CN110925924B

CN110925924B - Winter warm air humidifier based on steam turbine power

Info

Publication number: CN110925924B
Application number: CN201911261002.5A
Authority: CN
Inventors: 姜智文
Original assignee: Zhejiang Guoxin Real Estate Marketing Planning Co Ltd
Current assignee: Zhejiang Guoxin real estate marketing planning Co., Ltd
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2020-11-13
Anticipated expiration: 2039-12-10
Also published as: JP2021092378A; CN110925924A

Abstract

The invention discloses a winter warm air humidifier based on power of a steam turbine, which comprises a shell, wherein a liquid storage cavity is formed in the shell, clear water is stored in the liquid storage cavity, a floating ball capable of sensing the clear water quantity is arranged in the liquid storage cavity, the left side of the liquid storage cavity is communicated with a cavity, a vertical cavity is communicated with the lower side of the cavity, a slide bar is arranged on the inner wall of the vertical cavity in a vertical sliding manner, the transmission mechanism capable of controlling the sliding of the sliding rod through the floating ball is arranged in the cavity, air can be humidified while hot air is blown to the periphery in a power mode of a steam turbine, a motor power source can be reduced, effective conversion of resources is improved, a heated area can be increased through continuous reciprocating rotation, waste heat of steam is effectively utilized, energy consumption is reduced, and meanwhile when clean water in the device is used up, heating can be automatically turned off, and safety is improved.

Description

Winter warm air humidifier based on steam turbine power

Technical Field

The invention relates to the technical field of steam turbines, in particular to a winter warm air humidifier based on power of a steam turbine.

Background

The steam turbine is a power source device that uses steam to drive, need use high temperature steam, and steam turbine itself will discharge the steam that uses up, this part steam still has the waste heat, if not effectively utilized, then the energy resource of wasting, in winter, indoor all can be used to the machine of heating, and humidification device guarantees indoor can not dry in addition, this can use a lot of machines, and is with too high costs, and the wasting of resources can not effectively utilized, therefore, come drive arrangement warm braw and discharge the very agreeing with of humidifying gas with the steam turbine, very big saving resources.

Disclosure of Invention

The invention aims to provide a winter warm air humidifier based on power of a turbine, which is used for overcoming the defects in the prior art.

According to the embodiment of the invention, the winter warm air humidifier based on the power of the steam turbine comprises a shell, a liquid storage cavity is formed in the shell, clear water is stored in the liquid storage cavity, a floating ball capable of sensing clear water quantity is arranged in the liquid storage cavity, the left side of the liquid storage cavity is communicated with a cavity, the lower side of the cavity is communicated with a vertical cavity, a sliding rod is arranged on the inner wall of the vertical cavity in a vertically sliding mode, a transmission mechanism capable of controlling the sliding of the sliding rod through the floating ball is arranged in the cavity, a heating cavity is formed in the lower side of the liquid storage cavity, a heating mechanism capable of heating the clear water in the liquid storage cavity into steam and conveying the steam to the right side is arranged in the heating cavity, the heating mechanism comprises a controller, the controller can be controlled to be closed through the sliding rod, a power cavity is formed in the right side of the heating cavity, the right side of the liquid storage cavity is provided with a transmission cavity with an upward opening, the inner wall of the transmission cavity is rotatably provided with a rotating disk, the top surface of the rotating disk is fixedly provided with a supporting block, the right side of the supporting block is rotatably provided with a fan blade, the transmission cavity is internally provided with a blowing mechanism which can control the rotating disk to rotate through the operation of the steam turbine and control the fan blade to rotate simultaneously, the lower side of the transmission cavity is provided with a sliding cavity, the left side and the right side of the sliding cavity are both communicated with an exhaust cavity with an upward opening, the sliding cavity is internally provided with a control mechanism which can control the gas discharged by the steam turbine to be intermittently discharged to the outside through the operation of the steam turbine, the lower side of the power cavity is provided with a pressure cavity, the right side of the pressure cavity is communicated with a driven cavity, and the driven cavity and the pressure cavity are internally provided, and then discharged to the cooling mechanism in the exhaust cavity.

