CN108860545A - A kind of gas-turbine unit - Google Patents

Abstract

The invention discloses a kind of gas-turbine units, including hull, a lifting space is provided in the hull, a storage space is symmetrically arranged in the left hand end wall of the lifting space, end wall of the storage space close to lifting space is connected with lifting space, a driving space is provided in the upper end wall of the lifting space, the storage space lower end wall is provided with a mobile space, it is provided with an elevator in the lifting space, a transmission mechanism is provided in the elevator.This apparatus structure is simple, operate it is convenient, the present invention work in, replace propeller automatically again in propeller failure, it is not necessary to be lauched the propeller of trouble shooting, ensure that navigation during it is smooth quickly, reduce because be lauched repair due to generates danger possibility.

Description

A kind of gas-turbine unit

Technical field

The present invention relates to hull manufacturing field, specially a kind of gas-turbine unit.

Background technique

Currently, ship is made with the development of science and technology the development of society, people are increasing to the curiosity of ocean and exploration It is increasingly advanced with developing for the necessity of ocean navigation, but some ships at this stage are encountering fishing net seaweed etc. to spiral When paddle damages, it can only manually be lauched debugging, the given time for consuming navigation of increasing, the work of increased personnel It measures, and personnel are lauched operation very big risk.

Summary of the invention

The purpose of the present invention is to provide a kind of gas-turbine units, to solve mentioned above in the background art ask Topic.

To achieve the above object, the present invention provides the following technical solutions：A kind of gas-turbine unit, including hull, institute It states and is provided with a lifting space in hull, be symmetrically arranged with a storage space, the storage in the left hand end wall of the lifting space End wall of the space close to lifting space is connected with lifting space, is provided with a driving space in the upper end wall of the lifting space, Driving space right end wall is fixedly connected with a driving motor, and the driving motor left side has been connected by power a drive shaft, The drive shaft left end is connect with driving spatial rotational, and sliding sky is symmetrically set in the upper end wall of the driving space Between, the sliding space lower end wall is provided with the sliding groove in connection driving space, slidably connects one in the sliding space Sliding shoe is provided with a promotion space in the sliding shoe, slidably connects a pushing plate, the promotion in the promotion space A push the spring is fixedly connected between plate upper surface and promotion space upper end wall, the pushing plate upper surface bilateral symmetry is fixed It is connected with the first electromagnet, upper end wall bilateral symmetry in the promotion space is fixedly connected with the second electromagnet, under the pushing plate End face bilateral symmetry is fixedly connected with a catch bar, and the catch bar lower end is nibbled through sliding groove and positioned at driving space, described It pushes space to be provided with a spring compartment in the end wall of driving space center, a bullet is slidably connected in the spring compartment Spring base, the spring lever lower end is through sliding groove and is located in driving space, and the spring compartment is close to driving space center End wall is symmetrical above and below to be fixedly connected with the 4th electromagnet, and the spring compartment is fixedly connected with close to the end wall of driving space center One compressed spring, close to driving, the end face of space center is symmetrical above and below to be fixedly connected with the spring lever in spring compartment Third electromagnet, the spring lever lower end are fixedly connected with a jacking block far from the end face of driving space center, in the drive shaft The heart is fixedly connected with a roller, and a translation slot, the drive shaft bilateral symmetry are symmetrically set on the drive shaft axis body Threaded engagement is connected with the first pushing block, and first pushing block is fixedly connected with a gag lever post far from the end face of roller, described First pushing block is symmetrically set with the second pushing block connecting with drive shaft threaded engagement close to the side of roller, described flat It moves in slot and slidably connects a flat key, the first cone tooth is connected with by flat key on the drive shaft axis body being located at translation slot Wheel, the first bevel gear and drive shaft are slidably connected, and the jacking block is connect with first bevel gear Contact Transmission, and described the Two pushing blocks are provided with a spring close to the right side of roller, and the spring groove is fixedly connected with one far from the end wall of roller and stretches Spring, the adjustable spring are fixedly connected with a spring stack close to one end of roller, and the spring stack is passed through close to one end of roller It wears spring groove to connect close to the end wall of roller and with first bevel gear Contact Transmission, a translation is provided in the storage space Axis, the storage space upper end wall are provided with the shifting chute in connection driving space, and the storage space lower end wall is provided with one Mobile space, the mobile space upper end wall are connected to storage space, and the mobile space slidably connects a movable block, described flat Axis lower end is moved through mobile space upper end wall and is fixedly connected with movable block, it is located at drive through shifting chute for the translation shaft upper end In dynamic space, the translation shaft upper end is located between two pieces of pushing blocks and connect with pushing block Contact Transmission, described to be located at drive It is fixedly connected with second bevel gear on translation shaft axis body in dynamic space, the translation shaft axis body threaded engagement is connected with a translation Block, the translational block are fixedly connected with a propeller mechanism close to the one end in lifting space, are provided with one in the lifting space Elevator, the elevator upper surface bilateral symmetry are fixedly connected with a rope, and the rope upper end is through lifting space upper end It wall and is fixedly connected with roller, a transmission mechanism is provided in the elevator.

