CN117458787A - Internal overheat-preventing generator and heat dissipation method - Google Patents

Abstract

The invention belongs to the technical field of generators, in particular to an internal overheat-preventing generator, which comprises a generator body and an outer frame body arranged on the outer side of the generator body, wherein a bearing plate is fixedly arranged on the inner upper surface of the outer frame body through a fixing rod, the outer frame body is fixedly arranged on the upper surface of the bearing plate through a type fixing piece and a plurality of bolts, first radiating mechanisms for radiating the generator body are arranged on the outer sides of two ends of the outer frame body, second radiating mechanisms for radiating the generator body are arranged between the bottom of the outer frame body and the bearing plate, and the first radiating mechanisms and the second radiating mechanisms are arranged on the outer sides of the outer frame body and between the outer frame body and the bearing plate.

Description

Internal overheat-preventing generator and heat dissipation method

Technical Field

The invention belongs to the technical field of generators, and particularly relates to a generator capable of preventing internal overheating and a heat dissipation method.

Background

The generator is mechanical equipment for converting mechanical energy into electric energy, and is driven by a water turbine, a steam turbine, a diesel engine or other power machines, energy generated by water flow, air flow, fuel combustion or nuclear fission is converted into mechanical energy and is transmitted to the generator, and then the generator is converted into electric energy, and in the working process of the generator, more heat energy is generated in the generator due to the factors of the working principle, and if the interior of the generator is not subjected to timely heat dissipation treatment, the interior of the generator can be damaged due to overheating;

in the prior art, a heat dissipation treatment method of a generator can be roughly divided into air cooling heat dissipation and liquid cooling heat dissipation; the patent CN202111335347.8 discloses an air-cooled heat dissipation device of a gasoline generator set and a method thereof, wherein the air-cooled heat dissipation device comprises a shell and a generator set arranged in the shell, and the generator set comprises a generator and an engine which are connected; an axial flow fan and an air outlet are respectively arranged on the outer walls of the two opposite sides of the shell, the axial flow fan is close to the generator, and the air outlet is close to the engine; the inside of casing forms engine heat dissipation passageway and generator heat dissipation passageway, the one end of engine heat dissipation passageway is located axial fan, and the other end is located the air outlet after the route is passed through the engine, the one end of generator heat dissipation passageway is located axial fan, and the other end inserts engine heat dissipation passageway after the route is passed through the generator. According to the invention, cold air is introduced into and discharged from the hot air through the shortest heat dissipation channel, and the introduced cold air flows around the generator set to realize omnibearing heat dissipation; the invention can radiate and reduce noise generated by the operation of the generator set, but the radiating efficiency is lower and a great deal of time is required to be spent when radiating, so the invention needs to design a device with better radiating effect and high radiating efficiency when radiating the generator.

Disclosure of Invention

To solve the problems set forth in the background art. The invention provides a generator capable of preventing internal overheating and a heat dissipation method, and the generator has the characteristics of good heat dissipation effect and high heat dissipation efficiency.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a prevent overheated generator in inside, includes the generator body and sets up the outer support body in the generator body outside, the inside upper surface of outer support body is through dead lever fixed mounting has the joint board, the outer support body is through type mounting and a plurality of bolt fixed mounting in the upper surface of joint board, the both ends outside of outer support body is provided with the first cooling mechanism to the generator body that dispels the heat, be provided with the second cooling mechanism to the generator body between the bottom of outer support body and the joint board;

the lower extreme of outer support body is provided with the bottom plate, be provided with the damper that is used for carrying out buffering shock attenuation to outer support body between outer support body and the bottom plate.

As a preferred technical scheme of the generator capable of preventing internal overheating, the first heat dissipation mechanism comprises a vortex tube, a ventilation vertical tube, ventilation transverse tubes and ventilation holes, a fixed table is fixedly arranged on the outer side surface of the outer frame body, supporting legs are fixedly arranged between the lower end of the fixed table and the outer surface of the outer frame body, the vortex tube is arranged on the upper surface of the fixed table, a plurality of through holes are formed in two sides of the outer frame body, one end of the vortex tube penetrates through the through holes and extends to the inner side of the outer frame body, the ventilation vertical tube is communicated with one end of the vortex tube, a plurality of ventilation transverse tubes distributed at equal intervals are fixedly arranged between the ventilation vertical tubes, and a plurality of ventilation holes distributed at equal intervals are formed in each ventilation transverse tube.