According to the technical scheme, the transmission mechanism comprises a fixed rod fixedly arranged on the rear wall of the liquid storage cavity, a first connecting rod is rotatably arranged on the periphery of the fixed rod, one side of the first connecting rod is fixedly connected with the floating ball, the extending part of the other side of the first connecting rod extends into the cavity, a through hole is formed in the first connecting rod, the extending part of the sliding rod extends into the cavity, a fixed shaft is fixedly arranged on the front side surface of the sliding rod, the fixed shaft is hinged to the first connecting rod, the fixed shaft is slidably connected with the inner wall of the through hole, a feeding opening with an upward opening is communicated with the upper side of the liquid storage cavity, a sealing cover is rotatably arranged on the upper side of the feeding opening, clear water can be added into the liquid storage cavity by manually opening the sealing cover, and the floating ball can rise under the action of buoyancy.

A further technical scheme, heating mechanism is including setting firmly the controller on the heating intracavity wall, the zone of heating has set firmly on the heating intracavity wall, the zone of heating with controller electric connection, the left side electric connection of controller is equipped with the response piece, the extension stretches into left to the response piece erect the intracavity, the bottom surface of slide bar has set firmly contact block, the downside fixed connection who deposits the sap cavity is equipped with the solenoid valve, the downside fixed connection of solenoid valve is equipped with the transfer line, the transfer line extension runs through the heating chamber with the inner wall of casing, and with the installation of steam turbine intercommunication, then the response piece is steerable the controller is closed.

According to a further technical scheme, the blowing mechanism comprises a transmission shaft which is rotatably arranged on the bottom wall of the transmission cavity, the top surface of the transmission shaft is fixedly connected with the bottom surface of the rotating disc, a first gear is fixedly arranged on the periphery of the transmission shaft, a rotating ring is rotatably arranged on the bottom wall of the transmission cavity, a vertical shaft is rotatably arranged on the top surface of the rotating ring, a second gear is fixedly arranged on the periphery of the vertical shaft and meshed with the first gear, a gear cavity is formed in the supporting block, the upward extending part of the vertical shaft penetrates through the inner walls of the rotating disc and the supporting block and extends into the gear cavity, a first bevel gear is fixedly arranged on the top surface of the vertical shaft, a fan shaft is rotatably arranged on the right wall of the gear cavity, a second bevel gear is fixedly arranged on the left side surface of the fan shaft and meshed with the first bevel gear, and the rightward extending part of the fan shaft extends out of the outside, the fan blade is fixedly arranged on the periphery of the fan shaft.

Further technical scheme, control mechanism establishes including sliding slide on the sliding cavity inner wall, the leading flank of slide has the tooth, the slide can seal one side the chamber of exhausting, transmission shaft downwardly extending part runs through the sliding cavity with the inner wall of casing, and stretch into the power intracavity, and its bottom surface has set firmly the worm wheel, the right flank power connection of steam turbine is equipped with the worm, the worm with the worm wheel meshing is located the sliding intracavity the fan-shaped wheel has set firmly in the transmission shaft periphery, the fan-shaped wheel can with the leading flank meshing of slide, the downside intercommunication in sliding cavity is equipped with the elasticity chamber, the downside of slide has set firmly the movable block, the movable block is located the elasticity intracavity, just the right flank of movable block with fixed mounting has the spring between the right wall in elasticity chamber.

According to a further technical scheme, the cooling mechanism comprises a driven shaft which is rotatably arranged on the top wall of the driven cavity, a third bevel gear is fixedly arranged on the periphery of the driven shaft, a driven disc is fixedly arranged on the bottom surface of the driven shaft, the right extending part of the worm extends into the driven cavity, a fourth bevel gear is fixedly arranged on the right side surface of the worm and meshed with the third bevel gear, a piston is arranged on the inner wall of the pressure cavity in a left-right sliding mode, a second connecting rod is hinged between the piston and the bottom surface of the driven disc, and the driven shaft can drive the driven disc to rotate through the rotation of the worm, so that the piston can move left and right.

