CN103542395B - Steam generation device and method thereof for generating steam - Google Patents

Abstract

The invention discloses a steam generation device and a method thereof for generating steam. The steam generation device comprises a front end cover and a back end cover both of which are adaptively connected to form a sealed containing cavity, and a turntable which is arranged in the containing cavity and is driven by a power device to rotate so as to heat water and generate steam, wherein a first gap is formed between one side of the turntable and the inner wall of the front end cover; a second gap is formed between the other side of the turntable and the inner wall of the back end cover; multiple incoherent first steam generation holes are uniformly formed in the surface of the turntable along the circumference of the edge thereof. In comparison with the prior art, with the adoption of the steam generation device for generating steam, no traditional heating surface exists, chemical components of water are unnecessary to be changed in advance, no scale formation and no sediment exists in the steam generation process, the steam generation efficiency is high, and the steam generation device is safe and environmental friendly.

Description

A kind of method of steam raising plant and generation steam thereof

Technical field

The present invention relates to a kind of mechanical device, in particular a kind of method of steam raising plant and generation steam thereof.

Background technology

Traditional steam generator refers to steam boiler, that water is added in boiler, by the mode of external heat, continuous heating is carried out to boiler surfaces, and by the transmission of heat, the heat of boiler surfaces is passed to the water in boiler, make it heat gradually, when water is heated to boiling, can high-temperature low-pressure steam be produced, and continuous heating, thus produce high temperature and high pressure steam.The boiler of this production steam, first need the boiler surfaces heating cooling, not only efficiency is low, simultaneously in the process of heating boiler, heat loss is large, the more important thing is, be used for the product that the heating boiler fuel combustion such as coal, gas used discharges, comparatively serious to the pollution of environment.

Electric steam generator is immersed in by heating element heater to be equipped with in the closed container of water, heat water to hot water, then continuous heating is to high-temperature steam in electrically heated mode.And this electrically heated mode, in the process of the continuous heating of heating element heater, in the easy fouling of its area of heating surface, thus cause the efficiency of heating surface to decline; Also there is very large potential safety hazard in the equipment that electrical heating simultaneously produces steam.

Also have a kind of steam generator, steam produces from special chamber, and water sprays into chamber combustion together with natural gas, and then instantaneous high-temperature evaporation obtains steam.The mode efficiency of this production steam can reach 99%, but its defect is, the product of burning is easy and steam is mixed in together, cause the quality of steam produced poor, and produce steam pressure low, less than 1 handkerchief, again owing to adopting hydrocarbon as fuel equally, also comparatively serious to the pollution of environment.Therefore, this steam generator is only applicable to commercial Application.

The defect that these existing steam generators have some common:

1, very high for being used for the water quality requirement of heating produces steam, before loading boiler, not only want the removal of impurity, and will by chemical treatment except the salt in anhydrating, such process not only affects the efficiency of producing steam, and cost also can be relatively high simultaneously;

2, be no matter by burning boiler surface, or electrical heating elements heating, on the surface of boiler surfaces and heating element heater in heating process all than being easier to fouling, thus have impact on the efficiency of heating surface.

3, above-mentioned steam generator all adopts the device of high pressure chest to carry out production steam, therefore there is very large potential safety hazard.

Therefore, prior art has yet to be improved and developed.

Summary of the invention

The technical problem to be solved in the present invention is, for the above-mentioned defect of prior art, a kind of method of steam raising plant and generation steam thereof is provided, without traditional area of heating surface, without the need to changing the chemical composition of water in advance, and non-scaling, nothing precipitate in production steam course, production steam efficiency is high, simultaneously safety, environmental protection.