As a preferable technical scheme of the generator capable of preventing internal overheating, the vortex tube comprises an air inlet, a cold air outlet, a hot air outlet and a sealing sleeve, wherein the air inlet is arranged at the middle position of the vortex tube, the cold air outlet is arranged at one end of the vortex tube and is in sealing connection with a vent vertical tube, the hot air outlet is arranged at the other end of the vortex tube, and the sealing sleeve is sleeved on the outer surface of the vortex tube.

As a preferable technical scheme of the generator capable of preventing internal overheating, the air inlet is positioned at the upper end of the vortex tube and is connected with the external air pump.

As an optimized technical scheme of the generator capable of preventing internal overheating, the second heat dissipation mechanism comprises a heat dissipation plate and a fan, a ventilation groove is formed in the bottom of the outer frame body, the fan is arranged in the ventilation groove, a square groove is formed in the bearing plate, the heat dissipation plate is fixedly arranged on the upper surface of the inner portion of the outer frame body through a fixing piece, the upper end of the heat dissipation plate penetrates through the square groove to be in contact with the bottom of the generator body, and the heat dissipation plate is located right above the fan.

As a preferable technical scheme of the generator capable of preventing internal overheating, the damping component comprises a base, a sliding block, a second spring, a fixed block, a connecting rod and a connecting seat, wherein the base is fixedly arranged at the middle position of the upper surface of a bottom plate, a movable groove is formed in the base, the fixed block is fixedly arranged at the middle position of the inside of the movable groove, the sliding block is movably arranged in the movable groove, the second spring is arranged between the sliding block and the fixed block, one end of the second spring is fixedly connected with the sliding block, the other end of the second spring is fixedly connected with the fixed block, the lower end of the connecting rod is rotatably connected with the sliding block, the upper end of the connecting rod is rotatably connected with the connecting seat, and the connecting seat is fixedly arranged on the lower surface of an outer frame body.

As an optimal technical scheme of the generator capable of preventing internal overheating, the sliding block, the second spring, the connecting rod and the connecting seat are all provided with two groups and are axially symmetrically distributed.

As an optimal technical scheme of the generator capable of preventing internal overheating, the damping component further comprises a first spring and a damper, wherein the damper is fixedly arranged between the outer frame body and the bottom plate, the upper end of the damper is fixedly connected with the lower surface of the outer frame body, the lower end of the damper is fixedly connected with the upper surface of the bottom plate, and the first spring is sleeved on the outer side of the damper.

A heat dissipation method of a generator capable of preventing internal overheating comprises the following steps:

s1: after the generator body is started, an external air pump is connected with an air inlet arranged on the vortex tube, air is in a vortex shape under the action of the vortex tube, cold air is discharged into the ventilation vertical tube and the ventilation transverse tube through the cold air outlet, and finally discharged through the ventilation holes to dissipate heat of the generator body;

s2: the fan is started after secondary heat dissipation, and the heat emitted by the generator body is absorbed by the heat radiating fins;

s3: and the heat is radiated for three times, and the heat absorbed by the radiating fins is radiated by the action of the fan, so that the radiating effect is achieved.

Compared with the prior art, the invention has the beneficial effects that:

through set up first heat dissipation mechanism and second heat dissipation mechanism in the middle of the outside of outer support body and the board of accepting, under first heat dissipation mechanism and second heat dissipation mechanism's mutually supporting, can carry out abundant heat dissipation to the heat that the generator body produced at the during operation, avoid being in the same direction as bad because the inside overheated of generator body, thereby influence the working process, set up damper in the bottom of outer support body and bottom plate simultaneously, under the mutually supporting of each component in damper, can carry out effectual buffering shock attenuation to the vibrations that the vibrations or the external object striking produced that the generator body itself produced, avoid influencing the normal work of generator body, and provide the protection.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of an outer frame according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 4 is a schematic view of the bottom structure of the outer frame of the present invention;

FIG. 5 is a schematic perspective view of a vortex tube according to the present invention;

fig. 6 is a schematic perspective view of a base plate according to the present invention.