Preferably, the propeller mechanism includes rotating block, it is provided with a rotation space in the rotating block, described turn A rotating bevel gear is provided in dynamic space, being connected by meshing transmission on the right side of the rotating bevel gear has a driven wheel of differential, described Driven wheel of differential center is fixedly connected with a driven shaft, and the driven shaft left end and rotation space left end wall are rotatablely connected, described Driven shaft right end is through rotation space right end wall and is located in storage space, and the rotating bevel gear center is fixedly connected with one turn Moving axis, the rotation axis upper end is through rotation space upper end wall and is located in storage space, the rotation axis upper end bilateral symmetry It is provided with the second link slot, the second link slot upper end wall is connected to storage space, and second link slot is far from rotation axis The end wall of the heart is connected to logical storage space.

Preferably, the transmission mechanism includes transmission space, the transmission space upper end wall has been connected by power a combustion gas Turbogenerator, the gas-turbine unit lower end surface have been connected by power a transmission shaft, the transmission space lower end wall setting There is the intercommunicating pore in connection lifting space, the transmission shaft lower end is through intercommunicating pore and is located in lifting space, the transmission shaft The first link slot is symmetrically set on axis body, the first link slot lower end wall is through transmission shaft lower end surface and empty with lifting Between be connected, a link block is slidably connected in first link slot, the intercommunicating pore left hand end wall is symmetrically arranged with a limit Position slot, slidably connects the 5th electromagnet in the limiting slot, is provided with a hydraulicefficiency elevation structure in the limiting slot lower end wall, The hydraulicefficiency elevation structure upper end is fixedly connected through limiting slot lower end wall and with the 5th electromagnet lower end surface.

Preferably, the elastic force of the compressed spring is much larger than the elastic force of adjustable spring, the third electromagnet and the 4th The magnetic force of electromagnet is much larger than the elastic force of compressed spring.

Compared with prior art, the beneficial effects of the invention are as follows：In present invention work, when the propeller mechanism to work When breaking down, driving motor work is to drive roller to rotate, to drive elevator to rise, while the third electromagnetism on right side Iron does not work with the 4th electromagnet, pushes first bevel gear to move right so that the spring lever on right side be made to move right, to make The first bevel gear on right side is connected by meshing transmission with second bevel gear, the translation shaft rotation on right side is driven, to drive right side Translational block rises, and the propeller mechanism of failure is driven to rise, when the propeller mechanism of failure rises in lifting space, first Electromagnet does not work with the second electromagnet, and push the spring pushes pushing plate to move downward, to make the two catch bar lower ends in left and right It offsets respectively with spring stack and gag lever post, right side third electromagnet compresses compressed spring with the drive of the 4th work of electromagnet, stretches Contracting spring push the spring column is to taking exercises, so that first bevel gear be made to separate with second bevel gear, the first of right side is pushed at this time Block is moved right with the second pushing block, and the two translation columns in left and right is pushed to move right, and the propeller mechanism of failure is drawn in right side Storage space, and new propeller mechanism is moved into lifting space with left side translation shaft, when new propeller mechanism position When on the downside of elevator, driving motor is rotated backward, and the first electromagnet and the second work of electromagnet drive catch bar to rise, thus The first pushing block and the second pushing block is set to dally, and elevator decline is up to the first link slot lower end wall and rotation axis of transmission shaft The connection of the second link slot upper end wall, driving motor stops working, the 5th work of electromagnet, the 5th electromagnet and link block phase It inhales, hydraulicefficiency elevation structure works at this time, drives link block and the decline of the 5th electromagnet that link block lower end is made to enter the second link slot Interior, driving motor works at this time, drives roller rotation, and elevator continues to decline, at this time the third electromagnet in left side and the 4th electricity Magnet does not work, and pushes first bevel gear to move right so that the spring lever in left side be made to move right, to make the first of left side Bevel gear is connected by meshing transmission with second bevel gear, drives the translation shaft rotation in left side, so that the translational block decline in left side is driven, To drive new propeller mechanism to decline, after new propeller mechanism enters water, driving motor stops working, gas turbine hair Motivation work, drives propeller rotational, so that ship be driven to continue to move, this apparatus structure is simple, and it is convenient to operate, in propeller event Again propeller is replaced when barrier automatically, it is not necessary to be lauched the propeller of trouble shooting, ensure that smooth quick, the drop during navigation The low possibility for generating danger due to repair because being lauched.

