CN112865396A

CN112865396A - Energy-saving motor with efficient heat dissipation

Info

Publication number: CN112865396A
Application number: CN202110252416.2A
Authority: CN
Inventors: 付真强; 郑兆宏
Original assignee: Shenzhen Yiji Manufacturing Co Ltd
Current assignee: Shenzhen Yiji Manufacturing Co Ltd
Priority date: 2021-03-08
Filing date: 2021-03-08
Publication date: 2021-05-28

Abstract

The invention discloses an energy-saving motor with efficient heat dissipation, which belongs to the technical field of energy-saving motors and comprises a motor assembly, wherein a cooling mechanism is sleeved on the outer side wall of the motor assembly, a motor shell is sleeved on the outer side wall of the cooling mechanism, one side of the motor shell is movably connected with a cover plate through a limiting mechanism, a shaft cooling mechanism is embedded in one side of the inner cavity of the cover plate, and the shaft cooling mechanism is sleeved outside the motor assembly. According to the invention, the cooling fan can drive air circulation to circulate in the air cooling row to discharge heat through the rear side screen plate, water liquid in the cooling seat can simultaneously introduce the heat into the shaft cooling seat through the communicating pipe, so that the heat generated by the motor assembly and the main shaft can be quickly dissipated through circulating the water liquid, the interior of the motor assembly is sealed through the sealing seat, dust accumulation in the motor assembly during air circulation is avoided to influence the heat dissipation efficiency, and the requirement of internal dust insulation can be met while the high-efficiency heat dissipation capability is improved.

Description

Energy-saving motor with efficient heat dissipation

Technical Field

The invention belongs to the technical field of energy-saving motors, and particularly relates to an energy-saving motor capable of efficiently dissipating heat.

Background

The motor is an electromagnetic device for realizing electric energy conversion or transmission according to an electromagnetic induction law. The motor is mainly used for generating driving torque and is used as a power source of electric appliances or various machines.

Chinese patent document CN105576898B discloses a centrifugal heat dissipation motor, which comprises a casing, a stator and a rotor, wherein the stator and the rotor are arranged in the casing; the rotor is fixed on the rotating shaft; the shell is totally closed, and the rotating shaft penetrates through the shell; the rotating shaft is fixedly connected with a heat dissipation disc at the rear end of the shell; the motor can work in a humid environment for a long time and has good heat dissipation performance, but when the motor is actually used, certain defects still exist, the motor only drives airflow circulation through the air passage to dissipate heat, certain contact heat dissipation capability is lacked, meanwhile, dust in the air easily stays in the air passage to influence the airflow circulation, continuous heat dissipation capability is lacked when the heat is continuously generated, the motor is inconvenient to disassemble, assemble and maintain, and the using requirements cannot be well met.

Disclosure of Invention

The invention aims to: in order to solve and only drive the air current circulation through the air flue and give off the heat, lack certain contact heat-sinking capability, the dust in the air stops easily in the air flue influences the circulation of air simultaneously to lack continuous heat-sinking capability when the heat lasts the generation, and the relatively inconvenient problem is maintained in the dismouting, and the energy-conserving motor of a high-efficient heat dissipation who provides.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a high-efficient radiating energy-conserving motor, includes motor element, motor element lateral wall cover is equipped with cooling body, and cooling body lateral wall cover is equipped with the motor casing, and there is the apron motor casing one side through stop gear swing joint, apron inner chamber one side is inlayed and is equipped with the cold mechanism of axle, the cold mechanism cover of axle is established at the motor element outside, the cold mechanism one side of axle is linked together with cooling body, cooling body one side intercommunication has heat dissipation mechanism, and heat dissipation mechanism fixed connection is in motor casing one side.

As a further description of the above technical solution:

the cooling mechanism comprises a cooling seat, the cooling seat is sleeved outside the motor assembly, two cooling columns are fixedly connected to the inner wall of the cooling seat, the cooling columns are fixedly connected to the outer wall of the stator of the motor assembly in an opening of the outer wall of the stator of the motor assembly, adjacent cooling columns are fixedly connected through cooling fins, more than two cooling fins are fixedly connected to the cooling fins, and the more than two cooling columns are communicated with the heat dissipation mechanism.

As a further description of the above technical solution:

the cross section of the cooling fin is arc-shaped, and the cooling seat, the cooling fin and the radiating fin are all aluminum heat exchange components.

