CN113452193B

CN113452193B - New energy automobile motor with high-efficient heat dissipation function

Info

Publication number: CN113452193B
Application number: CN202110596726.6A
Authority: CN
Inventors: 卫云贵; 姜鑫
Original assignee: Shanxi traffic technician college
Current assignee: Shanxi traffic technician college
Priority date: 2021-05-31
Filing date: 2021-05-31
Publication date: 2022-11-29
Anticipated expiration: 2041-05-31
Also published as: CN113452193A

Abstract

The invention discloses a new energy automobile motor with a high-efficiency heat dissipation function, which structurally comprises a fixed seat, a controller and a high-efficiency heat dissipation motor, wherein the upper side of the fixed seat is welded and connected with the lower side of the high-efficiency heat dissipation motor, the lower side of the controller is fixedly embedded and connected with the upper side of the high-efficiency heat dissipation motor, the high-efficiency heat dissipation motor comprises a shell, a motor and a water circulation device, the inner side of the shell is in clearance fit with the outer side of the motor, the outer side of the motor is fixedly embedded and connected with the outer end of the water circulation device, the water circulation device rotates, cold water is pumped to a heat absorption pipe, after the heat absorption pipe absorbs all the heat of the motor, the cold water flows to an external water tank through a return pipe, the heat dissipation efficiency of the motor is improved, an inertia device rotates along with the motor in the rotating process of the motor, the pulling force of a pull rope keeps rotating after the motor stops rotating, the heat after the motor stops rotating is absorbed, the service life of a sealing ring of the motor is prolonged, and the risk that the inside of the motor is corroded is reduced.

Description

New energy automobile motor with high-efficient heat dissipation function

Technical Field

The invention belongs to the field of new energy, and particularly relates to a new energy automobile motor with a high-efficiency heat dissipation function.

Background

The new energy automobile motor is a power device which utilizes electric energy to do work to enable an inner rotor to rotate to drive a vehicle to advance, in the process of applying work of the motor, partial electric energy is converted into heat energy, meanwhile, the rotor can also form friction to a motor shell to generate heat in the rotating process, but because the motor is usually installed in the vehicle, the motor is difficult to conduct the heat through air or radiating fins in the driving process, meanwhile, the air flowing inside a motor cabin of the vehicle stops after the driving is finished, the waste heat of the motor is difficult to diffuse, a sealing ring inside the motor is in a high-temperature state for a long time, the service life of the sealing ring of the motor is shortened, and the risk that the inside of the motor is corroded is increased.

Disclosure of Invention

In order to solve the problems that in the prior art, the motor is usually arranged in a vehicle, so that heat is difficult to be conducted out through air or radiating fins in the driving process of the motor, and meanwhile, after the vehicle is driven, the air in a motor cabin stops flowing, so that waste heat of the motor is difficult to diffuse, a sealing ring in the motor is in a high-temperature state for a long time, the service life of the sealing ring of the motor is shortened, and the risk of corrosion to the interior of the motor is increased, the invention provides the novel energy automobile motor with the efficient radiating function.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a new energy automobile motor with high-efficient heat dissipation function, its structure includes fixing base, controller, high-efficient heat dissipation motor, fixing base upside and high-efficient heat dissipation motor downside welded connection, the controller downside inlays solid with high-efficient heat dissipation motor upside and is connected, high-efficient heat dissipation motor includes shell, motor, water circle device, the inboard and motor outside clearance fit of shell, the motor outside inlays solid with water circle device outer end and is connected.

As a further improvement of the invention, the water circulation device comprises a water inlet pipe, water impellers, heat absorption pipes, a return pipe and a fixing cover, wherein the upper end of the water inlet pipe is in clearance fit with the middle of the water impellers, the front ends of the heat absorption pipes are fixedly embedded and connected with the outer side of the fixing cover, the upper ends of the return pipes are fixedly embedded and connected with the left end of the fixing cover, the number of the heat absorption pipes is six, and the heat absorption pipes are annularly distributed by taking the water impellers as the center.

