealing plate can slide in the guide slide groove. A diaphragm hole opened to the right is provided in the inner wall on the right side, and a U-shaped groove is provided between the throttle hole and the guide slide groove so as to communicate vertically symmetrically. A gas turbine capable of mixing and burning a plurality of types of gases according to claim 2. The plurality of types of gas according to claim 5, wherein the flow velocity of the gas increases when the gas passes through the throttle hole, and the output device is driven by the kinetic energy of the gas. Gas turbine that can. A pressure spring is fixedly connected between the right end of the sealing plate and the right inner wall of the guide slide groove, a pressure probe is fixedly connected to the left end of the sealing plate, and the pressure probe is connected to the pressure probe. The gas turbine capable of mixing and burning a plurality of types of gases according to claim 5, wherein the pressure spring is connected so as to be energized. The output device includes an empty space provided in the fixed box, and an air inlet hole opened to the left is provided in the left inner wall of the empty space so as to communicate with the air inlet hole. It communicates with the drawing hole and is provided so that the connecting rotating component can rotate in the empty space, the left end of the output shaft is fixedly connected to the connecting rotating component, and the right end of the output shaft is said. Four blades are fixedly connected to the circumferential surface of the connecting rotating component, and the four blades are arranged in an annular shape at equal intervals on the upper and lower inner walls of the empty space. The gas turbine capable of mixing and burning a plurality of types of gases according to claim 5, wherein exhaust holes opened toward the back are provided so as to communicate with each other. Plugs are symmetrically provided on both the upper and lower sides of the fixed box, and a concave groove opened toward the empty space is provided in the plug, and the plug is covered by the concave groove in the fixed box and the exhaust gas is provided. The holes can be sealed, and pin holes are provided in the inner walls on both the left and right sides of the concave groove so as to communicate with each other. The plurality of types of gases according to claim 8, wherein the engaging holes are symmetrically provided in the inner walls on both the left and right sides, and the engaging holes are opened toward the exhaust holes. A gas turbine that can be burned.

Images