CN117948192A - Jet-propelled reversal worm wheel steam turbine power generation device based on filtration - Google Patents

Abstract

The invention relates to the technical field of turbine power generation equipment, and discloses a jet type reverse turbine power generation device based on filtration, which comprises a shell and a steam output cylinder, wherein the shell and the steam output cylinder are arranged on the ground, and the steam output cylinder is arranged at two ends of the shell; a plurality of turbine assemblies; the steam turbine component is arranged in the shell through a rotor; the first end protection components are arranged inside the shell and the steam output cylinder, and the first end protection components are arranged at two ends of the rotor; according to the invention, the first end protection assembly and the second end protection assembly are arranged, so that when the rotor rotates, the lubricating oil between the rotor and the upper bearing bush and the lower bearing bush is circularly cleaned of impurities, after impurities generated by high temperature and leakage in the lubricating oil are cleaned, the lubricating oil is re-input between the upper bearing bush and the lower bearing bush, the lubricating oil can be conveniently recycled, and the abrasion of the surface of the rotor caused by impurities generated in lubrication is reduced.

Description

Jet-propelled reversal worm wheel steam turbine power generation device based on filtration

Technical Field

The invention relates to the technical field of turbine power generation equipment, in particular to a jet type reverse turbine power generation device based on filtration.

Background

The turbine generator is a generator driven by a turbine, superheated steam generated by a boiler enters the turbine to expand and do work, blades are made to rotate to drive the generator to generate power, and waste steam after doing work is sent back to the boiler for recycling through a condenser, a circulating water pump, a condensate pump, a water supply heating device and the like. It uses the power generated by steam or other energy sources to drive turbines to convert energy into mechanical energy.

In chinese patent application No. CN103485833a, a jet type reverse worm turbine generator is disclosed, and the invention mainly comprises: the jet power output disc, the movable air inlet set on one side of the jet power output disc, the reverse worm wheel, the feedback air inlet, the feedback air outlet, the feedback air channel, etc. are set around the nozzle. Although the structure can realize reverse rotation type power generation, steam enters the machine body to drive the steam turbine to rotate, so that the rotor is driven to rotate, and the kinetic energy of the steam is converted into electric energy, when the rotor rotates, an oil film can be damaged due to high temperature or the phenomenon of rotor leakage, impurities are generated in lubricating oil, the surface of the steam turbine rotor is easily worn, the use of the rotor is affected, and the service life of the whole equipment can be also affected.

Disclosure of Invention

The invention aims to provide a jet-type reversing worm wheel steam turbine power generation device based on filtration so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

A filtration-based jet reversing turbine power plant, comprising:

the steam output cylinder is arranged at two ends of the shell;

A plurality of turbine assemblies; the steam turbine component is arranged in the shell through a rotor;

The first end protection components are arranged inside the shell and the steam output cylinder, the first end protection components are arranged at two ends of the rotor, and the first end protection components protect two ends of the rotor through an upper bearing bush and a lower bearing bush;

The first end protection component comprises a collecting groove, a plurality of first communication grooves, a first motor, a rotating cylinder, a plurality of conveying plates, a plurality of second communication grooves and a lubricating groove, wherein the upper bearing bush and the lower bearing bush are respectively and fixedly installed on the inner wall of a groove wall of the bearing bush installation groove and the inner wall of a fixing frame through bolts, the upper bearing bush is connected with the lower bearing bush, the collecting groove is formed in one side of the lower bearing bush, the plurality of first communication grooves are formed in the groove wall of the collecting groove and are mutually communicated, the first installation grooves are formed in one side of the second installation groove and are mutually communicated, the second installation grooves are simultaneously communicated with the first communication grooves, the groove wall of the first installation groove is fixedly installed with the first motor, the output end of the first motor extends into the inner part of the second installation grooves, the rotating cylinder is fixedly installed at the output end of the first motor, the conveying plates are fixedly installed on the outer wall of the rotating cylinder, and the second communication grooves are formed in one side of the second installation groove and are mutually communicated with the second installation groove, and the second communication grooves are formed in one side of the collecting groove and mutually communicated with the lower bearing bush;

The second end protection components are arranged on the outer walls of the shell and the steam output cylinder, and the second end protection components are used for filtering impurities in lubricating oil through a filter screen;

The discharging assembly is arranged on the outer wall of the shell and discharges waste residues filtered out of lubricating oil through the gas transmission pipe;

the steam conveying assembly is arranged on the outer wall of the shell and conveys steam to the inside of the shell through the steam conveying pipe.

Optionally, two impeller mounting grooves and steam input groove have been seted up to the casing inside, two the impeller mounting groove is the central mirror image setting in both ends at the casing inside, and axle bush mounting groove and a plurality of air vent have been seted up to cell wall one side of impeller mounting groove, steam input groove is located two between the impeller mounting groove, just the impeller mounting groove is linked together with steam input groove through inside axle bush mounting groove and air vent, steam output section of thick bamboo inner wall fixed mounting has the mount.

Optionally, the second end protection component includes a plurality of filtering frames, a second motor, a mounting cylinder, a plurality of absorbing frames, a discharging cylinder, a branch pipe, a plurality of moving blocks and a discharging groove, wherein the filtering frames are respectively and fixedly installed at the top ends of the outer walls of the shell and the steam output cylinder, the positions of the filtering frames correspond to those of the upper bearing bushes, the second motor is fixedly installed at one side of the filtering frames, the output end of the second motor extends into the filtering frames, the mounting cylinder is fixedly installed at the output end of the second motor, the discharging cylinder is fixedly installed at one end of the mounting cylinder, one end of the discharging cylinder extends into the mounting cylinder, and the branch pipe is fixedly installed at one end of the discharging cylinder extending into the mounting cylinder;

A plurality of absorption frame fixed mounting in the installation section of thick bamboo outer wall, absorption frame one side extends to installation section of thick bamboo is inside, branch pipe one end fixed mounting in correspondence absorption frame one side, just the branch pipe with the inside being linked together of absorption frame, filter screen fixed mounting in the absorption frame inner wall, arrange the silo set up in filtration frame outer wall one side, a plurality of movable block fixed mounting in installation section of thick bamboo outer wall.