As a further description of the above technical solution:

stop gear includes the gag lever post, gag lever post fixed connection is in apron one side, gag lever post bottom fixedly connected with tooth more than two, gag lever post one end is fixed with the slide, and the spout has been seted up to the motor casing inner chamber, and spring fixed connection is passed through at spout inner chamber tip in slide one side, and one side tooth bottom joint has the stopper, and has seted up the fluting bottom the spout inner chamber, and the stopper passes the fluting and extends to the motor casing inner chamber, stopper bottom fixedly connected with bull stick, the bull stick lateral wall cover is equipped with the axle sleeve, and the axle sleeve inlays and locates on the apron.

As a further description of the above technical solution:

the length of the limiting block is equal to that of the slotted inner cavity, and the width of the slotted inner cavity is larger than that of the limiting block.

As a further description of the above technical solution:

the shaft cooling mechanism comprises a shaft cooling seat, a bearing is embedded in one side of an inner cavity of the shaft cooling seat, the bearing is sleeved outside a motor assembly, a heat absorption seat is fixedly connected to one side of the inner cavity of the shaft cooling seat, more than two heat dissipation grooves are formed in one side of the heat absorption seat, more than two air cooling grooves are formed in one side of the heat absorption seat, cooling liquid is filled in the inner cavity of the heat absorption seat, the upper end and the lower end of one side of the heat absorption seat are communicated with a communication pipe, a communication pipe is sleeved with a fixing sleeve, a sleeve seat is sleeved on a main shaft of the motor assembly, the communication pipe is communicated with one side of a cooling mechanism, an oil filling groove is fixedly connected to one side of the shaft cooling seat, an inner.

As a further description of the above technical solution:

the cross section of the air cooling groove is arc-shaped, and the heat absorption seat and the shaft cooling seat are both copper heat conduction components.

As a further description of the above technical solution:

the two sides of the motor component are fixedly connected with impellers.

As a further description of the above technical solution:

radiating mechanism includes the drawing liquid pump, and drawing liquid pump fixed connection is in on the motor casing, the input of drawing liquid pump pass through the drawing liquid pipe with cooling body one side is linked together, the output of drawing liquid pump is arranged the intercommunication through pump line and forced air cooling, and forced air cooling arranges the bottom and passes through back flow and cooling body one side intercommunication, and forced air cooling arranges the intussuseption and is filled with the coolant liquid, motor element rear side fixedly connected with radiator fan, radiator fan are located forced air cooling and arrange one side, and the forced air cooling arranges outside wall cover and is equipped with the dust cover, and dust cover fixed connection is in motor casing one side, and forced air cooling arranges one side and has seted up the.

As a further description of the above technical solution:

and the two sides of the bottom of the motor shell are fixedly connected with fixing frames.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, when the motor works to generate heat, the heat generated by the working of the stator of the motor component can quickly guide the heat into the attached cooling column, at the moment, the liquid pump works to quickly pump the cooling liquid in the cooling seat through the liquid pumping pipe, the cooling liquid can quickly guide the heat out to the rear side air-cooled row through circulation, at the moment, the motor component can drive the rear side cooling fan to rotate, the cooling fan rotates to drive air to circulate in the air-cooled row to circulate and discharge the heat through the rear side screen plate, and the water in the cooling seat can simultaneously guide the heat into the shaft-cooled seat through the communicating pipe, thereby can give off through circulation water liquid fast to the heat that motor element and main shaft produced to seal motor element inside through the seal receptacle, the dust is piled up and is influenced the radiating efficiency in motor element inside when avoiding the circulation of air, satisfies the needs to inside dust separation then when can improving high-efficient heat-sinking capability.

2. According to the motor assembly maintenance device, when the motor assembly needs to be maintained, the rear side handle is rotated to drive the rotating rod to rotate, the rotating rod can drive one side limiting block to be separated from teeth, the spring can drive one side sliding plate to extrude one side limiting rod to move outwards by utilizing self elasticity, the cover plate can be drawn out from the sliding groove through the limiting rod, then the cover plate can be quickly separated from the protective shell, the motor assembly inside the protective shell can be conveniently cleaned and maintained, meanwhile, the sliding block and the limiting rod can be extruded through the spring, the cover plate assembly stability is guaranteed, the disassembly and assembly portability are guaranteed, and the working state stability is improved while the disassembly and assembly portability is guaranteed.

