CN111262392B

CN111262392B - Water-cooled motor convenient to assembly

Info

Publication number: CN111262392B
Application number: CN202010178587.0A
Authority: CN
Inventors: 陈小标; 陈玉飞; 谢百锋; 陈杰
Original assignee: Shaoxing Jinying Machinery Manufacturing Co ltd
Current assignee: Shaoxing Jinying Machinery Manufacturing Co ltd
Priority date: 2019-04-03
Filing date: 2019-04-03
Publication date: 2021-12-31
Anticipated expiration: 2039-04-03
Also published as: CN111262392A; CN110048549A; CN110048549B

Abstract

The invention discloses a water-cooled motor convenient to assemble, which comprises a shell with a water-cooled cavity, wherein a refrigerant is filled in the water-cooled cavity; a plurality of connection parts provided on the case; the stator is arranged in the shell; the rotor is arranged in the shell; the circulating device is detachably connected with one of the connecting parts and is used for pumping out the refrigerant in the water cooling cavity to reduce the temperature of the refrigerant; and the air cooling component is arranged on the circulating device and is used for air cooling the refrigerant on the circulating device. According to the invention, the plurality of connecting parts are arranged, and when the circulating device is installed, one connecting part can be selected as required for installation, so that the circulating device can have three positions, and the mode can effectively improve the installation efficiency of the motor, so that the motor can be applied to more equipment, and the number of the equipment is large.

Description

Water-cooled motor convenient to assembly

Technical Field

The invention belongs to the technical field of motors, and particularly relates to a water-cooled motor convenient to assemble.

Background

At present, because the motor can generate certain heat when energy conversion is carried out, the heat generated by the motor needs to be dissipated out in time in the operation of the motor, otherwise, the performance index of the motor is reduced due to overhigh temperature of the motor, and even the internal circuit of the motor is damaged.

The cooling modes of the motor in the current market are mainly air cooling and water cooling, wherein the water-cooled motor which is convenient to assemble is characterized in that a cavity is arranged on a shell, then the heat exchange is carried out through the water introduced into the cavity and the heat inside the water body motor, but when the existing water-cooled motor which is convenient to assemble is used, the water inlet and outlet structure is arranged on the shell of the motor, and then the water inlet and outlet structure is connected with an external water tank through a hose, then the pump body is used for sending the water pump in the water tank back to the cavity, but the water tank has larger volume and larger occupied space, so that the motor is inconvenient to install when the motor is installed, moreover, when the motor is installed, the water inlet and outlet structure on the motor protrudes out of the outer wall of the shell, therefore, when the motor is installed, the water inlet and outlet structure can hinder the motor from being installed in the equipment.

Disclosure of Invention

The invention provides the water-cooled motor which is good in cooling effect and convenient to assemble in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a water-cooled motor convenient for assembly comprises

The refrigerator comprises a shell with a water-cooling cavity, wherein a refrigerant is filled in the water-cooling cavity;

a plurality of connection parts provided on the case;

the stator is arranged in the shell;

the rotor is arranged in the shell;

the circulating device is detachably connected with one of the connecting parts and is used for pumping out the refrigerant in the water cooling cavity to reduce the temperature of the refrigerant;

and the air cooling component is arranged on the circulating device and is used for air cooling the refrigerant on the circulating device.

According to the invention, the plurality of connecting parts are arranged, and when the circulating device is installed, one of the connecting parts can be selected as required for installation, so that when the motor is assembled on the equipment, the position for installing the circulating device can be changed according to the position reserved by the equipment, therefore, the circulating device can have three positions, one of the three positions is positioned at the upper part of the machine shell, the other position is positioned at the left side of the machine shell, and the other position is positioned at the right side of the machine shell, so that the installation efficiency of the motor can be effectively improved, the equipment which can be adapted by the motor is wider, and more equipment can be adapted by the motor; after the circulating device is directly installed on the motor shell, the motor is more convenient to assemble, the problem that a water cooling piece needs to be independently arranged outside the device and then water is guided through a rubber hose when a traditional motor is installed is solved, compared with the existing device, the whole motor is reduced in size, when the circulating device is assembled in the device, a pipeline does not need to be specially arranged outside the device, the motor installation efficiency is improved, meanwhile, the pipeline is not arranged, and the damage condition in the pipeline installation process can be avoided; and the temperature of liquid on the circulating device can be cooled by arranging the air cooling component, and the heat on the circulating device can be quickly cooled by the air cooling component, so that the refrigerant can be recovered to the conventional temperature and then cooled again after entering the water cooling cavity.