Optionally, a plurality of third intercommunication grooves have been seted up to the axle bush mounting groove cell wall, third intercommunication groove position is linked together with the second intercommunication groove, second intercommunication groove cell wall fixed mounting on the axle bush has first connecting pipe, is located first connecting pipe one end on the inside axle bush of casing passes third intercommunication groove fixed mounting in correspondence on the casing outer wall filter frame bottom, just first connecting pipe one end extends to filter frame is inside, first connecting pipe one end on the inside axle bush of vapour output section of thick bamboo extends to vapour output section of thick bamboo is outside, just first connecting pipe one end fixed mounting on the axle bush in correspond on the vapour output section of thick bamboo outer wall filter frame bottom, second connecting pipe that filter frame one side fixed mounting has, the ejection of compact section of thick bamboo extends to inside the second connecting pipe, ejection of compact section of thick bamboo rotary mounting in second connecting pipe inner wall, casing and vapour output section of thick bamboo outer wall bottom fixed mounting have the delivery pump, second one end fixed mounting corresponds in delivery pump one end, delivery pump one end is located in the delivery pump one end, delivery pipe one end is located in the delivery pipe is corresponding to the inside of the axle bush is located in the delivery groove is extended to the delivery tube one end of vapour output groove, lubrication pump one end is located in the inside the delivery tube is corresponding to the extension groove.

Optionally, the turbine component comprises a plurality of movable impeller mounting shafts, a plurality of movable impeller blades, a plurality of positioning rings, a plurality of mounting blocks, a plurality of stationary impeller blades and a plurality of stationary impeller rings, one end of the rotor is rotatably mounted between an upper bearing bush and a lower bearing bush in the casing, the other end of the rotor is rotatably mounted between the upper bearing bush and the lower bearing bush in the steam output cylinder, a plurality of movable impeller mounting shafts are fixedly mounted on the outer wall of the rotor, the stator blade is fixedly mounted on the outer wall of the movable blade wheel mounting shaft, the mounting blocks are fixedly mounted on the outer wall of the positioning ring, the positioning ring is fixedly mounted on a notch on the wall of the impeller mounting groove through the mounting blocks, the stator blade is fixedly mounted on the inner wall of the positioning ring, the stator blade ring is fixedly mounted on one end of the stator blade, the stator blade is positioned between the positioning ring and the stator blade ring, and the stator blade ring is positioned adjacent to one side of the movable blade wheel mounting shaft.

Optionally, the material discharging component includes jet frame, connector, gas outlet, electric putter, movable plate, linking frame, a plurality of collection shell and collecting box, gas-supply pipe fixed mounting in filter frame outer wall, just gas-supply pipe one end extends to the material discharging groove outer wall, jet frame fixed mounting in material discharging groove cell wall top, the connector set up in jet frame top, jet frame pass through the connector with the gas-supply pipe is linked together, the gas outlet set up in jet frame bottom, electric putter fixed mounting in material discharging groove cell wall both sides, movable plate fixed mounting in electric putter output, a plurality of collection shell fixed mounting is in casing and vapour output section of thick bamboo outer wall top, collection shell is located and corresponds filter frame one side, collection shell inner wall slidable mounting has the collecting box, collection shell one side fixed mounting has the linking frame, linking frame fixed mounting in correspond filter frame outer wall material discharging groove department.

Optionally, the steam conveying component includes a processing section of thick bamboo, dead lever, first division board, second division board, go-between, a plurality of sealing ring, rotor plate and a plurality of pivoted tube, steam conveying pipe fixed mounting with casing outer wall top, just the steam conveying pipe extends to inside the steam input groove, a processing section of thick bamboo fixed mounting in steam input groove cell wall, dead lever fixed mounting in processing section of thick bamboo inner wall both sides, first division board fixed mounting in dead lever one end, second division board fixed mounting in first division board outer wall top, the second division board extends to steam conveying pipe inner wall, a plurality of sealing ring fixed mounting in the rotor plate outer wall, rotor plate fixed mounting in rotor plate inner wall, a plurality of rotor plate fixed mounting in rotor plate one side, rotor plate rotation mounting in processing section of thick bamboo inner wall both ends, the sealing ring is located between rotor plate and the processing section of thick bamboo inner wall.

Optionally, a fixed ring is fixedly installed on one side of the groove wall of the impeller installation groove, and a plurality of limiting blades are fixedly installed on the inner wall of the fixed ring.

Optionally, one end of the rotor extends to the outside of one end of the steam output cylinder, the two ends of the casing are provided with generators, the generators are placed on the ground, and one end of the rotor is connected with a generator shaft through a coupler.

Optionally, the casing both ends fixed mounting has vapor outlet plate, vapor output section of thick bamboo fixed mounting in vapor outlet plate one end, vapor output section of thick bamboo inner wall bottom fixed mounting has the liquid collecting plate, liquid collecting plate one side fixed mounting has a vapor collecting barrel, a plurality of lower leakage mouths have been seted up to vapor collecting barrel outer wall bottom, liquid collecting plate opposite side fixed mounting has a vapor collecting pipe, the vapor collecting pipe is linked together with the vapor collecting barrel, vapor collecting pipe one end extends to vapor output section of thick bamboo is outside.