3. According to the invention, when the cooling liquid continuously circulates, water liquid can be pumped into the shaft cooling seat through the communicating pipe, the shaft cooling seat can exchange heat with the bearing through the heat absorbing seat, the heat is removed out of the shaft cooling seat through the circulating water liquid, heat accumulation at the main shaft of the motor assembly can be effectively avoided, meanwhile, air supplement can be carried out through rotation of the impellers on two sides when the motor assembly rotates, air convection can be formed in the protective shell, air convection emission can be carried out through the air cooling groove and the rear side dust cover, and the requirement of overall maintenance is met.

Drawings

Fig. 1 is a schematic front view cross-sectional structural diagram of an energy-saving motor with efficient heat dissipation according to the present invention;

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is an enlarged view of B in FIG. 1;

FIG. 4 is a perspective view of the air cooling row of FIG. 1;

FIG. 5 is a schematic side sectional view of the cooling seat shown in FIG. 1;

fig. 6 is a schematic side sectional view of the shaft cooling base in fig. 1.

In the figure:

1-motor component, 2-cooling mechanism, 201-cooling column, 202-cooling fin, 203-cooling fin, 204-cooling seat, 3-motor shell, 4-limiting mechanism, 401-limiting rod, 402-tooth, 403-limiting block, 404-slotting, 405-rotating rod, 406-sliding plate, 407-spring, 408-sliding groove, 5-shaft cooling mechanism, 501-shaft cooling seat, 502-air cooling groove, 503-heat absorbing seat, 504-heat dissipating groove, 505-communicating pipe, 506-fixing sleeve, 507-sleeve seat, 508-oil injecting groove, 509-sealing ferrule, 6-heat dissipating mechanism, 601-air cooling row, 602-liquid pumping pipe, 603-liquid pumping pump, 604-liquid pumping pipe, 605-cooling fan, 606-dustproof cover, 607-otter board, 608-ventilation groove, 7-fixing frame, 8-impeller, 9-cover plate and 10-bearing.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1-6, the invention provides an energy-saving motor with high-efficiency heat dissipation, which comprises a motor assembly 1, wherein a cooling mechanism 2 is sleeved on the outer side wall of the motor assembly 1, a motor casing 3 is sleeved on the outer side wall of the cooling mechanism 2, a cover plate 9 is movably connected to one side of the motor casing 3 through a limiting mechanism 4, a shaft cooling mechanism 5 is embedded in one side of the inner cavity of the cover plate 9, the shaft cooling mechanism 5 is sleeved outside the motor assembly 1, one side of the shaft cooling mechanism 5 is communicated with the cooling mechanism 2, one side of the cooling mechanism 2 is communicated with a heat dissipation mechanism 6, the heat dissipation mechanism 6 is fixedly connected to one side of the motor casing 3, the cooling mechanism 2 comprises a cooling base 204, the cooling base 204 is sleeved outside the motor assembly 1, two cooling columns 201 are fixedly connected to the inner wall of the cooling base 204, the cooling columns 201 are fixedly connected to the opening of the, the cooling fin 202 is fixedly connected with more than two cooling fins 203, more than two cooling columns 201 are all communicated with the cooling mechanism 6, the cross section of the cooling fin 202 is arc-shaped, the cooling base 204, the cooling fin 202 and the cooling fins 203 are all aluminum heat exchange members, the cooling mechanism 6 comprises a liquid pump 603, the liquid pump 603 is fixedly connected on the motor housing 3, the input end of the liquid pump 603 is communicated with one side of the cooling mechanism 2 through a liquid pumping pipe 604, the output end of the liquid pump 603 is communicated with the air cooling row 601 through a liquid pumping pipe 602, the bottom of the air cooling row 601 is communicated with one side of the cooling mechanism 2 through a return pipe, the air cooling row 601 is filled with cooling liquid, the rear side of the motor assembly 1 is fixedly connected with a cooling fan 605, the cooling fan 605 is positioned at one side of the air cooling row 601, the outer side wall of the air cooling row 601 is, two or more ventilation grooves 608 are formed in one side of the air cooling bar 601, a net plate 607 is embedded in the dust cover 606, and fixing frames 7 are fixedly connected to two sides of the bottom of the motor casing 3.