According to the technical scheme, a damping valve is installed on the left side of the pressure cavity in a communicated mode, a water return pipe is arranged between the damping valve and the liquid storage cavity in a communicated mode, a leading-in pipe is arranged between the pressure cavity and the liquid storage cavity in a communicated mode, the leading-in pipe is located on the bottom side of the liquid storage cavity, a steam turbine is arranged between the steam turbine and the exhaust cavity in a communicated mode, and a spray head is installed on the upper side of the exhaust cavity in a communicated mode.

The invention has the beneficial effects that: the invention can blow hot air to the periphery and humidify air simultaneously by the power mode of the steam turbine, not only can reduce the power source of a motor to improve the effective conversion of resources, but also can increase the heated area by continuous reciprocating rotation, effectively utilizes the waste heat of the steam, reduces the energy consumption, can automatically close heating when the clean water in the device is used up, and increases the safety, wherein, a transmission mechanism can sense whether water exists in a liquid storage cavity to control the heating to close, a heating mechanism can heat the clean water into the steam to drive the steam turbine, a blowing mechanism can control a rotating disk to rotate and drive fan blades to rotate so as to achieve the effect of blowing to the periphery, a control mechanism can intermittently communicate an exhaust cavity at one side with the outside and can effectively cooperate and link with the fan blades, and a cooling mechanism can realize the cooling of the steam discharged by the steam turbine by using the clean water in the liquid storage cavity through the driving of the steam turbine, the temperature of the gas discharged from the device is proper.

Drawings

FIG. 1 is a schematic view of the overall internal structure of the present invention;

FIG. 2 is a path diagram of a return pipe, an introduction pipe and an exhaust pipe according to the present invention;

fig. 3 is an operating state diagram of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, for the sake of convenience, the orientations described hereinafter being defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 3, according to an embodiment of the present invention, a winter warm air humidifier based on turbine power includes a housing 11, a liquid storage chamber 14 is formed in the housing 11, clear water is stored in the liquid storage chamber 14, a floating ball 64 capable of sensing the amount of clear water is arranged in the liquid storage chamber 14, a cavity 59 is communicated with the left side of the liquid storage chamber 14, a vertical chamber 53 is communicated with the lower side of the cavity 59, a sliding rod 55 is vertically slidably arranged on the inner wall of the vertical chamber 53, a transmission mechanism 101 capable of controlling the sliding of the sliding rod 55 through the floating ball 64 is arranged in the cavity 59, a heating chamber 65 is formed in the lower side of the liquid storage chamber 14, a heating mechanism 102 capable of heating the clear water in the liquid storage chamber 14 into steam and conveying the steam to the right is arranged in the heating chamber 65, the heating mechanism 102 includes a controller 51, and the controller 51 can be controlled to be closed through the sliding rod 55, a power cavity 49 is formed in the right side of the heating cavity 65, a steam turbine 50 is fixedly arranged on the bottom wall of the power cavity 49, a transmission cavity 19 with an upward opening is formed in the right side of the liquid storage cavity 14, a rotating disk 20 is rotatably arranged on the inner wall of the transmission cavity 19, a supporting block 22 is fixedly arranged on the top surface of the rotating disk 20, a fan blade 27 is rotatably arranged on the right side of the supporting block 22, a blowing mechanism 103 which can control the rotating disk 20 to rotate through the operation of the steam turbine 50 and control the fan blade 27 to rotate simultaneously is arranged in the transmission cavity 19, a sliding cavity 33 is formed in the lower side of the transmission cavity 19, exhaust cavities 17 with upward openings are respectively communicated with the left side and the right side of the sliding cavity 33, a control mechanism 104 which can control the intermittent exhaust of the steam turbine 50 to exhaust to the two exhaust cavities 17 to the outside through the operation of the, the lower side of the power cavity 49 is provided with a pressure cavity 45, the right side of the pressure cavity 45 is communicated with a driven cavity 41, and the driven cavity 41 and the pressure cavity 45 are internally provided with a cooling mechanism 105 which can cool gas discharged by the steam turbine 50 through the operation of the steam turbine 50 and then discharge the gas into the exhaust cavity 17.