The technical scheme that technical solution problem of the present invention adopts is as follows:

A kind of steam raising plant, comprising:

Mutual adaptation links together and forms drive end bearing bracket and the rear end cap of a sealing container cavity;

Be arranged in described container cavity, and drive rotation by power set thus water carried out to the rotating disk of heating produces steam, the side of described rotating disk and the inwall of described drive end bearing bracket form the first gap, and the opposite side of rotating disk and the inwall of described rear end cap form the second gap; And be laid with multiple the first not through steam generation hole on the surface of described rotating disk along edge circumference;

Be connected with described drive end bearing bracket and rear end cap respectively, for balancing the conduit of pressure between described first gap and described second gap, one end of described conduit is passed described drive end bearing bracket and is communicated with the first gap, and the other end of conduit passes described rear end cap and is communicated with the second gap;

End cap offers a water injection hole in the rear, described drive end bearing bracket offers corresponding steam outlet openings.

Preferably, it also comprises:

The center of end cap offers the axis hole that runs through described rear end cap in the rear;

For driving the power set of described dial rotation, the output shaft of described power set, is fixedly connected with described rotating disk also through described axis hole by an axle sleeve;

For being socketed the axle sleeve of described output shaft, described output shaft to be inserted in described axle sleeve and to be connected with shaft sleeve key, more described axle sleeve and described output shaft is fixed together by an axle bolt passing described axle sleeve center;

Be arranged on the seal for sealing between described axis hole and axle sleeve, described seal is fixedly mounted on rear end cap, and described axle sleeve runs through described seal and is rotationally connected with seal.

Preferably, the center of described rotating disk has multiple first pin-and-hole, and on the correspondence position of described sleeve end, have the second pin-and-hole, and described rotating disk and axle sleeve are by being fixed together through the pin of the first pin-and-hole and the second pin-and-hole;

Between described rotating disk with described drive end bearing bracket, be also provided with one for reinforcing the baffle plate and screw that described rotating disk is connected with axle sleeve, described screw successively through baffle plate, rotating disk, and is connected with sleeve thread;

One is provided with for putting the groove of baffle plate at the drive end bearing bracket inwall that described baffle position is corresponding.

Preferably, the inwall of described drive end bearing bracket and rear end cap is provided with the second steam producing hole site corresponding with described first steam and produces hole.

Preferably, described first steam produces hole ovalize and arranges, and corresponding described second steam produces Kong Yiwei ellipse and arranges.

Preferably, one week boss is provided with respectively at described drive end bearing bracket and rear end cap inner wall edge, and on described boss, be provided with multiple first screwed hole, by corresponding first bolt through described first screwed hole, described drive end bearing bracket is connected with rear end cap Screw assembly; Described boss is also provided with a sealing ring.

Preferably, described steam outlet openings is arranged on the center of described drive end bearing bracket, and described water injection hole is arranged on the off-centered position of described rear end cap.

Preferably, described rotating disk produces hole near described first steam and be provided with multiple through hole for balancing pressure between the first gap and the second gap running through described rotating disk.

Preferably, be provided with the fixture for reinforcing described steam raising plant in the rear between end cap and power set, one end of described fixture is connected with rear end cap, and the other end of fixture is connected with power set.

Preferably, the width dimensions scope in described first gap and the second gap is 0.5-2.5mm.

Steam raising plant produces a method for steam, comprises step:

A, water injected in the sealing container cavity that is interconnected to form by drive end bearing bracket and rear end cap by water injection hole;

B, enter in sealing container cavity and be full of described sealing container cavity, and be full of the first steam be arranged on the positive and negative surface of rotating disk and produce in hole;

C, driven the rotating disk high-speed rotation be arranged in described sealing container cavity by power set, drive the hydrone high-speed motion in the first steam generation hole, and drive the hydrone high-speed rotation be infused in described sealing container cavity, thus heating produces steam is carried out to water, and the steam of generation is flowed out by being arranged on steam outlet openings circulation on described drive end bearing bracket.

Preferably, described step B also comprises:

B1, the water entered in sealing container cavity also enter the inwall being arranged on drive end bearing bracket and rear end cap and produce the second steam corresponding to hole with the first steam and produce in hole along the first gap and the second gap, by described second steam generation hole to water further heated at high speed generation steam.

