CN109296510A - A kind of wind power generation speed increasing machine radiator - Google Patents

Abstract

The invention discloses a kind of wind power generation speed increasing machine radiators, including booster engine ontology, the upper surface of the booster engine ontology offers air inlet, the air inlet is internally provided with sieve plate, filter screen is fixedly installed in the sieve plate, four corners of the sieve plate offer threaded hole a vertically, and the inner thread of the threaded hole a is connected with bolt a；In the booster engine ontology course of work, driving motor is in starting state, extraneous cold airflow enters booster engine body interior by air inlet, filter screen filters the dust in air in outside, cold air flows into after booster engine body interior and the running gears such as gear carry out heat exchange, it radiates to running gear, driving motor drives radiating vane rotation, thermal current is discharged by ventilation opening and air outlet, and then heat dissipation operation of the realization to booster engine ontology, and radiating efficiency is high, extends the service life of booster engine ontology.

Description

A kind of wind power generation speed increasing machine radiator

Technical field

The invention belongs to technical field of wind power generation, and in particular to a kind of wind power generation speed increasing machine radiator.

Background technique

Wind-power electricity generation refers to that the kinetic energy kept watch switchs to electric energy.Wind energy is a kind of to clean non-harmful renewable energy energy Source is utilized by people very early, is mainly drawn water by windmill, flour milling etc., and present, and interested people are how to utilize Wind generates electricity, and booster engine can often be used in wind power generating set, and it is an important mechanical part, main Function is that generated power passes to generator and it is made to obtain corresponding revolving speed, usual wind wheel under the action of the wind by wind wheel Revolving speed it is very low, revolving speed required by electrical power generators is far not achieved, it is necessary to pass through the speedup of the gear-box gear pair of booster engine Booster engine is also referred to as gearbox or step-up gear to realize by effect, and gear-box of the transmission ratio less than 1 is speedup Machine.

Original booster engine can generate heat due to the rotation of gear in use, and heat is not excluded for will cause gear Operating temperature is excessively high and damages, and reduces the service life of booster engine, and then influence wind power generation efficiency.

Summary of the invention

The purpose of the present invention is to provide a kind of wind power generation speed increasing machine radiators, to solve in above-mentioned background technique The problem of proposition.

To achieve the above object, the invention provides the following technical scheme: a kind of wind power generation speed increasing machine radiator, packet Booster engine ontology is included, the upper surface of the booster engine ontology offers air inlet, and the air inlet is internally provided with sieve plate, Filter screen is fixedly installed in the sieve plate, four corners of the sieve plate offer threaded hole a, the screw thread vertically The inner thread of hole a is connected with bolt a, and the bolt a passes through the inner wall that threaded hole a is threaded in threaded hole b, the screw thread Hole b is provided with the upper surface of installing frame vertically, and the installing frame is welded on the inner wall of air inlet, the left and right of the booster engine ontology Two sides symmetrically offer air outlet, and the inner wall of the air outlet is detachably equipped with Air Filter, the booster engine ontology inside The left and right sides of wall are fixedly installed with driving motor, and the driving motor and external power supply are electrically connected, the driving electricity The outer surface of machine output shaft is fixedly connected with radiating vane.

Preferably, the upper surface of the booster engine ontology is welded with support column, and the quantity of the support column is two, and two A support column is located at the left and right sides of air inlet, and the top of two support columns passes through bolt b and is fixedly installed with rain-proof Plate a.

Preferably, the left and right sides of the booster engine ontology are welded with flashing board b, and the flashing board b is obliquely installed In the top of air outlet.

Preferably, the length of the flashing board a is bigger than the length of booster engine ontology.

Preferably, the installing frame on open up there are four groove, and the inner wall of four grooves respectively with the bottom of spring End is fixedly connected, and the top of the spring is bonded with the lower surface of sieve plate.

Preferably, the left and right sides of the booster engine ontology inner sidewall are welded with protecting crust, and the protecting crust is located at The outside of driving motor, and the opposite one side of two protecting crusts offers several ventilation openings.

Compared with prior art, the beneficial effects of the present invention are: in the booster engine ontology course of work, driving motor is in and opens Dynamic state, extraneous cold airflow enter booster engine body interior by air inlet, and filter screen filters the dust in air outside Portion, cold air flows into after booster engine body interior and the running gears such as gear carry out heat exchange, radiates, drives to running gear Dynamic motor drives radiating vane rotation, and thermal current is discharged by ventilation opening and air outlet, and then realizes to booster engine ontology Radiate operation, and radiating efficiency height, extends the service life of booster engine ontology.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the structural schematic diagram that mounting hole of the present invention is overlooked；

Fig. 3 is the structural schematic diagram amplified at A of the present invention；

In figure: 1, booster engine ontology；2, air inlet；3, sieve plate；4, filter screen；5, threaded hole a；6, bolt a；7, threaded hole b； 8, installing frame；9, air outlet；10, Air Filter；11, driving motor；12, radiating vane；13, protecting crust；14, ventilation opening；15, it props up Dagger；16, bolt b；17, flashing board a；18, flashing board b；19, groove；20, spring.

