CN108954384A - A kind of burner automating gas turbine - Google Patents
A kind of burner automating gas turbine Download PDFInfo
- Publication number
- CN108954384A CN108954384A CN201810960384.XA CN201810960384A CN108954384A CN 108954384 A CN108954384 A CN 108954384A CN 201810960384 A CN201810960384 A CN 201810960384A CN 108954384 A CN108954384 A CN 108954384A
- Authority
- CN
- China
- Prior art keywords
- rotary shaft
- chamber
- bevel gear
- working chamber
- gear
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23R—GENERATING COMBUSTION PRODUCTS OF HIGH PRESSURE OR HIGH VELOCITY, e.g. GAS-TURBINE COMBUSTION CHAMBERS
- F23R3/00—Continuous combustion chambers using liquid or gaseous fuel
- F23R3/02—Continuous combustion chambers using liquid or gaseous fuel characterised by the air-flow or gas-flow configuration
- F23R3/26—Controlling the air flow
Landscapes
- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Gear Transmission (AREA)
Abstract
A kind of burner of automation gas turbine of the invention includes apparatus main body, the intake velocity regulating device being set in described device main body, the pressure measuring unit for being set to the intracorporal pressurizing device of described device master and being set to outside described device main body, the intake velocity regulating device includes being set to intracorporal first working chamber of described device master, motor is installed in end wall on the left of first working chamber, the output shaft of the motor is installed with the transmission shaft for the connection that is rotatably assorted with end wall on the left of first working chamber, the first spur gear is installed on the transmission shaft, the engagement of first spur gear lower end is connected with the second spur gear, the second working chamber is equipped on the left of first working chamber in end wall;The present apparatus can act as adjustment effect for the feed rate of burner and the pressure of air inlet, can effectively improve the efficiency of burner, reduce the waste of the energy.
Description
Technical field
The present invention relates to gas turbine field, the burner of specifically a kind of automation gas turbine.
Background technique
The gas that gas turbine signal is continuously flowed is working medium impeller high speed rotation, is to have by the energy conversion of fuel
Diligent internal combustion is that power is, is a kind of rotary vane type Thermal Motor, and burn indoor intake velocity, admission pressure
All there is influence to the efficiency of combustion of fuel, how to improve the efficiency of combustion of gas turbine, achieve the effect that energy saving, causes
Unnecessary waste, thus it is a kind of automate gas turbine burner it is really necessary to.
Summary of the invention
Technical problem to be solved by the invention is to provide a kind of burners for automating gas turbine, are able to solve
The problems in above-mentioned present technology.
The present invention is achieved through the following technical solutions: a kind of burning dress of automation gas turbine of the invention
It sets, including apparatus main body, the intake velocity regulating device being set in described device main body, to be set to described device master intracorporal
Pressurizing device and the pressure measuring unit being set to outside described device main body, the intake velocity regulating device include being set to
Intracorporal first working chamber of described device master is installed with motor, the output of the motor in end wall on the left of first working chamber
Axis is installed with the transmission shaft for the connection that is rotatably assorted with end wall on the left of first working chamber, and it is straight to be installed with first on the transmission shaft
Gear, the engagement of first spur gear lower end are connected with the second spur gear, are equipped in end wall on the left of first working chamber
Second working chamber, second spur gear axle center be installed with left and right end respectively with end wall on the left of second working chamber and described the
End wall is rotatably assorted the first rotary shaft of connection on the right side of one working chamber, and third spur gear and the are installed in first rotary shaft
Four spur gears, the second working chamber left side end wall is interior to be equipped with the turbine chamber of opening to the left, end wall on the right side of second working chamber
Be rotatably assorted the second rotary shaft for being connected with and being extended into the turbine chamber to the left, is slidably connected in second rotary shaft
Have the first limited block, first limited block left end abut be fixedly arranged in second rotary shaft and be moved to the left posterior end with
The 5th spur gear that the 4th spur gear engagement is cooperatively connected, the 5th spur gear left end, which abuts, the second limited block, institute