As follows described in concrete operation step of the present invention and principle thereof:

Start power set (can be motor, internal combustion engine and other any power sources with Power output), power output shaft drives rotating disk high-speed rotation, then, at water injection hole access water source (high-pressure pump can be adopted in water injection hole to inject water), water enters the first steam along the first gap and the second gap and produces in hole and the second steam generation hole.

The hydrone that first steam produces in hole starts accelerated motion under the drive of rotating disk, until when accelerating to consistent with the rotating speed of rotating disk, accelerates just to stop.When reaching maximal rate (maximal rate of rotating disk), centrifugal force starts effect, the hydrone of high-speed motion just cannot continue to remain on the first steam and produce in hole, now then depart from the first steam and produce hole, again because whole chamber internal clearance is narrow, and the hydrone of high-speed motion spreads again for the moment nowhere, now just with the first gap, the water that second gap and the second steam produce in hole collides, thus other more water high-speed motions releasing energy in drive chamber, now in chamber, the hydrone number of high-speed motion increases thereupon, and the energy of release also constantly accumulates in chamber, be heat energy according to the hydrone of high-speed motion by kinetic transformation, thus make the hydrone of the high-speed motion in chamber break up the steam being atomized into HTHP.By controlling pressure and the flow velocity of water injection hole, the pressure and temperature of the steam of steam outlet openings can be controlled.

Higher according to the temperature of water, the principle that the speed of molecular motion is faster.That is, hydrone speed is faster, then the temperature of water is higher.Based on this principle, steam raising plant provided by the invention, compared to prior art, the speed producing steam is faster, namely when hydrone reaches constant high-speed motion, namely heats up and reaches boiling point, control water injection rate, be atomized into steam output with hydrone can be made to break up.

Beneficial effect of the present invention:

1, water quality not being strict with, without the need to changing the chemical composition of water in advance, the cost producing steam can being reduced;

2, produce vapor (steam) velocity fast, the effect of instantaneous generation steam can be reached;

3, because of without traditional area of heating surface, therefore at the inwall of forward and backward end cap and the outer surface non-scaling of rotating disk, without precipitation in container cavity, the efficiency of heating surface is high, simultaneously without potential safety hazard;

4, equipment volume is little, lightweight, is easy to move;

5, steam production and quality controllable;

6, easy to operate, long service life, environmental protection, easy care.

Accompanying drawing explanation

Fig. 1 is the detonation configuration schematic diagram of a kind of steam raising plant preferred embodiment of the present invention.

Fig. 2 is the complete section structural representation of a kind of steam raising plant preferred embodiment of the present invention.

Fig. 3 is the mounting structure schematic diagram of the fixture part of a kind of steam raising plant preferred embodiment of the present invention.

Detailed description of the invention

The invention provides a kind of method of steam raising plant and generation steam thereof, for making object of the present invention, technical scheme and advantage clearly, clearly, developing simultaneously referring to accompanying drawing, the present invention is described in more detail for embodiment.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

A kind of steam raising plant preferred embodiment provided by the present invention, as depicted in figs. 1 and 2, described steam raising plant comprises: adaptation links together and forms drive end bearing bracket 100 and the rear end cap 200 of the container cavity of a sealing mutually, rear end cap 200 also has water injection hole 210, and on drive end bearing bracket 100, have corresponding steam outlet openings 110, wherein, the center of rear end cap 200 also has the axis hole 220 that runs through rear end cap 200.

Further, as shown in Figure 2, described drive end bearing bracket 100 and rear end cap 200 adopt bolt to be fixed together, one week boss 101 is provided with at the inner wall edge of drive end bearing bracket 100 and rear end cap 200, and on described boss 101, be provided with multiple first screwed hole 102, by corresponding first bolt 103 through described first screwed hole 102, described drive end bearing bracket 100 and rear end cap 200 are linked together.Boss 101 herein does not require that drive end bearing bracket 100 and rear end cap 200 all must be provided with, also some conversion can be done, as only arranged boss 101 at drive end bearing bracket 100 or only arranging boss 101 on rear end cap 200, wherein, between drive end bearing bracket 100 and the boss 101 of rear end cap 200, be also provided with a sealing ring 104 for sealing.