The implementation mode is specifically as follows: when the motor works to generate heat, the heat generated by the stator of the motor component 1 can be quickly led into the attached cooling column 201, the cooling fins 202 and the heat radiating fins 203 can ensure the heat absorption effect of the contact of the cooling liquid, at the moment, the liquid pump 603 works to quickly pump the cooling liquid in the cooling seat 204 through the liquid pumping pipe 604, at the moment, the circulating cooling liquid in the cooling column 201 can quickly lead out the heat through circulation, the pumped cooling liquid can be pumped into the rear side air-cooled row 601 through the liquid pumping pipe 602, at the moment, the motor component 1 can drive the rear side heat radiating fan 605 to rotate, the heat radiating fan 605 rotates to drive the air to circulate in the air-cooled row 601 to discharge the heat through the rear side screen plate 607, when the air circulates in the air ventilating groove 608, the air contact area can be effectively increased through the plurality of ventilating grooves 608, the heat dissipation can be improved, and the cooling liquid in the air-cooled row 601 is, can pump in rear side cooling seat 204 through the bottom back flow pipe, the water liquid in the cooling seat 204 can let in the cold seat 501 of axle through communicating pipe 505 simultaneously, can absorb heat to inside pivoted motor element 1 main shaft in the cold seat 501 of heat conduction, axle cold seat 501 one side oiling groove 508 can pour into fluid when motor element 1 main shaft rotates and lubricate, sealing ring 509 can guarantee the seal tightness simultaneously, and then can avoid the heat that motor element 1 main shaft and bearing 10 friction produced to influence the heat dissipation of motor main shaft, thereby can distribute the heat that motor element 1 and main shaft produced through circulating water liquid fast, and can discharge the absorbed water liquid through air-cooled row 601, avoid continuously producing the temperature and influencing the maximum heat dissipation power, and seal motor element 1 inside through the seal seat, avoid the dust when the circulation of air from piling up in motor element 1 inside and influencing the radiating efficiency, and then the requirement for internal dust insulation can be met while the high-efficiency heat dissipation capacity is improved.

Stop gear 4 includes gag lever post 401, gag lever post 401 fixed connection is in apron 9 one side, gag lever post 401 bottom fixedly connected with more than two teeth 402, gag lever post 401 one end is fixed with slide 406, spout 408 has been seted up to motor casing 3 inner chamber, slide 406 one side is through spring 407 fixed connection at spout 408 inner chamber tip, and one side tooth 402 bottom joint has stopper 403, and spout 408 inner chamber bottom has seted up fluting 404, and stopper 403 passes fluting 404 and extends to motor casing 3 inner chamber, stopper 403 bottom fixedly connected with bull stick 405, bull stick 405 lateral wall cover is equipped with the axle sleeve, and the axle sleeve inlays and locates on apron 9, the length of stopper 403 with the length of fluting 404 inner chamber equals, and the width of fluting 404 inner chamber is greater than the width of stopper 403.

The implementation mode is specifically as follows: when motor element 1 is maintained as required, it rotates to drive bull stick 405 through rotating the rear side handle, bull stick 405 rotates and can drive one side stopper 403 and tooth 402 separation, spring 407 can utilize self elasticity to drive one side slide 406 and slide in spout 408 this moment, slide 406 removes and can extrude one side gag lever post 401 to remove to the outside, apron 9 can be taken out in spout 408 through gag lever post 401 this moment, then can separate apron 9 and protective housing fast, the convenience is cleared up and is maintained motor element 1 inside the protective housing, can be through the extrusion of spring 407 to slider and gag lever post 401 simultaneously, guarantee apron 9 assembly stability, vibration leads to apron 9 and protective housing separation when avoiding motor element 1 to work, improve work improvement operating condition stability when guaranteeing dismouting portability.

The shaft cooling mechanism 5 comprises a shaft cooling seat 501, a bearing 10 is embedded in one side of an inner cavity of the shaft cooling seat 501, the bearing 10 is sleeved outside the motor component 1, a heat absorption seat 503 is fixedly connected to one side of the inner cavity of the shaft cooling seat 501, more than two heat dissipation grooves 504 are formed in one side of the heat absorption seat 503, more than two air cooling grooves 502 are formed in one side of the heat absorption seat 503, cooling liquid is filled in the inner cavity of the heat absorption seat 503, the upper end and the lower end of one side of the heat absorption seat 503 are both communicated with a communicating pipe 505, a fixing sleeve 506 is sleeved outside the communicating pipe 505, a sleeve seat 507 is sleeved on the fixing sleeve 506, the sleeve seat 507 is sleeved on a main shaft of the motor component 1, the communicating pipe 505 is communicated with one side of the cooling mechanism 2, an oil injection groove 508 is fixedly connected to one side of the shaft cooling seat 501, a sealing ferrule 509 is, the heat absorption seat 503 and the shaft cooling seat 501 are both copper heat conduction members, and impellers 8 are fixedly connected to both sides of the motor assembly 1.