In the figure: 1. an outer frame body; 101. a ventilation groove; 102. a through hole; 2. a receiving plate; 201. a fixed rod; 202. a square groove; 3. a bottom plate; 301. a first spring; 302. a damper; 303. a base; 304. a movable groove; 305. a slide block; 306. a second spring; 307. a fixed block; 308. a connecting rod; 309. a connecting seat; 4. a fixed table; 401. support legs; 5. a vortex tube; 501. a vent stack; 502. a ventilation transverse tube; 503. a vent hole; 504. an air inlet; 505. a cool air outlet; 506. a hot gas outlet; 507. sealing sleeve; 6. a generator; 7. a heat sink; 8. a blower; 9. type fastener.

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.

Examples

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides an inside overheated generator, including generator body 6 and the outer support body 1 of setting in generator body 6 outside, the inside upper surface of outer support body 1 is through fixed lever 201 fixed mounting has and holds board 2, outer support body 1 is through mounting 9 and a plurality of bolt fixed mounting in the upper surface of holding board 2, the both ends outside of outer support body 1 is provided with the first heat dissipation mechanism that dispels the heat to generator body 6, be provided with the second heat dissipation mechanism that dispels the heat to generator body 6 between the bottom of outer support body 1 and holding board 2;

the lower extreme of outer support body 1 is provided with bottom plate 3, is provided with the damper that is used for carrying out buffering shock attenuation to outer support body 1 between outer support body 1 and the bottom plate 3.

In this embodiment, through set up first heat dissipation mechanism and second heat dissipation mechanism in the middle of the outside of outer support body 1 and accepting board 2, under first heat dissipation mechanism and second heat dissipation mechanism's mutually supporting, can carry out abundant heat dissipation to the heat that generator body 6 produced when the work, avoid because the inside overheated and in the same direction as bad of generator body 6 to influence the working process, set up damper in the bottom of outer support body 1 and bottom plate 3 simultaneously, under the mutually supporting of each component in damper, can carry out effectual buffering shock attenuation to the vibrations that generator body 6 itself produced or external object striking produced, avoid influencing the normal work of generator body 6, and provide the protection.

Specifically, a first heat dissipation mechanism includes vortex tube 5, vent standpipe 501, vent cross tube 502, air vent 503, fixed mounting is had to the outside surface of outer support body 1 fixing base 4, fixed mounting has supporting leg 401 between the lower extreme of fixing base 4 and the outer surface of outer support body 1, vortex tube 5 sets up the upper surface at fixing base 4, a plurality of through-holes 102 have been seted up to the both sides of outer support body 1, the one end of vortex tube 5 passes through-hole 102 and extends to the inboard of outer support body 1, vent standpipe 501 is linked together with the one end of vortex tube 5, fixed mounting has a plurality of equidistant distributed vent cross tube 502 between the vent standpipe 501, a plurality of equidistant distributed air vent 503 have all been seted up to every vent cross tube 502, vortex tube 5 includes air inlet 504, air outlet 505, steam outlet 506, seal cover 507, the air inlet 504 sets up the one end at vortex tube 5, and air outlet 505 and vent standpipe 501 sealing connection, the other end at vortex tube 5, seal cover 507 cup joints the surface at vortex tube 5, air inlet 504 is located the upper end of vortex tube 5, and the outside is connected with the air inlet.

In this embodiment, by injecting external air under the action of the vortex tube 5, the injected air forms a vortex shape, hot air is discharged through the hot air outlet 506, cold air is discharged into the vent stack 501 and the vent cross tube 502 through the cold air outlet 505, and then discharged through the vent hole 503, thereby achieving the heat dissipation effect on the generator body 6.

Specifically, the second cooling mechanism includes fin 7 and fan 8, and ventilation groove 101 has been seted up to the bottom of outer support body 1, and fan 8 installs in ventilation groove 101's inside, and square groove 202 has been seted up to the inside of accepting board 2, and fin 7 passes through mounting fixed mounting at the inside upper surface of outer support body 1, and the upper end of fin 7 passes square groove 202 and contacts with the bottom of generator body 6, and fin 7 is located directly over fan 8.