In present pre-ferred embodiments, as shown in Figure 1, described steam raising plant also comprises: be arranged on the rotating disk 300 in the water cavity of described drive end bearing bracket 100 and rear end cap 200, described rotating disk 300 is driven by power set and rotates thus carry out heating produces steam to water, be laid with multiple the first steam do not communicated on the positive and negative surface of rotating disk 300 along edge circumference and produce hole 320, rotating disk 300 leaves predetermined gap with the inwall of described drive end bearing bracket 100 and the inwall of rear end cap 200 respectively, is called the first gap and the second gap.In order to make the water entered in the first steam generation hole 320 to reach maximum speed, adopt in present pre-ferred embodiments and the first steam is produced the edge that hole 320 is arranged on rotating disk 300, the efficiency of this edge is the highest.

The material of rotating disk 300 can adopt metal material or high-temperature resistance plastice, as most preferred, can adopt PEEK resin material, the low and not easy heat radiation of its thermal conductivity factor, material surface is smooth, not yielding, light weight, softness is high, and the characteristic of long service life, the weight of described steam raising plant can be made to reduce, and operating efficiency and stability reach maximization.

In present pre-ferred embodiments, as depicted in figs. 1 and 2, described steam raising plant also comprises: the output shaft that these power set are only shown in power set 400(figure), axle sleeve 500 and seal 600, as previously mentioned, these power set 400 can be motor, internal combustion engine and other any power sources with Power output.

Further, as depicted in figs. 1 and 2, described axle sleeve 500 is arranged in axis hole 220, one end of axle sleeve 500 is connected with rotating disk 300, wherein, the center of rotating disk 300 has multiple first pin-and-hole 310, and has the second corresponding pin-and-hole 510 in axle sleeve 500 and the end that rotating disk 300 connects, by pin 511 through the first pin-and-hole 310 and the second pin-and-hole 510, rotating disk 300 and axle sleeve 500 are fixed together.

Between rotating disk 300 and output shaft, arrange its object of axle sleeve 500 is not only in order to convenient disassembly; more to protect power set 400; prevent the heat in this device busy process lumen from passing to power set 400; thus affect the power output efficiency of power set 400, be to do heat insulation process.

Secondly, the output shaft of the nested power set 400 of the other end of axle sleeve 500, wherein, described output shaft carries out key with axle sleeve 500 and is connected, and by the center of axle bolt 410 through axle sleeve 500, axle sleeve 500 and output shaft are fixed together, the Best link effect of axle sleeve 500 and output shaft is reached with this.

For reaching further effect of heat insulation, also can arrange baffle plate 700, rotating disk is clamped between axle sleeve 500 and baffle plate 700 by screw 710 by this baffle plate 700, is specially screw 710 successively through baffle plate 700, rotating disk 300, then is threaded with axle sleeve 500; And drive end bearing bracket 100 inwall corresponding in baffle plate 700 position arranges one for putting the groove of this baffle plate 700.

Further, as shown in Figure 2, described seal 600 is arranged between axis hole 220 and axle sleeve 500, for the gap between sealing axle sleeve 500 and axis hole 220, described seal 600 is fixedly mounted on rear end cap 200, and axle sleeve 500 runs through seal 600 and is rotationally connected with seal 600.

In present pre-ferred embodiments, as shown in Figure 2, rotating disk 300 offers near the position in the first steam generation hole 320 through hole 330 running through whole rotating disk 300, its objective is the pressure for balancing between the first gap and the second gap, prevent rotating disk 300 in high-speed rotation process, the imbalance of pressure in cause the first gap and the second gap, and rotating disk 300 is out of shape.