The invention has at least the following beneficial effects:

(1) According to the scheme, the filter screen filters impurities in the lubricating oil between the mounting cylinder and the filter frame, the filtered lubricating oil is conveyed to the conveying pump and the lubricating oil conveying pipe through the second connecting pipe, the lubricating oil conveyed to the lubricating groove on the lower bearing bush through the lubricating oil conveying pipe is added between the rotor and the upper bearing bush and between the lubricating oil conveying pipe and the lower bearing bush again, circulation of the lubricating oil is completed, the first end protection assembly and the second end protection assembly are arranged, the lubricating oil between the rotor and the upper bearing bush and between the lubricating oil conveying pipe and the lower bearing bush can be circularly cleaned when the rotor rotates, after impurities generated due to high temperature and leakage in the lubricating oil are cleaned, the lubricating oil is conveyed between the rotor and the upper bearing bush and between the lubricating oil conveying pipe again, the lubricating oil can be conveniently recycled, abrasion caused by impurities generated in lubrication is reduced, and the service life of the rotor is prolonged;

(2) According to the scheme, after the impurities filtered out of the lubricating oil enter the discharge groove, the air is injected through the air injection frame and the air outlet, the air outlet faces the connecting port, the impurities are pushed into the collecting box through the air flow, the collecting box can be fixedly arranged in the collecting shell through screws, and the impurities in the collecting box can be removed and cleaned;

(3) According to the scheme, when the lubricating oil and the impurities are conveyed, the first motor is started to drive the rotating cylinder to rotate, so that the conveying plate on the rotating cylinder is driven to rotate, the lubricating oil and the impurities are pushed upwards in an auxiliary mode, and the conveying of the lubricating oil and the impurities is smooth;

(4) According to the scheme, steam enters the treatment cylinder through the steam conveying pipe, the steam is divided into two air flows through the first partition plate and the second partition plate, the steam is discharged into the impeller mounting groove through the rotating pipe, the outlet of the rotating pipe is obliquely arranged on the rotating plate, the inclined directions of the rotating pipes are on the same circular track, and when the steam is sprayed out, the rotating plate is driven to rotate, so that the steam can be conveyed to the periphery of the movable impeller blade, the steam can be fully blown onto the movable impeller blade around, and the rotating efficiency of the movable impeller blade driven by the steam is increased.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, it will be apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a cross-sectional view of a filter frame of the present invention;

FIG. 3 is a cross-sectional view of a mounting cylinder of the present invention;

FIG. 4 is an enlarged view of the invention at A in FIG. 2;

FIG. 5 is a view of a turbine assembly of the present invention;

FIG. 6 is a first end shield assembly mounting view of the present invention;

FIG. 7 is an enlarged view of the invention at B in FIG. 6;

FIG. 8 is a cross-sectional view of the housing of the present invention;

FIG. 9 is a cross-sectional view of a treatment canister according to the present invention;

Fig. 10 is a cross-sectional view of a vapor delivery cartridge of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. A housing; 101. an impeller mounting groove; 102. a vapor input tank; 103. a rotor; 104. a movable impeller mounting shaft; 105. moving impeller blades; 106. a positioning ring; 107. a mounting block; 108. static impeller blades; 109. a stationary blade wheel ring; 2. bearing bush mounting groove; 202. an upper bearing bush; 203. a collection tank; 204. a first communication groove; 205. a first mounting groove; 206. a second mounting groove; 207. a first motor; 208. a rotating cylinder; 209. a conveying plate; 210. a second communication groove; 211. a third communication groove; 3. a first connection pipe; 301. a filter frame; 302. a second motor; 303. a mounting cylinder; 304. an absorption frame; 305. a filter screen; 306. a discharging cylinder; 307. a branch pipe; 308. a moving block; 309. a discharge chute; 310. a gas pipe; 311. an air injection frame; 312. a connection port; 313. an air outlet; 314. an electric push rod; 315. a moving plate; 316. a second connection pipe; 4. a connection frame; 401. a collection housing; 402. a collection box; 5. a vapor delivery tube; 501. a treatment cylinder; 502. a fixed rod; 503. a first partition plate; 504. a second partition plate; 505. a rotating ring; 506. a seal ring; 507. a rotating plate; 508. a rotary tube; 509. a fixing ring; 510. limiting blades; 6. a lower bearing bush; 601. a lubrication groove; 602. a lubricating oil delivery pipe; 603. a transfer pump; 7. a vapor outlet plate; 701. a vapor output canister; 703. a generator; 704. a liquid collection plate; 705. a vapor collection canister; 706. a lower drain; 707. and a water vapor collecting pipe.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a jet type reverse turbine turbo generator based on filtration, comprising: a casing 1 and a steam output cylinder 701, wherein the casing 1 and the steam output cylinder 701 are arranged on the ground, and the steam output cylinder 701 is arranged at two ends of the casing 1; a plurality of turbine assemblies; the turbine component is arranged in the casing 1 and is arranged in the casing 1 through the rotor 103; the first end protection components are arranged inside the shell 1 and the steam output cylinder 701, and are arranged at two ends of the rotor 103, and the first end protection components protect two ends of the rotor 103 through the upper bearing bush 202 and the lower bearing bush 6; a plurality of second end protection components, which are arranged on the outer walls of the shell 1 and the steam output cylinder 701, and filter impurities in the lubricating oil through a filter screen 305; the discharging assembly is arranged at the top end of the outer wall of the shell 1 and discharges waste residues filtered by the lubricating oil through the gas transmission pipe 310; and the vapor conveying component is arranged on the outer wall of the shell 1 and conveys vapor into the shell 1 through the vapor conveying pipe 5.

In some embodiments, referring to fig. 6 and 7, two impeller mounting grooves 101 and a vapor input groove 102 are formed in the casing 1, the two impeller mounting grooves 101 are arranged in a mirror image manner in the casing 1, a bearing bush mounting groove 2 and a plurality of air vents are formed on one side of the groove wall of the impeller mounting groove 101, the vapor input groove 102 is located between the two impeller mounting grooves 101, the impeller mounting groove 101 is communicated with the vapor input groove 102 through the bearing bush mounting groove 2 and the air vents, and a fixing frame is fixedly mounted on the inner wall of the vapor output cylinder 701.