Specifically, the damping assembly includes base 303, slider 305, the second spring 306, fixed block 307, connecting rod 308, connecting seat 309, base 303 fixed mounting is in the intermediate position of bottom plate 3 upper surface, movable groove 304 has been seted up to the inside of base 303, fixed block 307 fixed mounting is in the intermediate position of movable groove 304 inside, slider 305 movable mounting is in the inside of movable groove 304, the second spring 306 sets up between slider 305 and fixed block 307, and the one end and the slider 305 fixed connection of second spring 306, the other end and the fixed block 307 fixed connection of second spring 306, the lower extreme and the slider 305 rotation of connecting rod 308 are connected, the upper end and the connecting seat 309 rotation of connecting rod 308 are connected, and connecting seat 309 fixed mounting is at the lower surface of outer support body 1, slider 305, second spring 306, connecting rod 308, connecting seat 309 all are provided with two sets of and are axisymmetrically distributed, the damping assembly still includes first spring 301 and attenuator 302, attenuator 302 fixed mounting is between outer support body 1 and bottom plate 3, and the upper end and the lower surface of outer support body 1 of attenuator 302 fixed connection, the upper end and the lower surface of attenuator 302 of bottom plate 302 are fixed connection at the outer support body 1, the outside the fixed connection of the first surface of attenuator 301 of the upper end and the lower surface of isolator 302 of the outer support body 302 is fixed connection.

In this embodiment, the first spring 301 and the damper 302 cooperate to buffer and dampen the generated shock, the connecting rod 308 starts to move, the sliding block 305 is pushed to move in the movable slot 304, the second spring 306 starts to shrink, and the second spring 306 cooperates with the first spring 301 and the damper 302, so as to achieve the effect of buffering and damping.

A heat dissipation method of a generator capable of preventing internal overheating comprises the following steps:

s1: after the generator body 6 is started, an external air pump is connected with an air inlet 504 arranged on the vortex tube 5, air is in a vortex shape under the action of the vortex tube 5, cold air is discharged into the ventilation standpipe 501 and the ventilation transverse tube 502 through the cold air outlet 505, and finally discharged through the vent hole 503 to dissipate heat of the generator body 6;

s2: the fan 8 is started, and the heat emitted by the generator body 6 is absorbed by the radiating fins 7;

s3: and the heat is radiated for three times, and the heat absorbed by the radiating fins 7 is radiated by the action of the fan 8, so that the radiating effect is achieved.

The working principle and the using flow of the invention are as follows: when the generator is used, the device is placed at a proper position, when the generator body 6 starts to work, the external air pump is connected with the air inlet 504 arranged on the vortex tube 5, under the action of the vortex tube 5, injected air is in a vortex shape, hot air is discharged from the hot air outlet 506, cold air is discharged into the ventilation vertical pipe 501 and the ventilation horizontal pipe 502 through the cold air outlet 505, finally, the air is discharged through the ventilation holes 503 to dissipate heat of the generator body 6, meanwhile, the fan 8 is started, under the mutual matching of the air cooling fins 7, secondary heat dissipation is carried out, the influence of the internal overheat of the generator body 6 on the work is avoided, when the generator body 6 works or vibration generated by an external object body is generated, the first spring 301 and the damper 302 are mutually matched to buffer and damp the generated vibration, the connecting rod 308 starts to move, the sliding block 305 is pushed to move in the movable groove 304, the second spring 306 is contracted to be mutually matched with the first spring 301 and the damper 302, the buffer and damping effect is achieved, and the normal work of the generator body 6 is prevented from being influenced due to the fact that the vibration of the device is overlarge.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a prevent overheated generator in inside, includes generator body (6) and sets up outer support body (1) in generator body (6) outside, its characterized in that: the power generator comprises an outer frame body (1), wherein a bearing plate (2) is fixedly arranged on the inner upper surface of the outer frame body (1) through a fixing rod (201), the outer frame body (1) is fixedly arranged on the upper surface of the bearing plate (2) through a type fixing piece (9) and a plurality of bolts, first heat dissipation mechanisms for dissipating heat of a power generator body (6) are arranged on the outer sides of two ends of the outer frame body (1), and second heat dissipation mechanisms for dissipating heat of the power generator body (6) are arranged between the bottom of the outer frame body (1) and the bearing plate (2);

the lower extreme of outer support body (1) is provided with bottom plate (3), be provided with the damper that is used for carrying out buffering shock attenuation to outer support body (1) between outer support body (1) and bottom plate (3).