Further, as depicted in figs. 1 and 2, described steam raising plant also comprises: for balancing the conduit 800 of pressure between the first gap and the second gap, conduit 800 is connected with drive end bearing bracket 100 and rear end cap 200 respectively, and one end of conduit 800 is passed drive end bearing bracket 100 and is communicated with the first gap, the other end of conduit 800 passes rear end cap 200 and is communicated with the second gap.Rotating disk 300 being used for the through hole 330 of pressure between balance first gap and the second gap is not enough to balance the pressure on both sides, because the volume of water and steam has big difference, only also be not enough to by through hole 330 pressure reaching complete equipilibrium first gap and the second gap, therefore then adopt this conduit 800 equalizing pressure further.

In present pre-ferred embodiments, as depicted in figs. 1 and 2, for expanding water space capacity further, offering at the inwall of drive end bearing bracket 100 and rear end cap 200 and producing position, hole 320 with the first steam and the second steam corresponding to shape and structure produces hole 321.Like this, its operation principle, as liquid braking device, when hydrone clashes into it, will obtain extra energy.And accelerate, braking and dial rotation, three's acting in conjunction creates the concentrated energy that water is heated to needed for steam.

For reaching the best heat production effect of this device, the first steam produces hole 320 and the second steam produces hole 321 ovalize setting, and the optimum ratio of the major axis of ellipse and minor axis is 2:1 or 3:1.

In present pre-ferred embodiments, as depicted in figs. 1 and 2, water injection hole 210 and steam outlet openings 110 are required to stagger to arrange, but as most preferred embodiment, water injection hole 210 is arranged on the off-centered position of rear end cap 200, and steam outlet openings 110 is then arranged on the center of drive end bearing bracket 100.Meanwhile, the aperture of water injection hole 210 is less than the aperture of steam outlet openings 110, in order that the capacity of water in control chamber, and makes the water instantaneously producing steam that heating in chamber.

In present pre-ferred embodiments, as shown in Figure 2, the width dimensions scope in the first gap and the second gap is 0.5-2.5mm, and the interstice coverage of this setting is the optimum size scope that in practical application, this steam raising plant efficiently produces steam.

In present pre-ferred embodiments, as shown in Figure 3, based on the requirement to this device stability, one is arranged for reinforcing the fixture 900 of this device working portion between power set 400 and rear end cap 200, fixture 900 was enclosed within axle sleeve 500 before axle sleeve 500 is inserted in axis hole 220, one end of fixture 900 is fixedly connected with rear end cap 200, and the other end is fixedly connected with power set 400, to reach best fixed effect.

The water adopted in present pre-ferred embodiments, compared with the water adopted with existing steam producing apparatus, without the need to changing the chemical composition of water in advance, namely not needing to carry out comparing consuming cost as the removal of impurity, desalination etc. and affecting the step of production efficiency on water, can be conventional running water.

As follows described in present pre-ferred embodiments concrete operation step and principle thereof:

Start power set (can be motor, internal combustion engine and other any power sources with Power output), power output shaft drives rotating disk high-speed rotation (can be directly connected with rotating disk by the output shaft of power set, without the need to being transferred by other rotating shafts), then, at water injection hole access water source (high-pressure pump can be adopted in water injection hole to inject water), water enters the first steam along the first gap and the second gap and produces in hole and the second steam generation hole.(as do not injected water source in container cavity after startup power set, that is, rotating disk, in idle running, also can not damage whole equipment though now do not produce steam or make this equipment occur dangerous situation, when behind injection water source, and can instantaneous generation steam.）

The water that first steam produces in hole starts accelerated motion under the drive of rotating disk, until when accelerating to consistent with the rotating speed of rotating disk, accelerates just to stop.When reaching maximal rate, centrifugal force starts effect, the hydrone of high-speed motion just cannot continue to remain on the first steam and produce in hole, now then depart from the first steam and produce hole, again because whole chamber internal clearance is narrow, and the hydrone of high-speed motion spreads again for the moment nowhere, now just with the first gap, the water that second gap and the second steam produce in hole collides, thus other more water high-speed motions releasing energy in drive chamber, now in chamber, the hydrone number of high-speed motion increases thereupon, and the energy of release also constantly accumulates in chamber, be heat energy according to the hydrone of high-speed motion by kinetic transformation, thus make the hydrone of the high-speed motion in chamber break up the steam being atomized into HTHP.By controlling pressure and the flow velocity of water injection hole, the pressure and temperature of the steam of steam outlet openings can be controlled.