It states the second limited block left end and is installed with the spring covered in second rotary shaft, the spring left end is installed with and described second
The third limited block of rotary shaft sliding connection, third limited block left end abut and are fixedly arranged in second rotary shaft
The 6th spur gear, the 6th spur gear left end abuts the 4th limit having with second rotary shaft sliding connection
Block, second rotary shaft left end are installed with turbine, and connection is equipped with first and moves rod cavity and the second shifting on the upside of second working chamber
Rod cavity, first limited block and the 4th limited block upper end are installed with the first shifting bar respectively and second moves bar, and described first moves bar
It is connected on the upside of chamber and the second shifting rod cavity and is equipped with slide plate chamber, the first shifting bar and the second shifting bar upper end are installed with and the cunning
The slide plate of plate chamber sliding connection, the slide plate upper surface are installed with rack gear, and connection is equipped with gear cavity on the upside of the slide plate chamber,
The rack gear engagement is connected with the 7th spur gear, and the 7th spur gear axle center is installed with before and after both ends and the gear cavity
Side wall is rotatably assorted the third rotary shaft of connection, and first bevel gear, the first cone tooth are installed in the third rotary shaft
Wheel right end engagement is connected with second bevel gear, is equipped with third working chamber, second cone on the right side of the gear cavity in end wall
Gear axis is installed with the 4th rotary shaft extended into the right in the third working chamber, and the 4th rotary shaft right end is installed with
Third hand tap gear, the third hand tap gear lower end engagement are connected with the 4th bevel gear that can be moved forward and backward, the 4th cone
Gear axis is installed with axle sleeve, and the axle sleeve axle center is installed with telescopic shaft, and the telescopic shaft front end, which is fixedly connected with, is fixedly arranged on institute
The cylinder of third working chamber is stated, the 4th bevel gear moves backward rear right end engagement and is connected with the 5th bevel gear, described
The 5th working chamber is equipped on the right side of third working chamber in end wall, the 5th bevel gear axle center, which is installed with, extends into the right the described 5th
The 4th rotary shaft in working chamber, the 4th rotary shaft right end are installed with the 6th bevel gear, and the 6th bevel gear upper end is nibbled
Conjunction is connected with the 7th bevel gear, and the 7th bevel gear axle center is installed with both ends and the 5th working chamber upper and lower sides end wall
Be rotatably assorted the 5th rotary shaft of connection, is installed with the 8th bevel gear, the 8th bevel gear lower end in the 5th rotary shaft
Engagement is connected with the 9th bevel gear, is equipped with the 6th working chamber, the 9th cone tooth on front side of the 5th working chamber in end wall
Wheel axle center is installed with the 6th rotary shaft extended forwardly in the 6th working chamber, and the 6th rotary shaft front end is installed with the
Ten bevel gears, the tenth bevel gear left end engagement are connected with the 11st bevel gear, and the 11st bevel gear axle center is solid
It is rotatably assorted the 7th rotary shaft of connection equipped with end wall on the left of left end and the 6th working chamber, it is fixed in the 7th rotary shaft
There is first pulley, be connected between the 6th working chamber and first working chamber and be equipped with belt chamber, the first pulley passes through
Belt, which is rotatably assorted, is connected with the second belt wheel.
The pressure apparatus includes being fixedly arranged on the first of the 7th rotary shaft front end face to consolidate as a preferred technical solution,
Dead axle is installed with the first link block in first fixing axle, is installed with the second fixing axle on first link block, and described
Two fixing axles are slidably connected with the second link block, and connection is equipped with slide bar chamber on the upside of the 6th working chamber, and described second connects
It connects block upper surface and is installed with the slide bar being slidably connected with the slide bar chamber, connection is equipped with slide block chamber, institute on the upside of the slide bar
It states slide bar upper end and is installed with the sliding block being slidably connected with the slide block chamber, connection is equipped with air cavity, institute on the upside of the slide block chamber
It states end wall on the upside of air cavity and is installed with partition.