The first end protection component comprises a collecting tank 203, a plurality of first communicating grooves 204, a first motor 207, a rotating cylinder 208, a plurality of conveying plates 209, a plurality of second communicating grooves 210 and a lubricating groove 601, wherein an upper bearing bush 202 and a lower bearing bush 6 are respectively and fixedly installed on the wall of a bearing bush installation groove 2 and the inner wall of a fixing frame through bolts, the upper bearing bush 202 is connected with the lower bearing bush 6, the collecting tank 203 is arranged on one side of the lower bearing bush 6, the plurality of first communicating grooves 204 are arranged on the wall of the collecting tank 203 and are mutually communicated, a first installation groove 205 and a second installation groove 206 are arranged in the upper bearing bush 202, and the first installation groove 205 is arranged on one side of the second installation groove 206 and is mutually communicated.

Meanwhile, the second mounting groove 206 is communicated with the first communication groove 204, a first motor 207 is fixedly mounted on the groove wall of the first mounting groove 205, the output end of the first motor 207 extends into the second mounting groove 206, a rotating cylinder 208 is fixedly mounted on the output end of the first motor 207, a plurality of conveying plates 209 are fixedly mounted on the outer wall of the rotating cylinder 208, a plurality of second communication grooves 210 are formed in the groove wall of the second mounting groove 206 and are mutually communicated, the second communication grooves 210 penetrate through the upper bearing bush 202, a lubricating groove 601 is formed in one side of the lower bearing bush 6, and a collecting groove 203 and the lubricating groove 601 are positioned between the upper bearing bush 202 and the lower bearing bush 6; through setting up first tip protection component and second tip protection component, can be when rotor 103 rotates, circulate the clearance impurity to the lubricating oil between rotor 103 and upper bush 202 and the lower bush 6, after the impurity because of high temperature and electric leakage produces in the clearance completion lubricating oil, reentry lubricating oil between rotor 103 and upper bush 202 and the lower bush 6, make things convenient for lubricating oil cyclic utilization, and reduce to produce impurity in the lubrication and cause wearing and tearing rotor 103 surface, increase rotor 103's life.

In some embodiments, referring to fig. 2,3 and 4, the second end protection component includes a plurality of filter frames 301, a second motor 302, a mounting cylinder 303, a plurality of absorbing frames 304, a discharging cylinder 306, a branch pipe 307, a plurality of moving blocks 308 and a discharging groove 309, wherein the plurality of filter frames 301 are respectively fixedly installed at the top ends of the outer walls of the shell 1 and the vapor output cylinder 701, the positions of the filter frames 301 correspond to the corresponding upper bearing bushes 202, the second motor 302 is fixedly installed at one side of the filter frames 301, the output end of the second motor 302 extends into the interior of the filter frames 301, the mounting cylinder 303 is fixedly installed at the output end of the second motor 302, the discharging cylinder 306 is fixedly installed at one end of the mounting cylinder 303, one end of the discharging cylinder 306 extends into the interior of the mounting cylinder 303, the plurality of absorbing frames 304 are fixedly installed at the outer walls of the mounting cylinder 303, one side of the absorbing frames 304 extends into the interior of the mounting cylinder 303, one end of the branch pipe 307 is fixedly installed at one side of the corresponding absorbing frames 304, and the branch pipe 307 is communicated with the interior of the absorbing frames 304.

The filter screen 305 is fixedly installed on the inner wall of the absorption frame 304, the discharge groove 309 is formed on one side of the outer wall of the filter frame 301, the plurality of moving blocks 308 are fixedly installed on the outer wall of the installation cylinder 303, the groove wall of the bearing bush installation groove 2 is provided with a plurality of third communication grooves 211, the positions of the third communication grooves 211 are communicated with the second communication grooves 210, the groove wall of the second communication grooves 210 on the upper bearing bush 202 is fixedly provided with a first connecting pipe 3, one end of the first connecting pipe 3 on the upper bearing bush 202 positioned in the machine shell 1 penetrates through the third communication grooves 211 and is fixedly installed on the outer wall of the machine shell 1 at the bottom end of the corresponding filter frame 301, and one end of the first connecting pipe 3 extends to the inside of the filter frame 301.

One end of a first connecting pipe 3 on the upper bearing bush 202 inside the vapor output cylinder 701 extends to the outside of the vapor output cylinder 701, one end of the first connecting pipe 3 on the upper bearing bush 202 inside the vapor output cylinder 701 is fixedly arranged at the bottom end of a corresponding filtering frame 301 on the outer wall of the vapor output cylinder 701, a second connecting pipe 316 is fixedly arranged at one side of the filtering frame 301, a discharging cylinder 306 extends to the inside of the second connecting pipe 316, the discharging cylinder 306 is rotatably arranged on the inner wall of the second connecting pipe 316, a conveying pump 603 is fixedly arranged at the bottom ends of the outer walls of the casing 1 and the vapor output cylinder 701, one end of the second connecting pipe 316 is fixedly arranged at one end of the corresponding conveying pump 603, a lubricating oil conveying pipe 602 is fixedly arranged at the outlet end of the conveying pump 603, and the lubricating oil conveying pipe 602 positioned at the casing 1 extends to the inside of the bearing bush mounting groove 2.