As a further improvement of the invention, the motor comprises a heat radiating fin, contact holes and a motor main body, wherein the inside of the heat radiating fin is fixedly connected with the outside of the contact holes, the outside of the motor main body is connected with the bottom of the heat radiating fin in a welding mode, the width of each contact hole is the same as that of each heat absorbing pipe, and the number of the contact holes is six.

As a further improvement of the present invention, the motor main body includes a rotor, a stator, heat conduction blocks, and an outer cover, the outer side of the rotor is in clearance fit with the outer side of the stator, the outer side of the stator is bonded with the inner side of the outer cover, the outer side of the heat conduction blocks is welded with the inner side of the outer cover, the number of the heat conduction blocks is ten, the heat conduction blocks are distributed in a ring shape with the rotor as the center, and the heat conduction blocks are trapezoidal in shape, and distributed in a shape with a wide bottom and a narrow top.

As a further improvement of the invention, the water impeller comprises an inertia device, blades and a fixed plate, wherein the outer side of the inertia device is in clearance fit with the inner side of the fixed plate, the bottoms of the blades are welded and connected with the outer side of the fixed plate, and the blades are obliquely arranged.

As a further improvement of the invention, the inertia device comprises a buffer, a balancing weight and a spring, wherein the outer side of the buffer is movably clamped with the outer side of the balancing weight, one end of the spring is welded with the inner side of the balancing weight, the other end of the spring is welded with the outer end of the buffer, the number of the balancing weight is two, the balancing weight is distributed in bilateral symmetry by taking the buffer as the center, and the inner part of the balancing weight is solid.

As a further improvement of the invention, the buffer comprises a middle shaft, connectors and fixing rings, wherein the outer side of the middle shaft is connected with the upper end of the connector in a welding mode, the bottom of the connector is connected with the inner side of the fixing rings in a welding mode, the number of the connectors is four, and the connectors are distributed in an annular mode by taking the middle shaft as the center.

As a further improvement of the invention, the connector comprises a connecting block, a pull rope and a torsion shaft, wherein the middle part of the connecting block is connected with the upper end shaft of the pull rope, the lower end of the pull rope is movably clamped with the interior of the torsion shaft, the interior of the torsion shaft is spiral, and the pull rope is also spiral.

Advantageous effects

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

1. the water circulation device rotates, cold water can be pumped to the heat absorption pipe, and after the heat absorption pipe absorbs heat of the motor completely, the cold water flows to the external water tank through the return pipe, so that the heat dissipation efficiency of the motor is improved.

2. The inertia device follows the rotation at the rotatory in-process of motor, and the pulling force of stay cord keeps rotatory behind the motor stall, is favorable to absorbing the heat after the motor stall, has improved the life-span of motor sealing washer, has reduced the inside risk that receives the corruption of motor.

Drawings

Fig. 1 is a schematic structural diagram of a new energy automobile motor with a high-efficiency heat dissipation function.

Fig. 2 is a schematic side view of a half-section structure of an efficient heat dissipation motor according to the present invention.

FIG. 3 is a schematic side view of a water circulation device according to the present invention.

Fig. 4 is a schematic side view of a half-section structure of a motor according to the present invention.

Fig. 5 is a side view of a half-section structure of a motor body according to the present invention.

Fig. 6 is a side view and a half-section structure of a water impeller according to the present invention.

Fig. 7 is a side view and a half-section of an inertial device according to the present invention.

FIG. 8 is a side view of a buffer according to the present invention.

Fig. 9 is a side view of a half-section of a connector according to the present invention.