In addition, in one embodiment, the transmission mechanism 101 includes a fixed rod 62 fixed on the rear wall of the liquid storage chamber 14, a first connecting rod 63 is rotatably disposed on the periphery of the fixed rod 62, one side of the first connecting rod 63 is fixedly connected with the floating ball 64, the other side of the first connecting rod 63 extends into the cavity 59, a through hole 60 is disposed in the first connecting rod 63, the upward extending portion of the sliding rod 55 extends into the cavity 59, a fixed shaft 61 is fixedly disposed on the front side of the sliding rod, the fixed shaft 61 is hinged to the first connecting rod 63, the fixed shaft 61 is slidably connected with the inner wall of the through hole 60, an upward opening inlet 12 is communicated with the upper side of the liquid storage chamber 14, a sealing cover 13 is rotatably mounted on the upper side of the inlet 12, and clean water can be added into the liquid storage chamber 14 by manually opening the sealing cover 13, the floating ball 64 can rise due to buoyancy, and the first connecting rod 63 can drive the sliding rod 55 to rise and fall through the rising and falling of the floating ball 64.

In addition, in one embodiment, the heating mechanism 102 includes a controller 51 fixedly disposed on the bottom wall of the heating cavity 65, a heating layer 56 is fixedly disposed on the inner wall of the heating cavity 65, the heating layer 56 is electrically connected to the controller 51, a sensing block 52 is electrically connected to the left side of the controller 51, a leftward extending portion of the sensing block 52 extends into the vertical cavity 53, a contact block 54 is fixedly disposed on the bottom surface of the sliding rod 55, an electromagnetic valve 58 is fixedly connected to the lower side of the liquid storage cavity 14, a liquid conveying pipe 57 is fixedly connected to the lower side of the electromagnetic valve 58, an extending portion of the liquid conveying pipe 57 penetrates through the heating cavity 65 and the inner wall of the housing 11 and is installed in communication with the steam turbine 50, so that the sensing block 52 can control the controller 51 to be closed, and by opening the electromagnetic valve 58, the clean water in the liquid storage cavity 14 can be heated into steam in the heating cavity 65 and then introduced into the steam turbine, through the operation of controller 51, can make heating layer 56 reach the heating effect, when having clear water in depositing liquid chamber 14, slide bar 55 drives contact block 54 descends, and contact block 54 contacts with response piece 52 this moment, when depositing clear water in liquid chamber 14 and using up, contact block 54 with response piece 52 separation, then response piece 52 steerable controller 51 closes.

In addition, in one embodiment, the blowing mechanism 103 includes a transmission shaft 30 rotatably disposed on the bottom wall of the transmission chamber 19, the top surface of the transmission shaft 30 is fixedly connected to the bottom surface of the rotating disc 20, a first gear 21 is fixedly disposed on the outer circumference of the transmission shaft 30, a rotating ring 18 is rotatably disposed on the bottom wall of the transmission chamber 19, a vertical shaft 28 is rotatably disposed on the top surface of the rotating ring 18, a second gear 29 is fixedly disposed on the outer circumference of the vertical shaft 28, the second gear 29 is engaged with the first gear 21, a gear chamber 24 is disposed in the support block 22, an upward extending portion of the vertical shaft 28 penetrates through the inner walls of the rotating disc 20 and the support block 22 and extends into the gear chamber 24, a first bevel gear 23 is fixedly disposed on the top surface of the vertical shaft, a fan shaft 26 is rotatably disposed on the right wall of the gear chamber 24, a second bevel gear 25 is fixedly disposed on the left side surface of the fan shaft 26, the second bevel gear 25 is engaged with the first bevel gear 23, the right extending portion of the fan shaft 26 extends out of the outside, the fan blade 27 is fixedly arranged on the periphery of the fan shaft 26, the rotating disc 20 can drive the supporting block 22 to rotate through the rotation of the transmission shaft 30, and meanwhile, the vertical shaft 28 can rotate, so that the fan shaft 26 can drive the fan blade 27 to rotate, and then the effect of blowing air to the periphery can be achieved.