One end of a lubricating oil conveying pipe 602 positioned at the steam output cylinder 701 extends into the fixing frame, and one end of the lubricating oil conveying pipe 602 is communicated with a lubricating groove 601 on the corresponding lower bearing bush 6; when cleaning the lubricating oil, the rotor 103 rotates, the lubricating oil and impurities therein gather in the collecting tank 203 on the upper bearing bush 202, the delivery pump 603 is started, the lubricating oil in the collecting tank 203 and impurities therein are sucked into the filtering frame 301 through the first connecting pipe 3, the second motor 302 is started to drive the mounting cylinder 303 to rotate, the lubricating oil is absorbed into the branch pipe 307 through the absorbing frame 304 on the mounting cylinder 303, the filter screen 305 is a metal filter screen, the filter screen 305 filters the impurities in the lubricating oil between the mounting cylinder 303 and the filtering frame 301, when the second motor 302 drives the mounting cylinder 303 to rotate, the filtered impurities are pushed into the discharge groove 309 through the moving block 308 on the outer wall of the mounting cylinder 303, the lubricating oil filtered in the branch pipe 307 enters the second connecting pipe 316 through the discharge cylinder 306, and is conveyed into the delivery pump 603 and the lubricating oil conveying pipe 602 through the second connecting pipe 316, the filtered lubricating oil is added between the rotor 103 and the upper bearing bush 202 and the lower bearing bush 6 again through the lubricating oil conveying pipe 602, and the circulation of the lubricating oil is completed.

In this example, when carrying lubricating oil and impurity, first motor 207 starts and drives the rotation section of thick bamboo 208 and rotate to drive the delivery plate 209 on the rotation section of thick bamboo 208 and rotate, with supplementary upward propelling movement of lubricating oil and impurity, can make more smooth that lubricating oil and impurity carried.

In this example, a pipe for adding lubricating oil may be installed at the connection of the transfer pump 603 and the second connection pipe 316, and the pipe is opened and closed by a solenoid valve.

In this example, mechanical sealing mechanisms may be provided at both ends of the upper bearing shell 202 and the lower bearing shell 6 to prevent vapor from entering between the upper bearing shell 202 and the lower bearing shell 6.

In some embodiments, referring to fig. 5 and 8, the turbine assembly includes a plurality of movable vane mounting shafts 104, a plurality of movable vane blades 105, a plurality of positioning rings 106, a plurality of mounting blocks 107, a plurality of stationary vane blades 108, a plurality of stationary vane rings 109, wherein one end of the rotor 103 is rotatably mounted between an upper bearing bush 202 and a lower bearing bush 6 inside the casing 1, the other end of the rotor 103 is rotatably mounted between the upper bearing bush 202 and the lower bearing bush 6 inside the steam output cylinder 701, the plurality of movable vane mounting shafts 104 are fixedly mounted on the outer walls of the rotor 103, the plurality of movable vane blades 105 are fixedly mounted on the outer walls of the movable vane mounting shafts 104, the plurality of mounting blocks 107 are fixedly mounted on the outer walls of the positioning rings 106, the plurality of positioning rings 106 are fixedly mounted at notches on the walls of the impeller mounting grooves 101 through the mounting blocks 107, the plurality of stationary vane blades 108 are fixedly mounted on the inner walls of the positioning rings 106, the stationary vane rings 109 are fixedly mounted on one end of the stationary vane blades 108, the stationary vane blades 108 are positioned between the positioning rings 106 and the stationary vane rings 109, and the stationary vane rings 109 are positioned on one side of the adjacent corresponding movable vane mounting shafts 104; the movable impeller blades 105 are reaction turbine impellers, steam enters between the movable impeller blades 105, and the steam outlets between adjacent movable impeller blades 105 are narrower, so that the steam at the outlets is faster than the steam at the inlets, thereby generating upward acting force, the movable impeller mounting shaft 104 and the rotor 103 are pushed to rotate by the movable impeller blades 105, the radian directions of the stationary blade blades 108 are opposite to those of the movable impeller blades 105, and the moving blade blades are used for limiting the advancing track of the steam, so that the steam can smoothly advance.

In this example, the rotor 103 rotates a shaft body at one end of the generator 703, rotates a permanent magnet and an armature, and generates electricity by cutting a stator portion inside the generator 703 and a magnet between the permanent magnet and the armature.

In this example, the casing 1 may be an upper and lower casing structure, the upper and lower casings form the complete casing 1, and the positioning ring 106 is an integral ring formed by two semicircles.

In some embodiments, referring to fig. 4, the discharging assembly includes a jet frame 311, a connection port 312, an air outlet 313, an electric push rod 314, a moving plate 315, a connection frame 4, a plurality of collection shells 401 and a collection box 402, the air pipe 310 is fixedly installed on the outer wall of the filter frame 301, one end of the air pipe 310 extends to the outer wall of the discharge groove 309, the jet frame 311 is fixedly installed on the top end of the wall of the discharge groove 309, the connection port 312 is opened on the top end of the jet frame 311, the jet frame 311 is communicated with the air pipe 310 through the connection port 312, the air outlet 313 is opened on the bottom end of the jet frame 311, the electric push rod 314 is fixedly installed on two sides of the wall of the discharge groove 309, the moving plate 315 is fixedly installed on the output end of the electric push rod 314, and the collection shells 401 are fixedly installed on the top ends of the outer walls of the casing 1 and the steam output cylinder 701. The collecting housing 401 is positioned at one side corresponding to the filter frame 301, a collecting box 402 is slidably arranged on the inner wall of the collecting housing 401, a connecting frame 4 is fixedly arranged at one side of the collecting housing 401, and the connecting frame 4 is fixedly arranged at a discharge groove 309 corresponding to the outer wall of the filter frame 301; one end of the gas pipe 310 is connected with an external high-pressure gas tank, after the impurities filtered by the lubricating oil enter the discharge groove 309, the impurities are sprayed by the gas spraying frame 311 and the gas outlet 313, the gas outlet 313 faces the connection port 312, the impurities are pushed into the collecting box 402 by the gas flow, the collecting box 402 can be fixedly arranged in the collecting shell 401 through screws, and the impurities in the collecting box 402 can be removed and cleaned.