In the figure: the device comprises a fixed seat-1, a controller-2, a high-efficiency heat dissipation motor-3, a shell-31, a motor-32, a water circulation device-33, a water inlet pipe-331, a water impeller-332, a heat absorption pipe-333, a return pipe-334, a fixed cover-335, a heat dissipation fin-321, a contact hole-322, a motor body-323, a rotor-23 a, a stator-23 b, a heat conduction block-23 c, an outer cover-23 d, an inertia device-32 a, a blade-32 b, a fixed plate-32 c, a buffer-a 1, a balancing weight-a 2, a spring-a 3, a central shaft-a 11, a connector-a 12, a fixed ring-a 13, a connecting block-r 1, a pull rope-r 2 and a torsion shaft-r 3.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides a new energy automobile motor with a high-efficiency heat dissipation function, which structurally comprises a fixed seat 1, a controller 2 and a high-efficiency heat dissipation motor 3, wherein the upper side of the fixed seat 1 is connected with the lower side of the high-efficiency heat dissipation motor 3 in a welding mode, the lower side of the controller 2 is fixedly connected with the upper side of the high-efficiency heat dissipation motor 3 in an embedding mode, the high-efficiency heat dissipation motor 3 comprises a shell 31, a motor 32 and a water circulation device 33, the inner side of the shell 31 is in clearance fit with the outer side of the motor 32, and the outer side of the motor 32 is fixedly connected with the outer end of the water circulation device 33 in an embedding mode.

Wherein, water circle device 33 includes oral siphon 331, water impeller 332, heat absorption pipe 333, back flow pipe 334, fixed cover 335, oral siphon 331 upper end and water impeller 332 middle part clearance fit, heat absorption pipe 333 front end is connected with fixed cover 335 outside embedded solid, back flow pipe 334 upper end is connected with fixed cover 335 left end embedded solid, heat absorption pipe 333 quantity is six to use water impeller to be the annular distribution as the center, make heat absorption pipe 333 can absorb the heat of the outside a week of motor 32, be favorable to improving the area of cooling.

The motor 2 comprises a heat radiating fin 321, contact holes 322 and a motor main body 323, wherein the inside of the heat radiating fin 321 is fixedly connected with the outside of the contact holes 322, the outside of the motor main body 323 is connected with the bottom of the heat radiating fin 321 in a welding mode, the width of each contact hole 322 is the same as that of each heat absorbing pipe 333, and the number of the contact holes 322 is six, so that the heat absorbing pipes 333 can absorb the heat of the heat radiating fin 321 through the contact holes 322, and the diffusion of the temperature of the heat radiating fin is accelerated.

The motor body 323 comprises a rotor 23a, a stator 23b, a heat conducting block 23c and an outer cover 23d, wherein the outer side of the rotor 23a is in clearance fit with the outer side of the stator 23b, the outer side of the stator 23b is adhered to the inner side of the outer cover 23d, the outer side of the heat conducting block 23c is welded to the inner side of the outer cover 23d, the number of the heat conducting blocks 23c is ten, the heat conducting blocks 23c are annularly distributed by taking the rotor 23a as the center, and the shape of the heat conducting block 23c is trapezoidal, and the heat conducting block 23c is distributed in a shape with a wide bottom and a narrow upper part, so that heat generated by friction between the rotor 23a and the outer cover 23d can be collected at the position of the contact hole 322, and the heat flow is favorably concentrated and taken away by the heat absorbing pipe 333.

The specific use mode and function of the embodiment are as follows:

in the invention, after the high-efficiency heat-dissipation motor 3 is fixed by the fixing seat 1, the high-efficiency heat-dissipation motor 3 is started by the controller 2, so that the motor 32 starts to work and simultaneously drives the water circulation device 33 fixed at the front end of the shell 31 to synchronously rotate, cold water in the water inlet pipe 331 is sucked by suction force generated by rotation of the water impeller 332 fixed by the fixing cover 335 during rotation, then the cold water is pumped to the heat absorption pipe 333, after the heat of the motor 32 is completely absorbed by the heat absorption pipe 333 and flows to the external water tank through the return pipe 334, in the rotation process of the motor 32, the heat generated by the motor 32 is firstly diffused through the heat radiating fins 321, then the heat generated by rotation of the rotor 23a in the motor main body 323 is eliminated through the heat absorption pipe 333 connected with the contact hole 322, and meanwhile, the heat is guided to the outer side of the outer cover 23d by the heat conduction block 23c beside the stator 23b, thereby being beneficial to improving the heat-dissipation efficiency of the motor 32.