Preferably, the circulating device comprises a bracket detachably connected with the connecting part, a first pipeline formed on the bracket, a cooling box arranged on the bracket, a second pipeline detachably connected with the first pipeline, and a pump body used for pumping the refrigerant in the water cooling cavity into the cooling box, wherein the pump body is arranged on the bracket; the second pipeline is arranged on the bracket, so that the structure of the bracket is simplified, the material consumption is reduced, the second pipeline can be produced when the bracket is manufactured, the pipeline does not need to be additionally arranged, the material consumption is saved, and the first pipeline is avoided to be installed; on the other hand because the support with the casing links to each other, in order to ensure the intensity of support, the support adopts the metal material to make, therefore first pipeline setting is on the support, and the refrigerant can dispel the heat through the support at once when flowing, and the support is all empty around moreover, and its radiating effect is good.

Preferably, the cooling box comprises a box body, a second pipeline spirally arranged in the box body, heat exchange liquid filled in the box body, and a copper heat-conducting member, wherein one part of the copper heat-conducting member is in contact with the heat exchange liquid, and the other part of the copper heat-conducting member is arranged outside the box body; the support comprises an assembly head and a fixing frame, wherein a convex edge is arranged on the assembly head, a screw hole is formed in the convex edge, and a screw penetrates through the screw hole and then is connected with the connecting part through the screw hole; the fixing frame is provided with a clamping strip, the side wall of the box body is provided with a clamping groove, and the clamping strip is clamped into the clamping groove; through setting up the second pipeline and linking to each other with first pipeline, its realizable refrigerant through first pipeline outflow enters into in the middle of the second pipeline, cold liquid can be replaced the heat in the middle of the refrigerant in the box body of this in-process, thereby the refrigerant can cool down, make the refrigerant can realize quick cooling, thereby the refrigerant is in entering into the casing, the realization is cooling to the temperature in the middle of the casing, the effectual of its cooling, and set up the copper heat-conducting piece and can discharge the heat in the middle of the heat transfer liquid, realize heat transfer liquid ability rapid cooling, therefore the heat can be arranged to the environment in the middle of fast, and copper metal's heat conductivity is high, it compares in current metal, when carrying out the heat conduction, can realize quick cooling the heat.

Preferably, the copper heat-conducting piece is provided with a heat dissipation part matched with the air cooling part, and the heat dissipation part is bent; can improve the radiating efficiency of copper heat-conducting piece through setting up the radiating part, the heat on the copper heat-conducting piece can be better outwards gived off, and this setting can be convenient for the radiating efficiency of forced air cooling part.

Preferably, the connecting part is a groove formed on the casing, and a through hole for the first pipeline to be inserted into the cold water cavity is formed in the groove.

Preferably, the air cooling component comprises a frame body, a motor arranged on the frame body and a plurality of fan blades matched with the motor, and the frame is detachably connected with the bracket; can dismantle with the support through the framework and be connected, it can be convenient for dismantle the forced air cooling part get off, realizes changing the forced air cooling part.

Preferably, a positioning concave part with a toothed bottom is arranged in the through groove, a positioning convex part matched with the positioning concave part is arranged on the support, and the end part of the positioning convex part is toothed; through the arrangement of the toothed positioning concave part, when the support is connected with the shell and the positioning convex part is inserted into the positioning concave part, mutual extrusion between the positioning convex part and the positioning concave part can be realized, because the bottom of the positioning concave part is arranged in a toothed shape, and the end part of the positioning convex part is also in a toothed shape, when the support is connected with the connecting part, the positioning convex part and the positioning concave part can be extruded mutually, and the support has high sealing performance, so that leakage of refrigerant is avoided.

Preferably, an annular sealing sheet is arranged between the positioning concave part and the positioning convex part; the sealing sheet can ensure the sealing performance between the support and the connecting part when the positioning convex part and the positioning concave part are sealed.

Preferably, a connecting concave part is arranged on the inner wall of the connecting part, and a connecting convex part matched with the connecting concave part is arranged on the bracket; the inner wall of the connecting concave part can support the side wall of the connecting convex part when the circulating device is arranged on the right side surface, so that the stability in the connecting process can be kept; the first clamping portion and the second clamping portion are arranged to limit the assembling head, and the assembling head is kept not to be separated under the vibration condition.