In addition, in one embodiment, the control mechanism 104 includes a sliding plate 32 slidably disposed on an inner wall of the sliding chamber 33, a front side surface of the sliding plate 32 has teeth, the sliding plate 32 can close one side of the exhaust chamber 17, a downward extending portion of the transmission shaft 30 penetrates through the sliding chamber 33 and the inner wall of the housing 11 and extends into the power chamber 49, and a bottom surface thereof is fixedly provided with a worm wheel 44, a right side surface of the steam turbine 50 is dynamically connected with a worm 43, the worm 43 is engaged with the worm wheel 44, a sector wheel 31 is fixedly disposed on an outer circumference of the transmission shaft 30 located in the sliding chamber 33, the sector wheel 31 can be engaged with the front side surface of the sliding plate 32, a lower side of the sliding chamber 33 is communicated with an elastic chamber 36, a lower side surface of the sliding plate 32 is fixedly provided with a moving block 34, the moving block 34 is located in the elastic chamber 36, and a spring 35 is fixedly disposed between the right side surface of the moving block 34 and a right wall of, by the operation of the steam turbine 50, the worm 43 can drive the transmission shaft 30 to rotate, and further the transmission shaft 30 can drive the sliding plate 32 to move back and forth and left and right, so that the two exhaust cavities 17 can be alternately communicated with the outside.

In addition, in one embodiment, the cooling mechanism 105 includes a driven shaft 39 rotatably disposed on the top wall of the driven cavity 41, a third bevel gear 38 is fixedly disposed on the outer periphery of the driven shaft 39, a driven disc 40 is fixedly disposed on the bottom surface of the driven shaft 39, the worm 43 extends into the driven cavity 41 to the right, a fourth bevel gear 37 is fixedly disposed on the right side surface of the driven shaft 39, the fourth bevel gear 37 is engaged with the third bevel gear 38, a piston 46 is slidably disposed on the inner wall of the pressure cavity 45 to the left and right, a second connecting rod 42 is hinged between the piston 46 and the bottom surface of the driven disc 40, and the driven shaft 39 can drive the driven disc 40 to rotate by the rotation of the worm 43, so that the piston 46 can move to and fro and left.

In addition, in one embodiment, a damping valve 48 is installed on the left side of the pressure chamber 45 in a communicating manner, a water return pipe 15 is installed between the damping valve 48 and the liquid storage chamber 14 in a communicating manner, an inlet pipe 66 is installed between the pressure chamber 45 and the liquid storage chamber 14 in a communicating manner, the inlet pipe 66 is located on the bottom side of the liquid storage chamber 14, an exhaust pipe 47 is installed between the steam turbine 50 and the exhaust chamber 17 in a communicating manner, a spray head 16 is installed on the upper side of the exhaust chamber 17 in a communicating manner, the clear water flowing into the pressure chamber 45 can be pressurized and fed into the liquid storage chamber 14 again through the reciprocating movement of the piston 46, the steam in the exhaust pipe 47 can be cooled through the clear water in the pressure chamber 45, and the clear water is discharged to the outside through the exhaust chamber 17 and the spray head 16, so that a.

In the initial state, the floating ball 64 is at the bottom side, the contact block 54 is not in contact with the sensing block 52, the sliding plate 32 closes the left exhaust cavity 17, the support block 22 is at the right side, the piston 46 is at the left side, and the liquid storage cavity 14 is not communicated with the pressure cavity 45.