Detailed description of the invention

Fig. 1 is a kind of schematic view of the front view of gas-turbine unit entirety complete section of the present invention；

Fig. 2 is the main view enlarged structure schematic diagram of elevator complete section in a kind of gas-turbine unit entirety of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

A kind of embodiment provided by the invention referring to FIG. 1-2,：A kind of gas-turbine unit, including hull 1, it is described It is provided with a lifting space 56 in hull 1, is symmetrically arranged with a storage space 2 in 56 left hand end wall of lifting space, it is described End wall of the storage space 2 close to lifting space 56 is connected with lifting space 56, is provided in 56 upper end wall of lifting space One driving space 8, the 8 right end wall of driving space are fixedly connected with a driving motor 9, the 9 left side power of driving motor It is connected with a drive shaft 6,6 left end of drive shaft and driving space 8 are rotatablely connected, left and right in 8 upper end wall of driving space It is symmetrically arranged with a sliding space 11,11 lower end wall of sliding space is provided with the sliding groove 12 in connection driving space 8, institute It states and slidably connects a sliding shoe 19 in sliding space 11, a promotion space 17, the promotion are provided in the sliding shoe 19 A pushing plate 15 is slidably connected in space 17, is fixedly connected between 15 upper surface of pushing plate and promotion 17 upper end wall of space There is a push the spring 16,15 upper surface of the pushing plate bilateral symmetry is fixedly connected with the first electromagnet 14, the promotion space 17 upper end walls bilateral symmetry is fixedly connected with the second electromagnet 18, and 15 lower end surface of the pushing plate bilateral symmetry is fixedly connected with one Catch bar 13,13 lower end of catch bar are nibbled through sliding groove 12 and positioned at driving space 8, and the promotion space 17 is close to driving It is provided with a spring compartment 20 in the end wall at 8 center of space, a spring lever 25 is slidably connected in the spring compartment 20, it is described 25 lower end of spring lever is through sliding groove 12 and is located in driving space 8, end of the spring compartment 20 close to driving 8 center of space Wall is symmetrical above and below to be fixedly connected with the 4th electromagnet 27, and end wall of the spring compartment 20 close to driving 8 center of space is fixed to be connected It is connected to a compressed spring 26, the spring lever 25 in spring compartment 20 is right above and below the end face at driving 8 center of space Title is fixedly connected with third electromagnet 28, and 25 lower end of spring lever is fixedly connected with one far from the end face at driving 8 center of space Jacking block 24,6 center of drive shaft are fixedly connected with a roller 21, and it is flat to be symmetrically set with one on 6 axis body of drive shaft Slot 10 is moved, the 8 bilateral symmetry threaded engagement of drive shaft is connected with the first pushing block 36, and first pushing block 36 is far from roller 21 end face is fixedly connected with a gag lever post 33, first pushing block 36 close to the side of roller 21 be symmetrically set with Second pushing block 30 of 6 threaded engagement of drive shaft connection, slidably connects a flat key 22 in the translation slot 10, it is described be located at put down First bevel gear 23, the first bevel gear 23 and drive shaft 6 are connected with by flat key 22 on 6 axis body of drive shaft moved at slot 10 Sliding connection, the jacking block 24 are connect with 23 Contact Transmission of first bevel gear, and second pushing block 30 is close to roller 21 Right side be provided with a spring 31, the spring groove 31 is fixedly connected with an adjustable spring 32, institute far from the end wall of roller 21 It states adjustable spring 32 and is fixedly connected with a spring stack 35 close to one end of roller 21, the spring stack 35 is close to one end of roller 21 It is connect through spring groove 31 close to the end wall of roller 21 and with 24 Contact Transmission of first bevel gear, setting in the storage space 2 There is a translation shaft 4,2 upper end wall of storage space is provided with the shifting chute 5 in connection driving space 8, under the storage space 2 End wall is provided with a mobile space 7, and 7 upper end wall of mobile space is connected to storage space 2, and the mobile space 7 is slidably connected There is a movable block 60,4 lower end of translation shaft is through 7 upper end wall of mobile space and is fixedly connected with movable block 60, the translation Through shifting chute 5, it is located in driving space 84 upper end of axis, 4 upper end of translation shaft be located between two pieces of pushing blocks and with push away The connection of motion block Contact Transmission, it is described to be fixedly connected with second bevel gear 37, institute on 4 axis body of translation shaft driven in space 8 It states 4 axis body threaded engagement of translation shaft and is connected with a translational block 3, the translational block 3 is fixedly connected close to the one end in lifting space 56 There is a propeller mechanism 44, an elevator 47,47 upper surface of the elevator bilateral symmetry are provided in the lifting space 56 It is fixedly connected with a rope 38,38 upper end of rope is fixedly connected through lifting 56 upper end wall of space and with roller 21, described A transmission mechanism 59 is provided in elevator 47.