It is installed with cavity on the right side of the 6th working chamber in end wall as a preferred technical solution, it is fixed in the cavity
Combuster, connection is equipped with fuel gas conduit in the combustion chamber, is installed with spark plug, the turbine chamber, air cavity in the combustion chamber
And it is connected between the combustion chamber by pipeline.
The pressure measuring unit includes the fixation for being set to described device main body upper surface as a preferred technical solution,
Block, the interior gas chamber being connected to equipped with downside with the fuel gas conduit of the fixed block, gas chamber right side connection is equipped with delivery pipe, described
Throttle valve is installed in delivery pipe, the upper end of fixing block is installed with induction rod, and the induction rod upper end is installed with pressure and shows
Device, for measuring the pressure of gas in described device main body.
The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, control burner is carried out by the present apparatus
Intake velocity and admission pressure when, motor start to work, motor by transmission shaft drive the first spur gear rotation, to pass through
Second spur gear drives the rotation of the first rotary shaft, then drives first pulley rotation by the second belt wheel, eventually by the 7th rotation
The dynamic 11st bevel gear rotation of shaft band, the 11st bevel gear drive the rotation of the first fixing axle by the tenth bevel gear, thus
The rotation of the second fixing axle is driven by the first link block, then the second fixing axle is done past up and down by the second link block band moving slide-bar
Multiple movement, final slide bar band movable slider pump, and the first rotary shaft drives third spur gear and the 4th straight-tooth rotation
Dynamic, cylinder is started to work at this time, and cylinder drives the 4th bevel gear to move backward by telescopic shaft, and the tenth bevel gear passes through the 6th rotation
Shaft drives the rotation of the 9th bevel gear, to drive the rotation of the 5th rotary shaft by the 8th bevel gear, then passes through the 7th cone tooth
Wheel drives the rotation of the 6th bevel gear, drives the rotation of the 5th bevel gear eventually by the 4th rotary shaft, the 5th bevel gear passes through the 4th
Bevel gear drives third hand tap gear rotation, to drive second bevel gear rotation by the 4th rotary shaft, then passes through the first cone
Gear drive third rotary shaft rotation, eventually by the 7th spur gear band carry-over bar move left and right, rack gear by first move bar and
Second moves bar the 4th limited block of drive and the movement of the first limited block, thus drive and movement, shape is engaged in selection according to the actual situation
State, and drive the 6th spur gear and the rotation of the 5th spur gear respectively in varied situations, to drive whirlpool by the second rotary shaft
Wheel rotation, air is pressed into air cavity, the present apparatus can act as the feed rate of burner and the pressure of air inlet
Adjustment effect can effectively improve the efficiency of burner, reduce the waste of the energy.
Detailed description of the invention
The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.
Fig. 1 is a kind of schematic diagram of internal structure of the burner of automation gas turbine of the invention;
Fig. 2 is the schematic top plan view in direction " A-A " in Fig. 1;
Fig. 3 is the schematic top plan view in direction " B-B " in Fig. 1.