When the device is used, the sealing cover 13 is manually opened, clear water can be added into the liquid storage cavity 14, the floating ball 64 can rise under the action of buoyancy, the first connecting rod 63 can drive the sliding rod 55 to rise and fall through the rising and falling of the floating ball 64, the clear water in the liquid storage cavity 14 can be heated into steam in the heating cavity 65 and then introduced into the steam turbine 50 through the opening of the electromagnetic valve 58, the heating layer 56 can achieve the heating effect through the operation of the controller 51, when the clear water exists in the liquid storage cavity 14, the sliding rod 55 drives the contact block 54 to fall, the contact block 54 is contacted with the induction block 52 at the moment, when the clear water in the liquid storage cavity 14 is used up, the contact block 54 is separated from the induction block 52, the induction block 52 can control the controller 51 to be closed, the worm 43 can drive the transmission shaft 30 to rotate through the operation of the steam turbine 50, the transmission shaft 30 can drive the sliding plate 32 to move back and forth and left, and right, and the two exhaust, the rotating disc 20 can drive the supporting block 22 to rotate through the rotation of the transmission shaft 30, meanwhile, the vertical shaft 28 can be driven to rotate, the fan shaft 26 can drive the fan blade 27 to rotate, and then, the effect of blowing air to the periphery can be achieved, the driven shaft 39 can drive the driven disc 40 to rotate through the rotation of the worm 43, so that the piston 46 can move left and right back and forth, the clear water flowing into the pressure cavity 45 can be pressurized and sent into the liquid storage cavity 14 again through the left and right back and forth movement of the piston 46, the vapor in the exhaust pipe 47 can be cooled through the clear water in the pressure cavity 45, and the vapor can be discharged to the outside through the exhaust cavity 17 and the spray head 16, and the humidifying effect can be achieved.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a warm braw humidifier in winter based on steam turbine power, which comprises a housin, seted up in the casing and deposited the liquid chamber, deposit the liquid intracavity and deposited the clear water, it is equipped with the floater of perception clear water yield to deposit the liquid intracavity, the left side intercommunication of depositing the liquid chamber is equipped with the cavity, the downside intercommunication of cavity is equipped with perpendicular chamber, it is equipped with the slide bar to slide from top to bottom on the inner wall in chamber to erect, be equipped with the accessible in the cavity the floater is controlled the gliding drive mechanism of slide bar, the heating chamber has been seted up to the downside of depositing the liquid chamber, the heating intracavity be equipped with can with deposit the clear water heating of liquid intracavity becomes the heating mechanism that steam and transported right, its: the heating mechanism comprises a controller, the controller can be controlled to close through the sliding rod, a power cavity is formed in the right side of the heating cavity, a steam turbine is fixedly arranged on the bottom wall of the power cavity, a transmission cavity with an upward opening is formed in the right side of the liquid storage cavity, a rotating disc is rotatably arranged on the inner wall of the transmission cavity, a supporting block is fixedly arranged on the top surface of the rotating disc, fan blades are rotatably arranged on the right side of the supporting block, and a blowing mechanism capable of controlling the rotating disc to rotate through the operation of the steam turbine and controlling the fan blades to rotate simultaneously is arranged in the transmission cavity;

the downside in transmission chamber has been seted up and has been slided the chamber, the left and right sides in slip chamber all communicates and is equipped with the ascending chamber of exhausting of opening, it is equipped with the accessible to slide the intracavity the steam turbine operation is controlled steam turbine combustion gas intermittent type nature to two the control mechanism to the external world is discharged in the chamber of exhausting, the pressure chamber has been seted up to the downside in power chamber, the right side intercommunication of pressure chamber is equipped with the slave chamber, the slave chamber with be equipped with the accessible in the pressure chamber the steam turbine combustion gas cools down, discharges again extremely the cooling mechanism in the chamber of exhausting.

2. A turbine powered winter warm air humidifier according to claim 1, characterized by: drive mechanism is including setting firmly deposit dead lever on the liquid cavity back wall, it is equipped with first connecting rod to rotate on the periphery of dead lever, one side of first connecting rod with floater fixed connection, the opposite side extended portion of first connecting rod stretches into in the cavity, just the through-hole has been seted up in the first connecting rod, the slide bar upwards extended portion stretches into in the cavity, and its leading flank has set firmly the fixed axle, the fixed axle with first connecting rod is articulated, the fixed axle with the inner wall sliding connection of through-hole, the upside intercommunication of depositing the liquid cavity is equipped with the ascending pan feeding mouth of opening, the upside of pan feeding mouth is rotated and is installed the closing cap, opens through manual the closing cap, can toward deposit the interior clear water that adds of liquid cavity, the floater receives buoyancy and can rise.