The implementation mode is specifically as follows: can go into axle cold seat 501 through communicating pipe 505 with water liquid pump when the coolant liquid lasts the circulation in, axle cold seat 501 can carry out the heat transfer with bearing 10 through heat absorption seat 503 with the heat, and a plurality of radiating groove 504 that heat absorption seat 503 one side was seted up can improve water liquid area of contact, the heat shifts out in with axle cold seat 501 through circulating water liquid, then can effectively avoid the heat of motor element 1 main shaft department to pile up, can carry out the air make-up through 8 rotations of both sides impeller when motor element 1 rotates simultaneously, then can guarantee to form the circulation convection current in the protective housing, then can carry out the air convection through air-cooled groove 502 and rear side dust cover 606 and give off, satisfy whole maintenance needs.

The working principle is as follows: when the motor works to generate heat, the heat generated by the stator of the motor component 1 can be quickly led into the attached cooling column 201, at the moment, the liquid pump 603 works to quickly pump the cooling liquid in the cooling seat 204 through the liquid pumping pipe 604, at the moment, the circulating cooling liquid in the cooling column 201 can quickly lead the heat out through circulation, the pumped cooling liquid can be pumped into the rear side air-cooled row 601 through the liquid pumping pipe 602, at the moment, the motor component 1 can drive the rear side cooling fan 605 to rotate, the cooling fan 605 rotates to drive the air to circulate in the air-cooled row 601 to circulate and discharge the heat through the rear side screen 607, when the air circulates in the ventilation groove 608, the cooling liquid in the air-cooled row 601 can be pumped into the rear side cooling seat 204 through the bottom return pipe after the heat is transmitted, the water in the cooling seat 204 can simultaneously lead the heat into the shaft-cooled seat 501 through the communication pipe 505, can absorb heat to inside pivoted motor element 1 main shaft in the cold seat 501 of heat-conducting axle, the oiling groove 508 of cold seat 501 one side of axle can inject fluid when motor element 1 main shaft rotates and lubricate.

When motor element 1 is maintained to needs, drive bull stick 405 through rotating the rear side handle and rotate, bull stick 405 rotates and can drive one side stopper 403 and tooth 402 separation, spring 407 can utilize self elasticity to drive one side slide 406 and slide in spout 408 this moment, slide 406 removes and can extrude one side gag lever post 401 to move to the outside, apron 9 can be taken out in spout 408 through gag lever post 401 this moment, then can separate apron 9 and protective housing fast.

Can go into the cold seat 501 of axle through communicating pipe 505 with water liquid pump when the coolant liquid lasts the circulation in, the cold seat 501 of axle can carry out the heat transfer with bearing 10 through heat absorption seat 503 with the heat to a plurality of radiating grooves 504 that heat absorption seat 503 one side was seted up can improve water liquid area of contact, the heat shifts out in the cold seat 501 of axle through endless water liquid, can effectively avoid the heat of motor element 1 main shaft department to pile up then, can rotate through both sides impeller 8 when motor element 1 rotates and mend the wind simultaneously.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims

1. The utility model provides a high-efficient radiating energy-saving motor, includes motor element (1), its characterized in that:

motor element (1) lateral wall cover is equipped with cooling body (2), cooling body (2) lateral wall cover is equipped with motor casing (3), motor casing (3) one side has apron (9) through stop gear (4) swing joint, apron (9) inner chamber one side is inlayed and is equipped with axle cold mechanism (5), axle cold mechanism (5) cover is established in motor element (1) outside, axle cold mechanism (5) one side is linked together with cooling body (2), cooling body (2) one side intercommunication has heat dissipation mechanism (6), and heat dissipation mechanism (6) fixed connection is in motor casing (3) one side.