Further, referring to fig. 6 again, the vapor delivery assembly includes a treatment canister 501, a fixing rod 502, a first partition plate 503, a second partition plate 504, a rotating ring 505, a plurality of sealing rings 506, a rotating plate 507 and a plurality of rotating pipes 508, the vapor delivery pipe 5 is fixedly installed on the top end of the outer wall of the casing 1, the vapor delivery pipe 5 extends into the vapor input slot 102, the treatment canister 501 is fixedly installed on the wall of the vapor input slot 102, the fixing rod 502 is fixedly installed on two sides of the inner wall of the treatment canister 501, the first partition plate 503 is fixedly installed on one end of the fixing rod 502, the second partition plate 504 is fixedly installed on the top end of the outer wall of the first partition plate 503, and the second partition plate 504 extends to the inner wall of the vapor delivery pipe 5.

A plurality of sealing rings 506 are fixedly arranged on the outer wall of the rotating ring 505, the rotating plate 507 is fixedly arranged on the inner wall of the rotating ring 505, a plurality of rotating pipes 508 are fixedly arranged on one side of the rotating plate 507, the rotating ring 505 is rotatably arranged on two ends of the inner wall of the treatment cylinder 501, and the sealing rings 506 are positioned between the rotating ring 505 and the inner wall of the treatment cylinder 501; one end of the vapor conveying pipe 5 is connected with an external vapor boiler, vapor enters the treatment cylinder 501 through the vapor conveying pipe 5, the vapor is divided into two air flows through the first partition plate 503 and the second partition plate 504, the vapor is discharged into the impeller mounting groove 101 through the rotating pipe 508, the outlets of the rotating pipes 508 on the rotating plate 507 are obliquely arranged, the oblique directions of the rotating pipes 508 are on the same circular track, when the vapor is sprayed out, the rotating plate 507 is driven to rotate, the vapor can be conveyed to the periphery of the impeller blades 105, the vapor is blown onto the impeller blades 105 after the position is adjusted through the limiting blades 510, the vapor can be fully blown onto the peripheral impeller blades 105, and the rotating efficiency of the vapor on the impeller blades 105 is increased.

Further, a fixed ring 509 is fixedly installed on one side of the groove wall of the impeller mounting groove 101, a plurality of limiting blades 510 are fixedly installed on the inner wall of the fixed ring 509, one end of the rotor 103 extends to the outside of one end of the vapor output cylinder 701, the two ends of the casing 1 are provided with generators 703, the generators 703 are placed on the ground, one end of the rotor 103 is connected with the shaft body of the generators 703 through a coupling, the two ends of the casing 1 are fixedly installed with vapor outlet plates 7, the vapor output cylinder 701 is fixedly installed at one end of the vapor outlet plates 7, a liquid collecting plate 704 is fixedly installed at the bottom end of the inner wall of the vapor output cylinder 701, a vapor collecting cylinder 705 is fixedly installed on one side of the liquid collecting plate 704, a plurality of lower leakage holes 706 are formed in the bottom end of the outer wall of the vapor collecting cylinder 705, a vapor collecting pipe 707 is fixedly installed on the other side of the liquid collecting plate 704, the vapor collecting pipe 707 is communicated with the vapor collecting cylinder 705, and one end of the vapor collecting pipe 707 extends to the outside of the vapor output cylinder 701; vapor is conveyed into the vapor output cylinder 701 through the vapor outlet plate 7, one end of the vapor collecting pipe 707 is connected with an external pump body, vapor is pumped through the vapor collecting pipe 707, the liquid collecting plate 704 is an arc-shaped plate, one side of the arc is upward, water collected in the vapor falls onto the liquid collecting plate 704 and is pumped into the vapor collecting pipe 707 through the vapor collecting cylinder 705 and the lower leakage opening 706, and therefore the vapor can be collected better.

The working flow and principle of the invention are as follows: when the steam turbine power generation device is used, steam enters between the movable impeller blades 105, the steam outlets between the adjacent movable impeller blades 105 are narrower, so that the steam at the outlets is faster than the steam at the inlets, upward acting force is generated, the movable impeller mounting shaft 104 and the rotor 103 are pushed to rotate by the movable impeller blades 105, and the rotor 103 drives the shaft body at one end of the generator 703 to rotate, so that lubricating oil is cleaned.

While the rotor 103 rotates, the lubricating oil and impurities therein gather in the collecting tank 203 on the upper bearing bush 202, the delivery pump 603 is started, the lubricating oil in the collecting tank 203 and impurities therein are sucked into the filter frame 301 through the first connecting pipe 3, the second motor 302 is started to drive the mounting cylinder 303 to rotate, the lubricating oil is sucked into the branch pipe 307 through the suction frame 304 on the mounting cylinder 303, the filter screen 305 is a metal filter screen, the filter screen 305 filters the impurities in the lubricating oil between the mounting cylinder 303 and the filter frame 301, when the second motor 302 drives the mounting cylinder 303 to rotate, the filtered impurities are pushed into the discharge tank 309 through the moving block 308 on the outer wall of the mounting cylinder 303, the filtered lubricating oil in the branch pipe 307 enters the second connecting pipe 316 through the discharge cylinder 306, and is conveyed into the delivery pump 603 and the lubricating oil conveying pipe 602 through the second connecting pipe 316, and the filtered lubricating oil is added between the rotor 103 and the upper bearing bush 202 and the lower bearing bush 6 again through the lubricating groove 601 on the lubricating oil conveying pipe 602.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Jet-propelled reversal worm wheel turbo generator based on filtration, characterized by comprising:

a shell (1) and a steam output cylinder (701), wherein the shell (1) and the steam output cylinder (701) are arranged on the ground, and the steam output cylinder (701) is arranged at two ends of the shell (1);

a plurality of turbine assemblies; the steam turbine component is arranged in the shell (1) through a rotor (103);