Valuably, the propeller mechanism 44 includes rotating block 49, is provided with a rotation space 43 in the rotating block 49, A rotating bevel gear 41 is provided in the rotation space 43, being connected by meshing transmission on the right side of the rotating bevel gear 41, there have to be one driven Bevel gear 45,45 center of driven wheel of differential are fixedly connected with a driven shaft 42,42 left end of driven shaft and rotation space The rotation connection of 43 left end walls, 42 right end of driven shaft is through 43 right end wall of rotation space and is located in storage space 2, described turn 41 center of dynamic bevel gear is fixedly connected with a rotation axis 40, and 40 upper end of rotation axis is through 43 upper end wall of rotation space and is located at In storage space 2,40 upper end of rotation axis is symmetrically set with the second link slot 39,39 upper end wall of the second link slot It is connected to storage space 2, second link slot 39 is connected to logical storage space 2 far from the end wall at 40 center of rotation axis, and effect is It can guarantee to can replace in other such mechanism malfunction arbitrarily by device with changing the mechanism.

Valuably, the transmission mechanism 59 includes transmission space 48, and 48 upper end wall of transmission space has been connected by power one Gas-turbine unit 55,55 lower end surface of gas-turbine unit have been connected by power a transmission shaft 50, the transmission space 48 lower end walls are provided with the intercommunicating pore 58 in connection lifting space 56, and 50 lower end of transmission shaft is through intercommunicating pore 58 and is located at liter It drops in space 56, the first link slot 57,57 lower end of the first link slot is symmetrically set on 50 axis body of transmission shaft Wall is connected through 50 lower end surface of transmission shaft and with lifting space 56, slidably connects a link block in first link slot 57 54,58 left hand end wall of intercommunicating pore is symmetrically arranged with a limiting slot 51, slidably connects the 5th electromagnetism in the limiting slot 51 Iron 52 is provided with a hydraulicefficiency elevation structure 53 in 51 lower end wall of limiting slot, and 53 upper end of hydraulicefficiency elevation structure is through limit Position and is fixedly connected 51 lower end wall of slot with 52 lower end surface of the 5th electromagnet, and effect is to make link block 54 in the first link slot 57 Sliding, to realize transmission.

Valuably, the elastic force of the compressed spring 26 is much larger than the elastic force of adjustable spring 34, the third electromagnet 28 with The magnetic force of 4th electromagnet 27 is much larger than the elastic force of compressed spring 26, and effect is that initiative when compressed spring 26 being made to work is big In adjustable spring 34, moved convenient for spring lever 25 to 27 direction of the 4th electromagnet in work of electromagnet.