Example 2:

as shown in figures 6 to 9:

the water impeller 332 comprises an inertia device 32a, blades 32b and a fixing plate 32c, the outer side of the inertia device 32a is in clearance fit with the inner side of the fixing plate 32c, the bottom of each blade 32b is welded and connected with the outer side of the fixing plate 32c, and the blades 32b are installed in an inclined mode, so that water in the water inlet pipe 331 can be pumped out when the water impeller 332 rotates, and the decrease of the internal temperature is accelerated.

Wherein, inertial device 32a includes buffer a1, balancing weight a2, spring a3, buffer a1 outside and balancing weight a2 outside activity block, spring a3 one end and the inboard welded connection of balancing weight a2 to the other end and buffer a1 outer end welded connection, balancing weight a2 quantity is two to be the bilateral symmetry distribution with buffer a1 as the center, balancing weight a2 is inside to be solid, makes motor 32 can drive balancing weight a2 and rotate at rotatory in-process, is favorable to carrying out the energy storage to inertial device 32 a.

The buffer a1 comprises a center shaft a11, connectors a12 and fixing rings a13, the outer side of the center shaft a11 is connected with the upper ends of the connectors a12 in a welding mode, the bottoms of the connectors a12 are connected with the inner sides of the fixing rings a13 in a welding mode, the number of the connectors a12 is four, and the connectors a12 are distributed annularly by taking the center shaft a11 as the center, so that the balancing weight a2 can pull the pull rope r2 in the rotating process of the motor 32, and the residual power after the motor 32 stops rotating can be increased.

Wherein, connector a12 includes connecting block r1, stay cord r2, twist axis r3, connecting block r1 middle part and stay cord r2 upper end hub connection, stay cord r2 lower extreme and the inside activity block of twist axis r3, the inside shape of twist axis r3 is the heliciform, stay cord r2 shape also is the heliciform for stay cord r2 can twine many rings in inside, is favorable to increasing stay cord r 2's extension length.

The specific use mode and function of the embodiment are as follows:

according to the invention, the inertia device 32a rotates with the following rotation in the rotation process of the motor 32, the blade 32b is driven to rotate while rotating, meanwhile, the buffer a1 on the inner side of the fixing plate 32c is pulled by the spring a3 to drive the counterweight block a2 to rotate, meanwhile, the spring a3 is compressed by inertia, after the motor 32 stops rotating, the fixing ring a13 on the outer side of the center shaft a11 connected through the connector a12 is pulled by the pull rope r2 to keep rotating, in the contraction process of the pull rope r2, the distance between the connecting block r1 and the torsion shaft r3 is shortened, so that the pull rope r2 enters the torsion shaft r3 to be wound and placed, through the energy storage of the pull rope r2 and the spring a2, the counterweight block a2 can still rotate after the motor 32 stops rotating, the fixing plate 32c is driven to rotate, the motor 32 can still keep the water circulation device 3 to run for a short time after stopping rotating, the heat after the motor 32 stops rotating is favorably absorbed, the service life of a sealing ring of the motor is prolonged, and the risk of corrosion in the motor is reduced.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims

1. The utility model provides a new energy automobile motor that has high-efficient heat dissipation function, its structure includes fixing base (1), controller (2), high-efficient heat dissipation motor (3), fixing base (1) upside and high-efficient heat dissipation motor (3) downside welded connection, controller (2) downside is connected its characterized in that with high-efficient heat dissipation motor (3) upside is embedded admittedly:

the efficient heat dissipation motor (3) comprises a shell (31), a motor (32) and a water circulation device (33), wherein the inner side of the shell (31) is in clearance fit with the outer side of the motor (32), and the outer side of the motor (32) is fixedly connected with the outer end of the water circulation device (33) in an embedded mode;

the water circulation device (33) comprises a water inlet pipe (331), a water impeller (332), a heat absorption pipe (333), a backflow pipe (334) and a fixing cover (335), wherein the upper end of the water inlet pipe (331) is in clearance fit with the middle of the water impeller (332), the front end of the heat absorption pipe (333) is fixedly connected with the outer side of the fixing cover (335), and the upper end of the backflow pipe (334) is fixedly connected with the left end of the fixing cover (335);