Specific embodiment
As shown in Figure 1-Figure 3, the burner of a kind of automation gas turbine of the invention, including apparatus main body 10, set
It the intake velocity regulating device that is placed in described device main body 10, the pressurizing device being set in described device main body 10 and sets
The pressure measuring unit being placed in outside described device main body 10, the intake velocity regulating device include being set to described device main body
The first working chamber 11 in 10 is installed with motor 12, the output shaft of the motor 12 in first working chamber, the 11 left side end wall
It is installed with the transmission shaft 13 for the connection that is rotatably assorted with the 11 left side end wall of the first working chamber, is installed on the transmission shaft 13
One spur gear 14,14 lower end of the first spur gear engagement are connected with the second spur gear 15, and first working chamber 11 is left
Be equipped with the second working chamber 16 in the wall of side, 15 axle center of the second spur gear be installed with left and right end respectively with second working chamber
16 left side end walls and first working chamber, 11 right side end wall are rotatably assorted the first rotary shaft 17 of connection, first rotary shaft
It is installed with third spur gear 18 and the 4th spur gear 19 on 17, is equipped with and is open to the left in the 16 left side end wall of the second working chamber
Turbine chamber 20, the 16 right side end wall of the second working chamber are rotatably assorted second for being connected with and being extended into the turbine chamber 20 to the left
Rotary shaft 21 is slidably connected with the first limited block 22 in second rotary shaft 21, and 22 left end of the first limited block is supported
Be connected to be fixedly arranged in second rotary shaft 21 and be moved to the left posterior end engaged with the 4th spur gear 19 be cooperatively connected
5th spur gear 23,23 left end of the 5th spur gear, which abuts, the second limited block 24, and 24 left end of the second limited block is fixed
There is the spring 25 covered in second rotary shaft 21,25 left end of spring is installed with matches with second rotary shaft 21 sliding
The third limited block 26 of connection is closed, 26 left end of third limited block, which abuts, the 6th be fixedly arranged in second rotary shaft 21
Spur gear 27,27 left end of the 6th spur gear abut the 4th limited block having with second rotary shaft 21 sliding connection
28,21 left end of the second rotary shaft is installed with turbine 29, and connection is equipped with first and moves rod cavity 30 on the upside of second working chamber 16
Rod cavity 31 is moved with second, first limited block 22 and 28 upper end of the 4th limited block are installed with the first shifting bar 32 and second respectively and move
It is connected on the upside of bar 33, the first shifting rod cavity 30 and the second shifting rod cavity 31 and is equipped with slide plate chamber 34, described first moves 32 He of bar
Second shifting 33 upper end of bar is installed with the slide plate 35 with the slide plate chamber 34 sliding connection, and the slide plate upper surface is fixed with teeth
Item 36, connection is equipped with gear cavity 37 on the upside of the slide plate chamber 34, and the engagement of rack gear 36 is connected with the 7th spur gear 38, institute
State that 38 axle center of the 7th spur gear is installed with both ends and the 37 front and back side wall of gear cavity is rotatably assorted the third rotary shaft of connection
39, it is installed with first bevel gear 40 in the third rotary shaft 39,40 right end of the first bevel gear engagement is connected with the
Two bevel gears 41, the 37 right side end wall of gear cavity is interior to be equipped with third working chamber 42, and 41 axle center of second bevel gear is installed with
The 4th rotary shaft 43 in the third working chamber 42 is extended into the right, and 43 right end of the 4th rotary shaft is installed with triconodont
Wheel 44,44 lower end of the third hand tap gear engagement are connected with the 4th bevel gear 45 that can be moved forward and backward, the 4th cone tooth
It takes turns 45 axle center and is installed with axle sleeve 46,46 axle center of axle sleeve is installed with telescopic shaft 47, and 47 front end of telescopic shaft is fixedly connected with
It is fixedly arranged on the cylinder 48 of the third working chamber 42, the 4th bevel gear 45 moves backward rear right end engagement and is connected with the
Five bevel gears 49, the 42 right side end wall of third working chamber is interior to be equipped with the 5th working chamber 50, and 49 axle center of the 5th bevel gear is solid
Equipped with the 4th rotary shaft 51 extended into the right in the 5th working chamber 50,51 right end of the 4th rotary shaft is installed with the 6th
Bevel gear 52,52 upper end of the 6th bevel gear engagement are connected with the 7th bevel gear 53,53 axle center of the 7th bevel gear
It is installed with both ends and the 50 upper and lower sides end wall of the 5th working chamber is rotatably assorted the 5th rotary shaft 54 of connection, the 5th rotation
The 8th bevel gear 55 is installed on axis 54,55 lower end of the 8th bevel gear engagement is connected with the 9th bevel gear 56, described
The 6th working chamber 57 is equipped in 5th working chamber, 50 front side end wall, 56 axle center of the 9th bevel gear, which is installed with, extends forwardly to institute
State the 6th rotary shaft 58 in the 6th working chamber 57,58 front end of the 6th rotary shaft is installed with the tenth bevel gear 59, and described
The engagement of ten bevel gears, 59 left end is connected with the 11st bevel gear 60,60 axle center of the 11st bevel gear be installed with left end with
6th working chamber, the 57 left side end wall is rotatably assorted the 7th rotary shaft 61 of connection, is installed in the 7th rotary shaft 61
One belt wheel 62 is connected between the 6th working chamber 57 and first working chamber 11 and is equipped with belt chamber 63, the first pulley
62 are rotatably assorted by belt is connected with the second belt wheel 64.