Higher according to the temperature of water, the principle that the speed of molecular motion is faster.That is, hydrone speed is faster, then the temperature of water is higher.Based on this principle, steam raising plant provided by the invention, compared to prior art, the speed producing steam is faster, namely when hydrone reaches constant high-speed motion, namely heats up and reaches boiling point, control water injection rate, be atomized into steam output with hydrone can be made to break up.

The rated speed of present pre-ferred embodiments medium power device is most preferably when the rotating speed of rotating disk reaches 50 meter per second, the water high-speed motion entered in chamber can be warming up to boiling point instantaneously, again by controlling the flow of water injection hole, reducing water injection rate, having broken up to the hydrone of boiling point and being atomized into steam.This mechanical heating water produces the mode of steam, and not only the heat time is short, generally can reach the effect of instant heating, and the efficiency of heating surface is high, is different from prior art, in heating process, and easy dissipated heat.Relative to traditional mode of heating, without the surface that any needs heat in the present embodiment, therefore the inwall of the forward and backward end cap of this device and the surperficial non flouling behaviour of rotating disk, adopting kinetic transformation is the mechanical system of heat energy, not only without the need to consuming the huge fuel of contaminated environment in legacy equipment, again because the water of heating is constantly in motion, so also can not precipitation be accumulated, environmental protection simultaneously.The other technological merit of this device is exactly that volume is little, lightweight, is easy to move, and simultaneously without potential safety hazard, can be applicable to multiple field.

In sum, the method of a kind of steam raising plant provided by the present invention and generation steam thereof, comprise: adaptation links together and forms drive end bearing bracket and the rear end cap of the container cavity of a sealing mutually, described rear end cap offers a water injection hole, described drive end bearing bracket offers corresponding steam outlet openings; Be arranged in described container cavity, and drive rotation by power set thus water be heated to the rotating disk of steam, the side of described rotating disk and the inwall of described drive end bearing bracket form the first gap, and the opposite side of rotating disk and the inwall of described rear end cap form the second gap; And be laid with multiple the first not through steam on the described rotating disk surface corresponding with described first gap along edge circumference and produce hole; Be arranged on described drive end bearing bracket and rear end cap, for balancing the conduit of pressure between described first gap and described second gap, one end of described conduit is passed described drive end bearing bracket and is communicated with the first gap, and the other end of conduit passes described rear end cap and is communicated with the second gap.Compared with prior art, the technique effect reached is:

1, water quality is not strict with, without the need to carrying out the process of the removal of impurity in advance, desalination to water, the cost producing steam can be reduced;

2, produce vapor (steam) velocity fast, the effect of instantaneous generation steam can be reached;

3, because of without traditional area of heating surface, therefore at the inwall of forward and backward end cap and the outer surface non-scaling of rotating disk, without precipitation in container cavity, the efficiency of heating surface is high, simultaneously without potential safety hazard;

4, equipment volume is little, lightweight, is easy to move;

5, steam production and quality controllable;

6, easy to operate, long service life, environmental protection, easy care.

Should be understood that, application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to claims of the present invention.

Claims (12)

1. a steam raising plant, is characterized in that, comprising:

Mutual adaptation links together and forms drive end bearing bracket and the rear end cap of a sealing container cavity;

Be arranged in described container cavity, and drive rotation by power set thus water carried out to the rotating disk of heating produces steam, the side of described rotating disk and the inwall of described drive end bearing bracket form the first gap, and the opposite side of rotating disk and the inwall of described rear end cap form the second gap; And be laid with multiple the first not through steam generation hole on the positive and negative surface of described rotating disk along edge circumference;

Be connected with described drive end bearing bracket and rear end cap respectively, for balancing the conduit of pressure between described first gap and described second gap, one end of described conduit is passed described drive end bearing bracket and is communicated with the first gap, and the other end of conduit passes described rear end cap and is communicated with the second gap;

End cap offers a water injection hole in the rear, described drive end bearing bracket offers corresponding steam outlet openings.