The first end protection components are arranged inside the shell (1) and the steam output cylinder (701), and are arranged at two ends of the rotor (103), and the first end protection components protect two ends of the rotor (103) through the upper bearing bush (202) and the lower bearing bush (6);

The first end protection component comprises a collecting tank (203), a plurality of first communication tanks (204), a first motor (207), a rotating cylinder (208), a plurality of conveying plates (209), a plurality of second communication tanks (210) and a lubricating tank (601), wherein the upper bearing bush (202) and the lower bearing bush (6) are respectively and fixedly installed on the inner wall of the tank wall of the bearing bush mounting tank (2) and the inner wall of the fixing frame through bolts, the upper bearing bush (202) and the lower bearing bush (6) are connected, the collecting tank (203) is arranged on one side of the lower bearing bush (6), the plurality of first communication tanks (204) are arranged on one side of the collecting tank (203) and are mutually communicated, the first mounting tanks (205) and the second mounting tanks (206) are arranged in the upper bearing bush (202), the first mounting tanks (205) are fixedly installed on one side of the second mounting tanks (206) and are mutually communicated, the first motor (207) is fixedly installed on the wall of the first mounting tank (206), the first motor (207) is fixedly installed on one side of the first motor (208) and is fixedly installed on the outer wall of the rotating cylinder (209), the second communication grooves (210) are formed in the groove walls of the second mounting grooves (206) and are communicated with each other, the second communication grooves (210) penetrate through the upper bearing bush (202), the lubricating groove (601) is formed in one side of the lower bearing bush (6), and the collecting groove (203) and the lubricating groove (601) are located between the upper bearing bush (202) and the lower bearing bush (6);

the second end protection components are arranged on the outer walls of the shell (1) and the steam output cylinder (701), and the second end protection components filter impurities in lubricating oil through a filter screen (305);

the discharging assembly is arranged on the outer wall of the shell (1), and discharges waste residues filtered by the lubricating oil through the gas pipe (310);

The steam conveying assembly is arranged on the outer wall of the machine shell (1), and the steam conveying assembly conveys steam into the machine shell (1) through a steam conveying pipe (5).

2. A filtration-based jet reversing turbine generator as defined in claim 1, wherein: two impeller mounting grooves (101) and steam input grooves (102) are formed in the casing (1), the two impeller mounting grooves (101) are formed in the casing (1) in a center mirror image mode and are formed in two end portions, a bearing bush mounting groove (2) and a plurality of air vents are formed in one side of the groove wall of the impeller mounting groove (101), the steam input grooves (102) are formed in the two impeller mounting grooves (101), the impeller mounting grooves (101) are communicated with the steam input grooves (102) through the inner bearing bush mounting grooves (2) and the air vents, and a fixing frame is fixedly mounted on the inner wall of the steam output cylinder (701).

3. A filtration-based jet reversing turbine generator as defined in claim 2, wherein: the second end protection assembly comprises a plurality of filtering frames (301), a second motor (302), a mounting barrel (303), a plurality of absorbing frames (304), a discharging barrel (306), a branch pipe (307), a plurality of moving blocks (308) and a discharging groove (309), wherein the filtering frames (301) are respectively fixedly installed at the top ends of the outer walls of the shell (1) and the steam output barrel (701), the positions of the filtering frames (301) correspond to the positions of the upper bearing bushes (202), the second motor (302) is fixedly installed at one side of the filtering frames (301), the output end of the second motor (302) extends into the interior of the filtering frames (301), the mounting barrel (303) is fixedly installed at the output end of the second motor (302), the discharging barrel (306) is fixedly installed at one end of the mounting barrel (303), one end of the discharging barrel (306) extends into the interior of the mounting barrel (303), and the branch pipe (307) is fixedly installed at one end of the discharging barrel (306) extends into the interior of the mounting barrel (303).

A plurality of absorption frame (304) fixed mounting in install section of thick bamboo (303) outer wall, absorption frame (304) one side extends to install section of thick bamboo (303) is inside, branch pipe (307) one end fixed mounting in correspond absorption frame (304) one side, just branch pipe (307) with absorption frame (304) is inside to be linked together, filter screen (305) fixed mounting in absorption frame (304) inner wall, discharge groove (309) set up in filtration frame (301) outer wall one side, a plurality of movable block (308) fixed mounting in install section of thick bamboo (303) outer wall.

4. A filtration-based jet reversing turbine generator in accordance with claim 3, wherein: the groove wall of the bearing bush mounting groove (2) is provided with a plurality of third communication grooves (211), the positions of the third communication grooves (211) are communicated with the second communication grooves (210), the groove wall of the second communication groove (210) on the upper bearing bush (202) is fixedly provided with a first connecting pipe (3), one end of the first connecting pipe (3) positioned on the upper bearing bush (202) inside the shell (1) penetrates through the third communication grooves (211) and is fixedly arranged on the outer wall of the shell (1) corresponding to the bottom end of the filter frame (301), and one end of the first connecting pipe (3) extends into the filter frame (301);

The utility model discloses a lubricating oil delivery device, including vapor output section of thick bamboo (701), including casing (1), vapor output section of thick bamboo (701), casing (701), filter frame (301) are located in casing (1), first connecting pipe (3) one end on the inside upper bushing (202) of vapor output section of thick bamboo (701) extends to vapor output section of thick bamboo (701) is outside, just first connecting pipe (3) one end fixed mounting on upper bushing (202) in corresponding on vapor output section of thick bamboo (701) are corresponding filter frame (301) bottom, second connecting pipe (316) that filter frame (301) one side fixed mounting had, discharging barrel (306) extend to inside second connecting pipe (316), discharging barrel (306) rotary mounting in second connecting pipe (316) inner wall, casing (1) and vapor output section of thick bamboo (701) outer wall bottom fixed mounting have delivery pump (603), second connecting pipe (316) one end fixed mounting in correspond delivery pump (603) one end, be located lubricating oil delivery pipe (602) of casing (1) department extends to inside mounting groove (2), be located output section of thick bamboo (602) corresponds with one end of bearing bush (602) is connected to down.