Valuably, the pressure apparatus includes the first fixing axle 65 for being fixedly arranged on 61 front end face of the 7th rotary shaft, institute
It states and is installed with the first link block 66 in the first fixing axle 65, the second fixing axle 67 is installed on first link block 66, it is described
Second fixing axle 67 is slidably connected with the second link block 68, and connection is equipped with slide bar chamber 69 on the upside of the 6th working chamber 57,
Second link block, 68 upper surface is installed with the slide bar 70 with the slide bar chamber 69 sliding connection, 70 upside of slide bar
Connection is equipped with slide block chamber 71, and 70 upper end of slide bar is installed with the sliding block 72 with the slide block chamber 71 sliding connection, described
Connection is equipped with air cavity 73 on the upside of slide block chamber 71, and the 73 upside end wall of air cavity is installed with partition 74.
Valuably, it is installed with cavity 75 in the 57 right side end wall of the 6th working chamber, is installed with burning in the cavity 75
Room 76, connection is equipped with fuel gas conduit 77 in the combustion chamber, is installed with spark plug 78 in the combustion chamber 76, the turbine chamber 20,
It is connected between air cavity 73 and the combustion chamber 76 by pipeline.
Valuably, the pressure measuring unit includes the fixed block 90 for being set to 10 upper surface of described device main body, described
The gas chamber 91 that downside is connected to the fuel gas conduit 77 is equipped in fixed block 90, connection is equipped with delivery pipe 92 on the right side of the gas chamber 91,
Throttle valve 93 is installed in the delivery pipe 92,90 upper end of fixed block is installed with induction rod 94,94 upper end of induction rod
It is installed with pressure display unit 95, for measuring the pressure of gas in described device main body 10.
When carrying out the intake velocity and admission pressure of control burner by the present apparatus, motor 12 is started to work, motor
12 drive the rotation of the first spur gear 14 by transmission shaft 13, so that the rotation of the first rotary shaft 17 is driven by the second spur gear 15,
Then first pulley 62 is driven to rotate by the second belt wheel 64, eventually by dynamic 11st bevel gear 60 of 61 band of the 7th rotary shaft
Rotation, the 11st bevel gear 60 drives the rotation of the first fixing axle 65 by the tenth bevel gear 59, to pass through the first link block 66
The second fixing axle 67 is driven to rotate, then the second fixing axle 67 is done with moving slide-bar 70 by the second link block 68 and up and down reciprocatingly transported
Dynamic, final slide bar 70 pumps with movable slider 72, and the first rotary shaft 17 drives third spur gear 18 and the 4th straight-tooth
19 rotation of wheel, cylinder 48 is started to work at this time, and cylinder 48 drives the 4th bevel gear 45 to move backward by telescopic shaft 47, the tenth cone
Gear 59 drives the rotation of the 9th bevel gear 56 by the 6th rotary shaft 58, to drive the 5th rotary shaft by the 8th bevel gear 55
54 rotations, then drive the rotation of the 6th bevel gear 52 by the 7th bevel gear 53, drive the 5th eventually by the 4th rotary shaft 51
Bevel gear 49 rotates, and the 5th bevel gear 49 drives third hand tap gear 44 to rotate by the 4th bevel gear 45, to pass through the 4th rotation
Shaft 43 drives second bevel gear 41 to rotate, and then drives third rotary shaft 39 to rotate by first bevel gear 40, eventually by
7th spur gear 38 is moved left and right with carry-over bar 36, and rack gear 36 moves bar 32 and second by first and moves the 4th limited block of drive of bar 33
28 and first limited block 22 it is mobile, to drive 27 and 23 mobile, select meshing state according to the actual situation, 18 and 19 in difference
In the case of drive the 6th spur gear 27 and the 5th spur gear 23 to rotate respectively, to drive 29 turns of turbine by the second rotary shaft 21
It is dynamic, air is pressed into air cavity 73.