2. steam raising plant according to claim 1, is characterized in that, it also comprises:

The center of end cap offers the axis hole that runs through described rear end cap in the rear;

For driving the power set of described dial rotation, the output shaft of described power set, is fixedly connected with described rotating disk also through described axis hole by an axle sleeve;

For being socketed the axle sleeve of described output shaft, described output shaft to be inserted in described axle sleeve and to be connected with shaft sleeve key, more described axle sleeve and described output shaft is fixed together by an axle bolt passing described axle sleeve center;

Be arranged on the seal for sealing between described axis hole and axle sleeve, described seal is fixedly mounted on rear end cap, and described axle sleeve runs through described seal and is rotationally connected with seal.

3. steam raising plant according to claim 2, it is characterized in that, the center of described rotating disk has multiple first pin-and-hole, and on the correspondence position of described sleeve end, having the second pin-and-hole, described rotating disk and axle sleeve are by being fixed together through the pin of the first pin-and-hole and the second pin-and-hole;

Between described rotating disk with described drive end bearing bracket, be also provided with one for reinforcing the baffle plate and screw that described rotating disk is connected with axle sleeve, described screw successively through baffle plate, rotating disk, and is connected with sleeve thread;

One is provided with for putting the groove of baffle plate at the drive end bearing bracket inwall that described baffle position is corresponding.

4. according to the arbitrary described steam raising plant of claims 1 to 3, it is characterized in that, the inwall of described drive end bearing bracket and rear end cap is provided with the second steam producing hole site corresponding with described first steam and produces hole.

5. steam raising plant according to claim 4, is characterized in that, described first steam produces hole ovalize and arranges, and corresponding described second steam produces Kong Yiwei ellipse and arranges.

6. steam raising plant according to claim 1, it is characterized in that, one week boss is provided with respectively at described drive end bearing bracket and rear end cap inner wall edge, and on described boss, be provided with multiple first screwed hole, by corresponding first bolt through described first screwed hole, described drive end bearing bracket is connected with rear end cap Screw assembly;

Described boss is also provided with a sealing ring.

7. steam raising plant according to claim 1, is characterized in that, described steam outlet openings is arranged on the center of described drive end bearing bracket, and described water injection hole is arranged on the off-centered position of described rear end cap.

8. steam raising plant according to claim 1, is characterized in that, described rotating disk produces hole near described first steam and is provided with multiple through hole for balancing pressure between the first gap and the second gap running through described rotating disk.

9. the steam raising plant according to Claims 2 or 3, it is characterized in that, be provided with the fixture for reinforcing described steam raising plant in the rear between end cap and power set, one end of described fixture is connected with rear end cap, and the other end of fixture is connected with power set.

10. steam raising plant according to claim 1, is characterized in that, the width dimensions scope in described first gap and the second gap is 0.5-2.5mm.

11. 1 kinds of steam raising plants produce the method for steam, it is characterized in that, comprise step:

A, water injected in the sealing container cavity that is interconnected to form by drive end bearing bracket and rear end cap by water injection hole;

B, enter in sealing container cavity and be full of described sealing container cavity, and be full of the first steam be arranged on the positive and negative surface of rotating disk and produce in hole;

C, driven the rotating disk high-speed rotation be arranged in described sealing container cavity by power set, drive the hydrone high-speed motion in the first steam generation hole, and drive the hydrone high-speed rotation be infused in described sealing container cavity, thus heating produces steam is carried out to water, and the steam of generation is flowed out by being arranged on steam outlet openings circulation on described drive end bearing bracket.

12. methods producing steam based on steam raising plant according to claim 11, it is characterized in that, described step B also comprises:

B1, the water entered in sealing container cavity also enter the inwall being arranged on drive end bearing bracket and rear end cap and produce the second steam corresponding to hole with the first steam and produce in hole along the first gap and the second gap, by described second steam generation hole to water further heated at high speed generation steam.