Specifically used mode：In present invention work, when the propeller mechanism 44 to work breaks down, driving motor 9 work are to drive roller 21 to rotate, to drive elevator 47 to rise, while the third electromagnet 28 and the 4th electromagnetism on right side Iron 27 does not work, and pushes first bevel gear 23 to move right so that the spring lever 25 on right side be made to move right, to make right side First bevel gear 23 is connected by meshing transmission with second bevel gear 37, and the translation shaft 4 on right side is driven to rotate, to drive the flat of right side It moves block 3 to rise, the propeller mechanism 44 of failure is driven to rise, when the propeller mechanism 44 of failure rises in lifting space 56 When, the first electromagnet 14 does not work with the second electromagnet 18, and push the spring 16 pushes pushing plate 15 to move downward, to make left and right Two 13 lower ends of catch bar offset with spring stack 35 and gag lever post 33 respectively, right side third electromagnet 28 and 27 work of the 4th electromagnet Making to drive compresses compressed spring 26, and 34 push the spring column 35 of adjustable spring is to taking exercises, to make first bevel gear 23 and the The separation of two bevel gears 37, first pushing block 36 on right side is moved right with the second pushing block 30 at this time, pushes the translation of left and right two Column 4 moves right, and the propeller mechanism 44 of failure is drawn in right side storage space 2, and new propeller mechanism 44 is with left side Translation shaft 4 is moved into lifting space 46, and when new propeller mechanism 44 is located at 47 downside of elevator, driving motor 9 is anti- To rotation, the first electromagnet 14 and the work of the second electromagnet 18 drive catch bar 13 to rise, to make the first pushing block 36 and the The idle running of two pushing blocks 30, and the decline of elevator 47 is until 57 lower end wall of the first link slot of transmission shaft 50 and the second of rotation axis 40 The connection of 39 upper end wall of link slot, driving motor 9 stop working, the work of the 5th electromagnet 52, the 5th electromagnet 53 and link block 54 Attracting, hydraulicefficiency elevation structure 53 works at this time, and link block 54 and the decline of the 5th electromagnet 52 is driven to enter 54 lower end of link block In second link slot 39, driving motor 9 works at this time, and roller 21 is driven to rotate, and elevator 47 continues to decline, at this time the of left side Three electromagnet 28 do not work with the 4th electromagnet 27, thus make left side spring lever 25 move right push first bevel gear 23 to Right movement drives 4 turns of translation shaft of left side so that the first bevel gear 23 in left side be made to be connected by meshing transmission with second bevel gear 37 It is dynamic, to drive the translational block 3 in left side to decline, to drive new propeller mechanism 44 to decline, when new propeller mechanism 44 After entering water, driving motor 9 stops working, and gas-turbine unit 55 works, and propeller rotational is driven, to drive ship after reforwarding Dynamic, this apparatus structure is simple, and it is convenient to operate, and replaces propeller automatically again in propeller failure, it is not necessary to be lauched trouble shooting Propeller, ensure that navigation during it is smooth quickly, reduce because be lauched repair due to generates danger possibility.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

Claims (4)