The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, control burner is carried out by the present apparatus
Intake velocity and admission pressure when, motor start to work, motor by transmission shaft drive the first spur gear rotation, to pass through
Second spur gear drives the rotation of the first rotary shaft, then drives first pulley rotation by the second belt wheel, eventually by the 7th rotation
The dynamic 11st bevel gear rotation of shaft band, the 11st bevel gear drive the rotation of the first fixing axle by the tenth bevel gear, thus
The rotation of the second fixing axle is driven by the first link block, then the second fixing axle is done past up and down by the second link block band moving slide-bar
Multiple movement, final slide bar band movable slider pump, and the first rotary shaft drives third spur gear and the 4th straight-tooth rotation
Dynamic, cylinder is started to work at this time, and cylinder drives the 4th bevel gear to move backward by telescopic shaft, and the tenth bevel gear passes through the 6th rotation
Shaft drives the rotation of the 9th bevel gear, to drive the rotation of the 5th rotary shaft by the 8th bevel gear, then passes through the 7th cone tooth
Wheel drives the rotation of the 6th bevel gear, drives the rotation of the 5th bevel gear eventually by the 4th rotary shaft, the 5th bevel gear passes through the 4th
Bevel gear drives third hand tap gear rotation, to drive second bevel gear rotation by the 4th rotary shaft, then passes through the first cone
Gear drive third rotary shaft rotation, eventually by the 7th spur gear band carry-over bar move left and right, rack gear by first move bar and
Second moves bar the 4th limited block of drive and the movement of the first limited block, thus drive and movement, shape is engaged in selection according to the actual situation
State, and drive the 6th spur gear and the rotation of the 5th spur gear respectively in varied situations, to drive whirlpool by the second rotary shaft
Wheel rotation, air is pressed into air cavity, the present apparatus can act as the feed rate of burner and the pressure of air inlet
Adjustment effect can effectively improve the efficiency of burner, reduce the waste of the energy.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention
Protection scope should be determined by the scope of protection defined in the claims.