5. A filtration-based jet reversing turbine generator as defined in claim 2, wherein: the turbine assembly comprises a plurality of movable vane mounting shafts (104), a plurality of movable vane blades (105), a plurality of positioning rings (106), a plurality of mounting blocks (107) and a plurality of stationary vane blades (108), wherein one end of the rotor (103) is rotatably mounted between an upper bearing bush (202) and a lower bearing bush (6) in the casing (1), the other end of the rotor (103) is rotatably mounted between the upper bearing bush (202) and the lower bearing bush (6) in the steam output cylinder (701), the plurality of movable vane blades (104) are fixedly mounted on the outer wall of the rotor (103), the plurality of movable vane blades (105) are fixedly mounted on the outer wall of the movable vane mounting shafts (104), the plurality of mounting blocks (107) are fixedly mounted on the outer wall of the positioning rings (106), the plurality of positioning rings (106) are fixedly mounted on gaps on the walls of the impeller mounting grooves (101) through the mounting blocks (107), the plurality of stationary vane blades (108) are fixedly mounted on the inner wall of the positioning rings (106), the stationary vane blades (108) are fixedly mounted on the outer wall of the positioning rings (106), the stator blade wheel ring (109) is positioned at one side adjacent to the corresponding movable blade wheel mounting shaft (104).

6. A filtration-based jet reversing turbine generator in accordance with claim 3, wherein: the material discharging assembly comprises an air spraying frame (311), a connecting port (312), an air outlet (313), an electric push rod (314), a moving plate (315), a connecting frame (4), a plurality of collecting shells (401) and a collecting box (402), wherein an air conveying pipe (310) is fixedly arranged on the outer wall of the filtering frame (301), one end of the air conveying pipe (310) extends to the outer wall of the material discharging groove (309), the air spraying frame (311) is fixedly arranged on the top end of the wall of the material discharging groove (309), the connecting port (312) is formed in the top end of the air spraying frame (311), the air spraying frame (311) is communicated with the air conveying pipe (310) through the connecting port (312), the air outlet (313) is formed in the bottom end of the air spraying frame (311), the electric push rod (314) is fixedly arranged on two sides of the wall of the material discharging groove (309), and the moving plate (315) is fixedly arranged on the output end of the electric push rod (314).

A plurality of collecting shell (401) fixed mounting is in casing (1) and vapour output section of thick bamboo (701) outer wall top, collecting shell (401) are located and correspond filter frame (301) one side, collecting shell (401) inner wall slidable mounting has collecting box (402), collecting shell (401) one side fixed mounting has connecting frame (4), connecting frame (4) fixed mounting in correspond filter frame (301) outer wall drain chute (309) department.

7. A filtration-based jet reversing turbine generator as defined in claim 2, wherein: the steam conveying component comprises a treatment cylinder (501), a fixed rod (502), a first partition plate (503), a second partition plate (504), a rotating ring (505), a plurality of sealing rings (506), a rotating plate (507) and a plurality of rotating pipes (508), wherein the steam conveying pipe (5) is fixedly arranged at the top end of the outer wall of the casing (1), the steam conveying pipe (5) extends to the inside of the steam input groove (102), the treatment cylinder (501) is fixedly arranged at the wall of the steam input groove (102), the fixed rod (502) is fixedly arranged at two sides of the inner wall of the treatment cylinder (501), the first partition plate (503) is fixedly arranged at one end of the fixed rod (502), the second partition plate (504) is fixedly arranged at the top end of the outer wall of the first partition plate (503), the second partition plate (504) extends to the inner wall of the steam conveying pipe (5), the sealing rings (506) are fixedly arranged at the outer wall of the rotating ring (505), the rotating plate (507) is fixedly arranged at the inner wall of the rotating ring (505), the rotating plate (505) is fixedly arranged at the inner wall of the rotating plate (505), the rotating plate (508) is fixedly arranged at one side of the rotating plate (505), the rotating plate (505) is fixedly arranged at the inner wall, the sealing ring (506) is located between the rotating ring (505) and the inner wall of the treatment canister (501).

8. A filtration-based jet reversing turbine generator as defined in claim 2, wherein: a fixed ring (509) is fixedly arranged on one side of the groove wall of the impeller mounting groove (101), and a plurality of limiting blades (510) are fixedly arranged on the inner wall of the fixed ring (509).

9. A filtration-based jet reversing turbine generator as defined in claim 1, wherein: one end of the rotor (103) extends to the outside of one end of the steam output cylinder (701), the two ends of the machine shell (1) are provided with generators (703), the generators (703) are placed on the ground, and one end of the rotor (103) is connected with a shaft body of the generators (703) through a coupling.

10. A filtration-based jet reversing turbine generator as defined in claim 1, wherein: the steam generator comprises a casing (1), wherein a steam outlet plate (7) is fixedly arranged at two ends of the casing, a steam output cylinder (701) is fixedly arranged at one end of the steam outlet plate (7), a liquid collecting plate (704) is fixedly arranged at the bottom end of the inner wall of the steam output cylinder (701), a steam collecting cylinder (705) is fixedly arranged at one side of the liquid collecting plate (704), a plurality of lower leakage openings (706) are formed in the bottom end of the outer wall of the steam collecting cylinder (705), a steam collecting pipe (707) is fixedly arranged at the other side of the liquid collecting plate (704), the steam collecting pipe (707) is communicated with the steam collecting cylinder (705), and one end of the steam collecting pipe (707) extends to the outside of the steam output cylinder (701).