Specific embodiment

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

Fig. 1-3 is please referred to, the present invention provides a kind of technical solution: a kind of wind power generation speed increasing machine radiator, including Booster engine ontology 1, the upper surface of booster engine ontology 1 offer air inlet 2, and air inlet 2 is internally provided with sieve plate 3, strainer Filter screen 4 is fixedly installed on plate 3, four corners of sieve plate 3 offer threaded hole a5, the inner wall spiral shell of threaded hole a5 vertically Line is connected with bolt a6, and bolt a6 passes through the inner wall that threaded hole a5 is threaded in threaded hole b7, and threaded hole b7 is provided with vertically The upper surface of installing frame 8, installing frame 8 are welded on the inner wall of air inlet 2, and the left and right sides of booster engine ontology 1 symmetrically offer Air outlet 9, the inner wall of air outlet 9 are detachably equipped with Air Filter 10, and the left and right sides of 1 inner sidewall of booster engine ontology are fixed Driving motor 11 is installed, driving motor 11 and external power supply are electrically connected, and the outer surface of 11 output shaft of driving motor is fixed to be connected It is connected to radiating vane 12.

In the present embodiment, the model of driving motor 11 can be 68KTYZ, and by the way that driving motor 11 is arranged, people can be controlled The starting of driving motor 11 processed drives radiating vane 12 to rotate, and then the air-flow inside booster engine ontology 1 can be extracted out, so that outside Boundary's cold airflow enters 1 inside of booster engine ontology by air inlet 2 and carries out heat exchange with the running gear in booster engine ontology 1, Thermal current is discharged under the action of driving motor 11 by air outlet 9 simultaneously, to realize the work of the heat dissipation to booster engine ontology 1 Industry, and radiating efficiency is higher.

In the present embodiment, extraneous cold airflow is entered inside booster engine ontology 1 by air inlet 2, and filter screen 4 is by air In dust filter in outside, cold air flow into after the inside of booster engine ontology 1 with the running gears progress heat exchange such as gear, It radiates to running gear, driving motor 11 drives radiating vane 12 to rotate, and thermal current is passed through 9 row of ventilation opening 14 and air outlet Out, and then heat dissipation operation to booster engine ontology 1 is realized, while when filter screen 4 needs to dismantle cleaning, the a6 that loosers a bolt makes Bolt a6 is detached from threaded hole b7, at this time since the elasticity of spring 20 extends spring 20, so that sieve plate 3 be driven to move up It is detached from air inlet 2, so as to remove sieve plate 3, the setting of flashing board a17 and flashing board b18 to air inlet 2 and can go out Air port 9 is protected, so that rainwater will not be entered inside booster engine ontology 1 by air inlet 2 and air outlet 9, protecting crust 13 Setting so that people to inside booster engine ontology 1 carry out upkeep operation when, protecting crust 13 can touch scattered to avoid people Hot flabellum 12, protecting crust 13 protect radiating vane 12, and the setting of ventilation opening 14 ensure that passing through for air-flow.

Further, the upper surface of booster engine ontology 1 is welded with support column 15, and the quantity of support column 15 is two, and two A support column 15 is located at the left and right sides of air inlet 2, and the top of two support columns 15 passes through bolt b16 and is fixedly mounted There is flashing board a17.

In the present embodiment, by the way that flashing board a17 is arranged, so that rainwater can only be fallen on flashing board a17 in the rainy day, It will not be entered inside booster engine ontology 1 by sieve plate 3, while the setting of flashing board a17 can prevent biggish sundries from falling The flowing that air-flow is influenced in sieve plate 3, so that can be gone on smoothly to the heat dissipation of booster engine ontology 1.

Further, the left and right sides of booster engine ontology 1 are welded with flashing board b18, and flashing board b18 is inclined at The top of air outlet 9.

In the present embodiment, by the way that flashing board b18 is arranged, flashing board b18 protects air outlet 9, equally avoids rainwater Entering 1 inside of booster engine ontology by air outlet 9 influences the rotation of 1 internal gear of booster engine ontology.

Further, the length of flashing board a17 is bigger than the length of booster engine ontology 1.

In the present embodiment, by the way that the length than booster engine ontology 1 of the length setting of flashing board a17 is big, so that Rainwater can directly be fallen by flashing board a17, and without being collected at 1 upper surface of booster engine ontology, protection effect is more preferable.