Claims (4)
1. a kind of burner of automation gas turbine of the invention, including apparatus main body, it is set in described device main body
Intake velocity regulating device, the pressure that is set to the intracorporal pressurizing device of described device master and is set to outside described device main body
Power measurement device, it is characterised in that: the intake velocity regulating device includes being set to intracorporal first work of described device master
Chamber is installed with motor in end wall on the left of first working chamber, and the output shaft of the motor is installed with and first working chamber
Left side end wall is rotatably assorted the transmission shaft of connection, is installed with the first spur gear, first spur gear lower end on the transmission shaft
Engagement is connected with the second spur gear, is equipped with the second working chamber, second straight-tooth on the left of first working chamber in end wall
Wheel axle center is installed with left and right end and matches respectively with end wall rotation on the right side of end wall on the left of second working chamber and first working chamber
The first rotary shaft of connection is closed, third spur gear and the 4th spur gear, second work are installed in first rotary shaft
The turbine chamber of opening to the left is equipped on the left of chamber in end wall, end wall is rotatably assorted to be connected on the right side of second working chamber extends to the left
Enter the second rotary shaft in the turbine chamber, is slidably connected with the first limited block in second rotary shaft, described first
Limited block left end, which abuts to be fixedly arranged in second rotary shaft and be moved to the left posterior end and engage with the 4th spur gear, matches
The 5th spur gear of connection is closed, the 5th spur gear left end, which abuts, the second limited block, and second limited block left end is fixed
There is the spring covered in second rotary shaft, the spring left end is installed with and second rotary shaft sliding connection
Third limited block, third limited block left end, which abuts, the 6th spur gear being fixedly arranged in second rotary shaft, and described the
Six spur gear left ends abut the 4th limited block having with second rotary shaft sliding connection, second rotary shaft left end
Be installed with turbine, connection, which is equipped with first and moves rod cavity and second, on the upside of second working chamber moves rod cavity, first limited block and
4th limited block upper end is installed with the first shifting bar respectively and second moves bar, and described first, which moves rod cavity and described second, moves on the upside of rod cavity
Connection is equipped with slide plate chamber, and the first shifting bar and the second shifting bar upper end are installed with the cunning with slide plate chamber sliding connection
Plate, the slide plate upper surface are installed with rack gear, and connection is equipped with gear cavity on the upside of the slide plate chamber, and the rack gear engagement is cooperatively connected
There is the 7th spur gear, the 7th spur gear axle center is installed with side wall before and after both ends and the gear cavity and is rotatably assorted connection
Third rotary shaft, first bevel gear is installed in the third rotary shaft, and the first bevel gear right end engagement is connected with
Second bevel gear, gear cavity right side end wall is interior to be equipped with third working chamber, and the second bevel gear axle center, which is installed with, prolongs to the right
The 4th rotary shaft in the third working chamber is protruded into, the 4th rotary shaft right end is installed with third hand tap gear, the third
The engagement of bevel gear lower end is connected with the 4th bevel gear that can be moved forward and backward, and the 4th bevel gear axle center is installed with axle sleeve,
The axle sleeve axle center is installed with telescopic shaft, and the telescopic shaft front end is fixedly connected with the cylinder for being fixedly arranged on the third working chamber,
4th bevel gear moves backward rear right end engagement and is connected with the 5th bevel gear, on the right side of the third working chamber in end wall
Equipped with the 5th working chamber, the 5th bevel gear axle center is installed with the 4th rotation extended into the right in the 5th working chamber
Axis, the 4th rotary shaft right end are installed with the 6th bevel gear, and the 6th bevel gear upper end engagement is connected with the 7th cone
Gear, the 7th bevel gear axle center is installed with both ends and the 5th working chamber upper and lower sides end wall is rotatably assorted the 5th of connection
Rotary shaft, the 8th bevel gear is installed in the 5th rotary shaft, and the 8th bevel gear lower end engagement is connected with the 9th
Bevel gear, the 5th working chamber front side end wall is interior to be equipped with the 6th working chamber, and the 9th bevel gear axle center, which is installed with, prolongs forward
Protrude into the 6th rotary shaft in the 6th working chamber, the 6th rotary shaft front end is installed with the tenth bevel gear, and the described tenth
The engagement of bevel gear left end is connected with the 11st bevel gear, and the 11st bevel gear axle center is installed with left end and the described 6th
End wall is rotatably assorted the 7th rotary shaft of connection on the left of working chamber, is installed with first pulley in the 7th rotary shaft, and described the
It is connected between six working chambers and first working chamber and is equipped with belt chamber, the first pulley is rotatably assorted by belt to be connected with
Second belt wheel.