3. A turbine powered winter warm air humidifier according to claim 2, characterized by: heating mechanism is including setting firmly the controller on the heating intracavity wall, the zone of heating has set firmly on the heating intracavity wall, the zone of heating with controller electric connection, the left side electric connection of controller is equipped with the response piece, the response piece extends into to the left extension the perpendicular intracavity, the bottom surface of slide bar has set firmly the contact piece, the downside fixed connection who deposits the sap cavity is equipped with the solenoid valve, the downside fixed connection of solenoid valve is equipped with the transfer line, the transfer line extension runs through the heating chamber with the inner wall of casing, and with the steam turbine intercommunication installation, then the response piece is steerable the controller is closed.

4. A turbine powered winter warm air humidifier according to claim 1, characterized by: the blowing mechanism comprises a transmission shaft which is rotatably arranged on the bottom wall of the transmission cavity, the top surface of the transmission shaft is fixedly connected with the bottom surface of the rotating disc, a first gear is fixedly arranged on the periphery of the transmission shaft, a rotating ring is rotatably arranged on the bottom wall of the transmission cavity, a vertical shaft is rotatably arranged on the top surface of the rotating ring, a second gear is fixedly arranged on the periphery of the vertical shaft and meshed with the first gear, a gear cavity is formed in the supporting block, the upward extending part of the vertical shaft penetrates through the inner walls of the rotating disc and the supporting block and extends into the gear cavity, a first bevel gear is fixedly arranged on the top surface of the vertical shaft, a fan shaft is rotatably arranged on the right wall of the gear cavity, a second bevel gear is fixedly arranged on the left side surface of the fan shaft and meshed with the first bevel gear, and the rightward extending part of the fan shaft extends out of the outside, the fan blade is fixedly arranged on the periphery of the fan shaft.

5. A turbine powered winter warm air humidifier according to claim 4, characterized by: the control mechanism comprises a sliding plate arranged on the inner wall of the sliding cavity in a sliding mode, the front side face of the sliding plate is provided with teeth, the sliding plate can seal one side of the exhaust cavity, the downward extending part of the transmission shaft penetrates through the sliding cavity and the inner wall of the shell and extends into the power cavity, a worm wheel is fixedly arranged on the bottom face of the power cavity, a worm is arranged on the right side face of the steam turbine in a power connection mode, the worm is meshed with the worm wheel, a sector wheel is fixedly arranged on the periphery of the transmission shaft in the sliding cavity and can be meshed with the front side face of the sliding plate, an elastic cavity is communicated with the lower side of the sliding cavity, a moving block is fixedly arranged on the lower side face of the sliding plate and is located in the elastic cavity, and a spring is fixedly arranged between the right side face of the.

6. A turbine powered winter warm air humidifier according to claim 5, characterized by: the cooling mechanism comprises a driven shaft which is rotatably arranged on the top wall of the driven cavity, a third bevel gear is fixedly arranged on the periphery of the driven shaft, a driven disc is fixedly arranged on the bottom surface of the driven shaft, the right extending part of the worm extends into the driven cavity, a fourth bevel gear is fixedly arranged on the right side surface of the worm, the fourth bevel gear is meshed with the third bevel gear, a piston is arranged on the inner wall of the pressure cavity in a sliding mode, a second connecting rod is hinged between the piston and the bottom surface of the driven disc, and the driven shaft can be driven to rotate the driven disc through the rotation of the worm, so that the piston can move left and right.

7. A turbine powered winter warm air humidifier according to claim 6, characterized by: the left side intercommunication of pressure chamber is installed the damping valve, the damping valve with it is equipped with the wet return to deposit the intercommunication between the liquid chamber, the pressure chamber with it is equipped with the induction pipe to deposit the intercommunication between the liquid chamber, the induction pipe is located deposit the liquid chamber bottom side, the steam turbine with it is equipped with the blast pipe to communicate between the exhaust chamber, the shower nozzle is installed in the upside intercommunication in exhaust chamber.