2. The efficient heat-dissipation energy-saving motor as claimed in claim 1, wherein:

cooling body (2) including cooling seat (204), cooling seat (204) cup joint motor element (1) outside, two cooling columns (201) of cooling seat (204) inner wall fixedly connected with, cooling column (201) fixed connection are in motor element (1) stator outer wall opening, through cooling fin (202) fixed connection between adjacent cooling column (201), and fixedly connected with is two above fin (203) on cooling fin (202), more than two cooling column (201) all with heat dissipation mechanism (6) are linked together.

3. The efficient heat-dissipation energy-saving motor as claimed in claim 2, wherein:

the cross section of the cooling fin (202) is arc-shaped, and the cooling seat (204), the cooling fin (202) and the radiating fin (203) are all aluminum heat exchange components.

4. The efficient heat-dissipation energy-saving motor as claimed in claim 1, wherein:

stop gear (4) include gag lever post (401), gag lever post (401) fixed connection is in apron (9) one side, gag lever post (401) bottom fixedly connected with more than two tooth (402), gag lever post (401) one end is fixed with slide (406), it has smooth chamber (408) to have seted up in motor casing (3), spring (407) fixed connection is passed through at spout (408) inner chamber tip in slide (406) one side, and tooth (402) bottom joint has stopper (403), and fluting (404) have been seted up to spout (408) inner chamber bottom, stopper (403) pass fluting (404) and extend to motor casing (3) inner chamber, stopper (403) bottom fixedly connected with bull stick (405), bull stick (405) lateral wall cover is equipped with the axle sleeve, and the axle sleeve inlays to locate on apron (9).

5. The efficient heat-dissipation energy-saving motor as claimed in claim 4, wherein:

the length of the limiting block (403) is equal to that of the inner cavity of the slot (404), and the width of the inner cavity of the slot (404) is larger than that of the limiting block (403).

6. The efficient heat-dissipation energy-saving motor as claimed in claim 1, wherein:

the shaft cooling mechanism (5) comprises a shaft cooling seat (501), a bearing (10) is embedded in one side of an inner cavity of the shaft cooling seat (501), the bearing (10) is sleeved outside the motor component (1), a heat absorption seat (503) is fixedly connected to one side of the inner cavity of the shaft cooling seat (501), more than two heat dissipation grooves (504) are formed in one side of the heat absorption seat (503), more than two air cooling grooves (502) are formed in one side of the heat absorption seat (503), cooling liquid is filled in the inner cavity of the heat absorption seat (503), the upper end and the lower end of one side of the heat absorption seat (503) are communicated with a communication pipe (505), a fixing sleeve (506) is sleeved outside the communication pipe (505), an oil filling sleeve seat (507) is sleeved on the fixing sleeve (506), the sleeve seat (507) is sleeved on a main shaft of the motor component (1), the communication pipe (505) is communicated with one side of the cooling mechanism (2, the inner cavity of the oil injection groove (508) is communicated with a sealing ring (509), and the sealing ring (509) is sleeved outside the main shaft of the motor component (1).

7. The efficient heat-dissipation energy-saving motor as claimed in claim 6, wherein:

the cross section of the air cooling groove (502) is arc-shaped, and the heat absorption seat (503) and the shaft cooling seat (501) are both copper heat conduction components.

8. The efficient heat-dissipation energy-saving motor as claimed in claim 1, wherein:

and impellers (8) are fixedly connected to the two sides of the motor component (1).

9. The efficient heat-dissipation energy-saving motor as claimed in claim 1, wherein:

the heat dissipation mechanism (6) comprises a liquid pump (603), the liquid pump (603) is fixedly connected to the motor casing (3), the input end of the liquid pump (603) is communicated with one side of the cooling mechanism (2) through a liquid pumping pipe (604), the output end of the liquid pump (603) is communicated with the air-cooled row (601) through a liquid pumping pipe (602), the bottom of the air-cooled row (601) is communicated with one side of the cooling mechanism (2) through a return pipe, the air-cooled row (601) is filled with cooling liquid, motor element (1) rear side fixedly connected with radiator fan (605), radiator fan (605) are located air-cooled row (601) one side, and air-cooled row (601) lateral wall cover is equipped with dust cover (606), and dust cover (606) fixed connection is in motor casing (3) one side, and ventilation groove (608) more than two have been seted up to air-cooled row (601) one side, and dust cover (606) are inlayed and are equipped with otter board (607).

10. The efficient heat-dissipation energy-saving motor as claimed in claim 1, wherein:

both sides of the bottom of the motor shell (3) are fixedly connected with fixing frames (7).