Further, installing frame 8 on open up there are four groove 19, and the inner wall of four grooves 19 respectively with spring 20 Bottom end be fixedly connected, the top of spring 20 is bonded with the lower surface of sieve plate 3.

In the present embodiment, by the way that spring 20 is arranged, the spring 20 when working on installing frame 8 of sieve plate 3, which is in squeeze, to be shunk State, when needing to clear up the strainer disassembly in sieve plate 3, the a6 that loosers a bolt is detached from after threaded hole b7, due to spring 20 Elasticity make spring 20 extend, and then drive sieve plate 3 move up, so as to pop up sieve plate 3, so that sieve plate 3 dismantlement work is more convenient.

Further, the left and right sides of 1 inner sidewall of booster engine ontology are welded with protecting crust 13, and protecting crust 13, which is located at, to be driven The outside of dynamic motor 11, and the opposite one side of two protecting crusts 13 offers several ventilation openings 14.

In the present embodiment, the setting of protecting crust 13 is so that people when to upkeep operation is carried out inside booster engine ontology 1, prevent Protective case 13 can touch radiating vane 12 to avoid people, and protecting crust 13 protects radiating vane 12, ventilation opening 14 It is arranged and ensure that passing through for air-flow.

The working principle of the invention and process for using: it after the present invention installs, in 1 course of work of booster engine ontology, drives Dynamic motor 11 be in starting state, and extraneous cold airflow passes through air inlet 2 and enters inside booster engine ontology 1, and filter screen 4 is by air In dust filter in outside, cold air flow into after the inside of booster engine ontology 1 with the running gears progress heat exchange such as gear, It radiates to running gear, driving motor 11 drives radiating vane 12 to rotate, and thermal current is passed through 9 row of ventilation opening 14 and air outlet Out, and then heat dissipation operation to booster engine ontology 1 is realized, while when filter screen 4 needs to dismantle cleaning, the a6 that loosers a bolt makes Bolt a6 is detached from threaded hole b7, at this time since the elasticity of spring 20 extends spring 20, so that sieve plate 3 be driven to move up It is detached from air inlet 2, so as to remove sieve plate 3, the setting of flashing board a17 and flashing board b18 to air inlet 2 and can go out Air port 9 is protected, so that rainwater will not be entered inside booster engine ontology 1 by air inlet 2 and air outlet 9.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (6)

1. a kind of wind power generation speed increasing machine radiator, including booster engine ontology (1), it is characterised in that: the booster engine sheet The upper surface of body (1) offers air inlet (2), and the air inlet (2) is internally provided with sieve plate (3), the sieve plate (3) On be fixedly installed with filter screen (4), four corners of the sieve plate (3) offer threaded hole a(5 vertically), the screw thread Hole a(5) inner thread be connected with bolt a(6), the bolt a(6) pass through threaded hole a(5) be threaded in threaded hole b(7) Inner wall, the threaded hole b(7) be provided with the upper surface of installing frame (8) vertically, the installing frame (8) is welded on air inlet (2) Inner wall, the left and right sides of the booster engine ontology (1) symmetrically offer air outlet (9), and the inner wall of the air outlet (9) can Disassembly is equipped with Air Filter (10), and the left and right sides of booster engine ontology (1) inner sidewall are fixedly installed with driving motor (11), the driving motor (11) and external power supply are electrically connected, and the outer surface of driving motor (11) output shaft is fixed to be connected It is connected to radiating vane (12).

2. a kind of wind power generation speed increasing machine radiator according to claim 1, it is characterised in that: the booster engine sheet The upper surface of body (1) is welded with support column (15), and the quantity of the support column (15) is two, and two support columns (15) are respectively Pass through bolt b(16 positioned at the top of the left and right sides of air inlet (2), and two support columns (15)) it is fixedly installed with flashing board A(17).

3. a kind of wind power generation speed increasing machine radiator according to claim 1, it is characterised in that: the booster engine sheet The left and right sides of body (1) are welded with flashing board b(18), the flashing board b(18) it is inclined at the upper of air outlet (9) Side.

4. a kind of wind power generation speed increasing machine radiator according to claim 2, it is characterised in that: the flashing board a (17) length is bigger than the length of booster engine ontology (1).

5. a kind of wind power generation speed increasing machine radiator according to claim 1, it is characterised in that: the installing frame (8) there are four opening up on groove (19), and the inner wall of four grooves (19) is fixedly connected with the bottom end of spring (20) respectively, The top of the spring (20) is bonded with the lower surface of sieve plate (3).

6. a kind of wind power generation speed increasing machine radiator according to claim 1, it is characterised in that: the booster engine sheet The left and right sides of body (1) inner sidewall are welded with protecting crust (13), and the protecting crust (13) is located at the outer of driving motor (11) Portion, and two opposite one sides of protecting crust (13) offer several ventilation openings (14).