1. a kind of gas-turbine unit, including hull, it is characterised in that：A lifting space is provided in the hull, it is described A storage space is symmetrically arranged in lifting space left hand end wall, the storage space is empty close to the end wall in lifting space and lifting Between be connected, a driving space is provided in the upper end wall of the lifting space, driving space right end wall is fixedly connected with one Driving motor, the driving motor left side have been connected by power a drive shaft, and the drive shaft left end and driving spatial rotational connect It connects, a sliding space is symmetrically set in the upper end wall of the driving space, the sliding space lower end wall is provided with a company Lead to the sliding groove in driving space, slidably connects a sliding shoe in the sliding space, a promotion is provided in the sliding shoe Space, slidably connects a pushing plate in the promotion space, the pushing plate upper surface and pushes solid between the upper end wall of space Surely it is connected with a push the spring, the pushing plate upper surface bilateral symmetry is fixedly connected with the first electromagnet, the promotion space Upper end wall bilateral symmetry is fixedly connected with the second electromagnet, and the pushing plate lower end surface bilateral symmetry is fixedly connected with a promotion Bar, the catch bar lower end are nibbled through sliding groove and positioned at driving space, the end for pushing space close to driving space center It is provided with a spring compartment in wall, a spring lever is slidably connected in the spring compartment, the spring lever lower end is through sliding Slot and be located at driving space in, the spring compartment close to driving space center end wall it is symmetrical above and below is fixedly connected with the 4th electricity Magnet, the spring compartment is fixedly connected with a compressed spring close to the end wall of driving space center, described to be located at spring compartment The end face of the close driving space center of interior spring lever is symmetrical above and below to be fixedly connected with third electromagnet, and the spring lever lower end is remote End face from driving space center is fixedly connected with a jacking block, and the shaft center is fixedly connected with a roller, the driving A translation slot is symmetrically set on axis axis body, the drive shaft bilateral symmetry threaded engagement is connected with the first pushing block, institute It states the first pushing block and is fixedly connected with a gag lever post far from the end face of roller, first pushing block is close to the side or so of roller It is symmetrically arranged with the second pushing block connecting with drive shaft threaded engagement, slidably connects a flat key in the translation slot, it is described First bevel gear is connected with by flat key on the drive shaft axis body at translation slot, the first bevel gear and drive shaft are slided It is cooperatively connected, the jacking block is connect with first bevel gear Contact Transmission, and second pushing block is arranged close to the right side of roller There is a spring, the spring groove is fixedly connected with an adjustable spring far from the end wall of roller, and the adjustable spring is close to roller One end is fixedly connected with a spring stack, and the spring stack is close to one end of roller through spring groove close to the end wall of roller and with the One bevel gear Contact Transmission connects, and is provided with a translation shaft in the storage space, the storage space upper end wall is provided with one The shifting chute in connection driving space, the storage space lower end wall are provided with a mobile space, and the mobile space upper end wall connects Logical storage space, the mobile space slidably connect a movable block, the translation shaft lower end through mobile space upper end wall and It is fixedly connected with movable block, through shifting chute, it is located in driving space for the translation shaft upper end, and the translation shaft upper end is located at It is connect between two pieces of pushing blocks and with pushing block Contact Transmission, it is fixed on the translation shaft axis body being located in driving space to connect It is connected to second bevel gear, the translation shaft axis body threaded engagement is connected with a translational block, and the translational block is close to lifting space One end is fixedly connected with a propeller mechanism, is provided with an elevator, the elevator upper surface or so in the lifting space It is symmetrically fixedly connected with a rope, the rope upper end is through lifting space upper end wall and is fixedly connected with roller, the lifting A transmission mechanism is provided in block.

2. a kind of gas-turbine unit according to claim 1, it is characterised in that：The propeller mechanism includes rotation Block is provided with a rotation space in the rotating block, a rotating bevel gear, the rotating cone tooth is provided in the rotation space Wheel right side is connected by meshing transmission and has a driven wheel of differential, and the driven wheel of differential center is fixedly connected with a driven shaft, it is described from Moving axis left end and rotation space left end wall are rotatablely connected, and the driven shaft right end is through rotation space right end wall and empty positioned at storage In, the rotating bevel gear center is fixedly connected with a rotation axis, the rotation axis upper end through rotation space upper end wall and In storage space, the rotation axis upper end is symmetrically set with the second link slot, and the second link slot upper end wall connects Logical storage space, second link slot are connected to logical storage space far from the end wall of rotation axis center.

3. a kind of gas-turbine unit according to claim 1, it is characterised in that：The transmission mechanism includes that transmission is empty Between, the transmission space upper end wall has been connected by power a gas-turbine unit, gas-turbine unit lower end surface power It is connected with a transmission shaft, the transmission space lower end wall is provided with the intercommunicating pore in connection lifting space, the transmission shaft lower end Through intercommunicating pore and it is located in lifting space, is symmetrically set with the first link slot on the transmission shaft axis body, described first Link slot lower end wall is connected through transmission shaft lower end surface and with lifting space, slidably connects a company in first link slot Block is connect, the intercommunicating pore left hand end wall is symmetrically arranged with a limiting slot, and the 5th electromagnet, institute are slidably connected in the limiting slot State and be provided with a hydraulicefficiency elevation structure in limiting slot lower end wall, the hydraulicefficiency elevation structure upper end through limiting slot lower end wall and with 5th electromagnet lower end surface is fixedly connected.

4. a kind of gas-turbine unit according to claim 1, it is characterised in that：The elastic force of the compressed spring is long-range In the elastic force of adjustable spring, the magnetic force of the third electromagnet and the 4th electromagnet is much larger than the elastic force of compressed spring.