the motor (32) comprises a heat radiating fin (321), a contact hole (322) and a motor main body (323), wherein the inside of the heat radiating fin (321) is fixedly connected with the outer side of the contact hole (322), and the outer side of the motor main body (323) is connected with the bottom of the heat radiating fin (321) in a welding mode;

the motor main body (323) comprises a rotor (23 a), a stator (23 b), a heat conduction block (23 c) and an outer cover (23 d), wherein the outer side of the rotor (23 a) is in clearance fit with the outer side of the stator (23 b), the outer side of the stator (23 b) is bonded with the inner side of the outer cover (23 d), and the outer side of the heat conduction block (23 c) is connected with the inner side of the outer cover (23 d) in a welding mode;

the water impeller (332) comprises an inertia device (32 a), blades (32 b) and a fixing plate (32 c), the outer side of the inertia device (32 a) is in clearance fit with the inner side of the fixing plate (32 c), and the bottoms of the blades (32 b) are welded and connected with the outer side of the fixing plate (32 c);

the inertia device (32 a) comprises a buffer (a 1), a balancing weight (a 2) and a spring (a 3), the outer side of the buffer (a 1) is movably clamped with the outer side of the balancing weight (a 2), one end of the spring (a 3) is connected with the inner side of the balancing weight (a 2) in a welding mode, and the other end of the spring is connected with the outer end of the buffer (a 1) in a welding mode;

the buffer (a 1) comprises a middle shaft (a 11), a connector (a 12) and a fixing ring (a 13), wherein the outer side of the middle shaft (a 11) is connected with the upper end of the connector (a 12) in a welding mode, and the bottom of the connector (a 12) is connected with the inner side of the fixing ring (a 13) in a welding mode;

the connector (a 12) comprises a connecting block (r 1), a pull rope (r 2) and a torsion shaft (r 3), the middle part of the connecting block (r 1) is connected with the upper end shaft of the pull rope (r 2), and the lower end of the pull rope (r 2) is movably clamped with the inside of the torsion shaft (r 3);

after the high-efficiency heat dissipation motor (3) is fixed through the fixing seat (1), the high-efficiency heat dissipation motor (3) is started through the controller (2), so that the motor (32) starts to work and simultaneously drives the water circulation device (33) fixed at the front end of the shell (31) to synchronously rotate, cold water of the water inlet pipe (331) is sucked by suction force generated by rotation of the water impeller (332) fixed by the fixing cover (335) during rotation, then the cold water is pumped to the heat absorption pipe (333), after the heat of the motor (32) is completely absorbed by the heat absorption pipe (333), the cold water flows to an externally-connected water tank through the return pipe (334), during rotation of the motor (32), heat generated by the motor (32) is firstly diffused through the radiating fins (321), then heat generated by rotation of the rotor (23 a) inside the motor main body (323) is eliminated through the heat absorption pipe (333) connected with the contact hole (322), and meanwhile, the heat is guided to the outer side of the outer cover (23 d) by the heat conduction block (23 c) beside the stator (23 b), and heat dissipation efficiency of the motor (32) is improved;

the inertial device (32 a) rotates along with the rotation of the motor (32) in the rotation process, the blade (32 b) is driven to rotate while rotating, meanwhile, the buffer (a 1) on the inner side of the fixing plate (32 c) is pulled by the spring (a 3), the balancing weight (a 2) is driven to rotate, the spring (a 3) is compressed by inertia, the fixing ring (a 13) connected to the outer side of the middle shaft (a 11) through the connector (a 12) is kept to rotate by the pulling force of the pulling rope (r 2) after the motor (32) stops rotating, the distance between the connecting block (r 1) and the torsion shaft (r 3) is shortened in the contraction process of the pulling rope (r 2), the pulling rope (r 2) enters the torsion shaft (r 3) to be wound and placed, the energy storage of the pulling rope (r 2) and the spring (a 3) enables the balancing weight (a 2) to still rotate after the motor (32) stops rotating, the fixing plate (32 c) is driven to rotate, the motor (32) can still keep the water circulation device (33) to operate temporarily after the rotation stop, and the heat absorption life of the motor (32) is prolonged.