2. a kind of burner for automating gas turbine according to claim 1, it is characterised in that: the pressure apparatus
The first fixing axle including being fixedly arranged on the 7th rotary shaft front end face is installed with the first link block in first fixing axle,
The second fixing axle is installed on first link block, second fixing axle is slidably connected with the second link block, described
Connection is equipped with slide bar chamber on the upside of 6th working chamber, and second link block upper surface is installed with to be slidably matched company with the slide bar chamber
The slide bar connect, connection is equipped with slide block chamber on the upside of the slide bar, and the slide bar upper end is installed with to be slidably matched company with the slide block chamber
The sliding block connect, slide block chamber upside connection are equipped with air cavity, and end wall is installed with partition on the upside of the air cavity.
3. a kind of burner for automating gas turbine according to claim 1, it is characterised in that: the 6th work
It is installed with cavity on the right side of chamber in end wall, fixed combuster in the cavity, connection is described equipped with fuel gas conduit in the combustion chamber
It is installed with spark plug in combustion chamber, is connected between the turbine chamber, air cavity and the combustion chamber by pipeline.
4. a kind of burner for automating gas turbine according to claim 1, it is characterised in that: the piezometry
Device includes the fixed block for being set to described device main body upper surface, is equipped with downside in the fixed block and is connected to the fuel gas conduit
Gas chamber, connection is equipped with delivery pipe on the right side of the gas chamber, is installed with throttle valve in the delivery pipe, the upper end of fixing block is fixed
There is induction rod, the induction rod upper end is installed with pressure display unit, for measuring the pressure of gas in described device main body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810960384.XA CN108954384A (en) | 2018-08-22 | 2018-08-22 | A kind of burner automating gas turbine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810960384.XA CN108954384A (en) | 2018-08-22 | 2018-08-22 | A kind of burner automating gas turbine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN108954384A true CN108954384A (en) | 2018-12-07 |
Family
ID=64473800
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201810960384.XA Withdrawn CN108954384A (en) | 2018-08-22 | 2018-08-22 | A kind of burner automating gas turbine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN108954384A (en) |
-
2018
- 2018-08-22 CN CN201810960384.XA patent/CN108954384A/en not_active Withdrawn
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101117914B (en) | Boost system and implement assembly | |
US3809026A (en) | Rotary vane internal combustion engine | |
CN108954384A (en) | A kind of burner automating gas turbine | |
CN108954385A (en) | A kind of burner and its application method of gas turbine | |
CN103016143A (en) | Novel internal-combustion engine | |
CN109099459A (en) | A kind of burner of gas turbine | |
CN109139254A (en) | A kind of gas turbine exhaust gas processing unit and its application method | |
CN208138060U (en) | Three rows mouthful turbojet | |
CN204060931U (en) | The differential transmission mechanism of internal-combustion engine | |
CN203067082U (en) | Novel combustion motor | |
CN111486592B (en) | Biomass heat supply boiler complete equipment capable of uniformly heating | |
CN109330403A (en) | A kind of barbecue rack adds carbon device | |
CN101260829A (en) | Gear alternate-dent control type rotor engine | |
CN110410197A (en) | Double-colored liquid-state silicon gel injection forming machine | |
CN208885518U (en) | Double helix supercharging device and engine comprising the double helix supercharging device | |
CN109098785A (en) | The double-current steam turbine of cloud data | |
CN213713053U (en) | Skid-mounted alcohol-based fuel heating device | |
CN216591796U (en) | Automatic secondary air door regulating and controlling device for intelligent combustion system | |
CN103016140B (en) | The split type pressurized machine of a kind of turbosupercharged engine | |
CN113153821B (en) | Flow self-adaptation stator adjusting device based on hydraulic drive | |
CN109236470A (en) | A kind of gas storage facility | |
CN202431469U (en) | Pneumatic drive reciprocating oil pump | |
CN108952833A (en) | Double-current steam turbine and application method | |
CN201057085Y (en) | Energy-saving and rotating piston type internal combustion engine | |
CN111089307A (en) | Efficient double-frying single-temperature energy-saving stove and method |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
WW01 | Invention patent application withdrawn after publication |
Application publication date: 20181207 |
|
WW01 | Invention patent application withdrawn after publication |