2. An internal overheating-preventing generator according to claim 1, wherein: the utility model provides a vortex tube (5), vent stack (501), vent cross tube (502), air vent (503) are included to first heat dissipation mechanism, outside fixed surface of outer support body (1) installs fixed station (4), fixed mounting has supporting leg (401) between the lower extreme of fixed station (4) and outer support body (1) surface, vortex tube (5) set up the upper surface at fixed station (4), a plurality of through-holes (102) have been seted up to the both sides of outer support body (1), the inboard of outer support body (1) is passed through-hole (102) and extends to one end of vortex tube (5) is linked together to one end of vent stack (501), a plurality of equidistant distributed vent cross tube (502) have been fixedly mounted between vent stack (501), every a plurality of equidistant distributed vent (503) have all been seted up to vent cross tube (502).

3. A generator for preventing internal overheating as in claim 2, wherein: the vortex tube (5) comprises an air inlet (504), a cold air outlet (505), a hot air outlet (506) and a sealing sleeve (507), wherein the air inlet (504) is arranged at the middle position of the vortex tube (5), the cold air outlet (505) is arranged at one end of the vortex tube (5), the cold air outlet (505) is in sealing connection with the vent vertical tube (501), the hot air outlet (506) is arranged at the other end of the vortex tube (5), and the sealing sleeve (507) is sleeved on the outer surface of the vortex tube (5).

4. A generator as claimed in claim 3, wherein the generator is adapted to prevent internal overheating: the air inlet (504) is positioned at the upper end of the vortex tube (5), and the air inlet (504) is connected with an external air pump.

5. An internal overheating-preventing generator according to claim 1, wherein: the second heat dissipation mechanism comprises a heat dissipation plate (7) and a fan (8), a ventilation groove (101) is formed in the bottom of the outer frame body (1), the fan (8) is arranged in the ventilation groove (101), a square groove (202) is formed in the bearing plate (2), the heat dissipation plate (7) is fixedly arranged on the upper surface of the inner portion of the outer frame body (1) through a fixing piece, the upper end of the heat dissipation plate (7) penetrates through the square groove (202) to be in contact with the bottom of the generator body (6), and the heat dissipation plate (7) is located right above the fan (8).

6. An internal overheating-preventing generator according to claim 1, wherein: the shock-absorbing assembly comprises a base (303), a sliding block (305), a second spring (306), a fixed block (307), a connecting rod (308) and a connecting seat (309), wherein the base (303) is fixedly installed at the middle position of the upper surface of a bottom plate (3), a movable groove (304) is formed in the base (303), the fixed block (307) is fixedly installed at the middle position of the inner portion of the movable groove (304), the sliding block (305) is movably installed in the movable groove (304), the second spring (306) is arranged between the sliding block (305) and the fixed block (307), one end of the second spring (306) is fixedly connected with the sliding block (305), the other end of the second spring (306) is fixedly connected with the fixed block (307), the lower end of the connecting rod (308) is rotationally connected with the sliding block (305), the upper end of the connecting rod (308) is rotationally connected with the connecting seat (309), and the connecting seat (309) is fixedly installed on the lower surface of an outer frame body (1).

7. The internal overheating-resistant generator of claim 6, wherein: the sliding blocks (305), the second springs (306), the connecting rods (308) and the connecting seats (309) are all provided with two groups and are axisymmetrically distributed.

8. The internal overheating-resistant generator of claim 6, wherein: the damping assembly further comprises a first spring (301) and a damper (302), wherein the damper (302) is fixedly arranged between the outer frame body (1) and the bottom plate (3), the upper end of the damper (302) is fixedly connected with the lower surface of the outer frame body (1), the lower end of the damper (302) is fixedly connected with the upper surface of the bottom plate (3), and the first spring (301) is sleeved on the outer side of the damper (302).

9. A method of dissipating heat from an internal overheat protection power generator according to any one of claims 1 to 8, comprising the steps of:

s1: after the generator body (6) is started, an external air pump is connected with an air inlet (504) arranged on the vortex tube (5), air is in a vortex shape under the action of the vortex tube (5), cold air is discharged into the ventilation vertical tube (501) and the ventilation transverse tube (502) through the cold air outlet (505), and finally discharged through the ventilation hole (503) to dissipate heat of the generator body (6);

s2: the fan (8) is started after the secondary heat radiation, and the heat emitted by the generator body (6) is absorbed by the heat radiating fins (7);

s3: and the heat is radiated for three times, and the heat absorbed by the radiating fins (7) is radiated by the action of the fan (8) so as to achieve the radiating effect.