Preferably, a limiting concave part is arranged on the inner wall of the connecting concave part, and a limiting convex part which can be inserted into the limiting concave part is arranged on the side wall of the connecting convex part; the inner wall of the connecting concave part is provided with the limiting concave part, the side wall of the connecting convex part is provided with the limiting convex part, the side wall of the limiting convex part and the inner wall of the limiting concave part are limited mutually, and in the mode, when the circulating device is placed on the side, the support can be better stabilized, so that when the motor works, the support cannot be loosened due to vibration of the support.

In summary, the plurality of connecting parts are arranged, and when the circulating device is installed, one of the connecting parts can be selected as required to be installed, so that the circulating device can have three positions, and the mode can effectively improve the installation efficiency of the motor, so that the motor can be applied to more equipment, and the number of the equipment adapted to the motor is large.

Drawings

Fig. 1 is a first structural schematic diagram of the present invention.

Fig. 2 is a second structural schematic diagram of the present invention.

Fig. 3 is a cross-sectional view taken along line D-D of the present invention.

Fig. 4 is an enlarged view of a in fig. 3.

Fig. 5 is a partial exploded view of the present invention.

Fig. 6 is a schematic structural diagram of the housing of the present invention.

Fig. 7 is an enlarged view of B in fig. 6.

Fig. 8 is a first structural diagram of the assembly head of the present invention.

Fig. 9 is a second structural diagram of the assembly head of the present invention.

FIG. 10 is a partial structural schematic of the present invention.

Fig. 11 is an exploded view of fig. 10.

Fig. 12 is a cross-sectional view of a cooling cartridge of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1 to 12, a water-cooled motor convenient to assemble includes a casing 1, a connecting portion 11, a stator 12, a rotor 13, a circulating device 2, and an air-cooled component 3, wherein the casing 1 is an aluminum casing, a water-cooled cavity 10 is provided on the casing 1, a refrigerant is filled in the water-cooled cavity 10, and the refrigerant is water or other existing refrigerants; the stator 12 and the rotor 13 are both arranged in the casing 1, wherein the stator 12 and the rotor 13 are both arranged in the casing 1, and are the same as the stator and the rotor of the existing motor, so that the existing motor is the prior art; the connecting parts 11 are formed on the casing 1, the circulating device 2 is detachably connected with one of the connecting parts 11, and the circulating device 2 is used for pumping out the refrigerant in the water-cooling cavity 10 to reduce the temperature of the refrigerant.

Specifically, the circulating device 2 includes a bracket 21, a first pipeline 22, a cooling box 23 and a pump body 24, wherein the bracket 21 is a metal frame, the bracket 21 includes an assembling head 251 and a fixing frame 252, the assembling head 251 is a square metal part, a convex edge 253 is arranged on the assembling head 251, a screw hole is arranged on the convex edge 253, and a screw passes through the screw hole and then is connected with the connecting part 11 through the screw hole; the fixing frame 252 is a square frame, the fixing frame 252 is used for fixing the cooling box 23, a clamping strip 254 is arranged on the fixing frame 252, and the clamping strip 254 is used for clamping the cooling box 23; meanwhile, a plurality of radiating blades 101 are arranged on the casing 1, and the lower part of the fixing frame 252 is clamped between the two radiating blades 101, so that the fixing frame 252 is supported by the radiating blades 101; the first pipe 22 is a metal pipe formed on the fixing frame 252, and the first pipe 22 is disposed along a lower portion of the fixing frame 252.

Further, the cooling box 23 includes a box body 231, a second pipe 232, a copper heat conducting member 233 and a heat exchange liquid, the box body 231 may be made of plastic, or made of metal, a clamping groove 230 is formed in a side wall of the box body 231, and the clamping strip 254 is clamped into the clamping groove 230, so that the box body 231 is fixed; the second pipeline 232 is a spirally arranged pipeline, the second pipeline 232 is a pipeline made of copper, one end of the second pipeline 232 is connected with the pump body 24, a branch pipe is connected to the pump body 24, and the branch pipe is connected with another first pipeline; the heat exchange liquid is filled in the box body 231, the heat exchange liquid is a refrigerating liquid existing in the market, the copper heat conducting member 233 is a metal copper sheet, part of the copper heat conducting member 233 is inserted into the box body 231 and is in contact with the heat exchange liquid, and the other part of the copper heat conducting member 233 is arranged outside the box body 231, so that heat in the refrigerant is discharged to the outside of the box body 231 through the copper heat conducting member 233 after absorbing heat in the second pipe 232; the portion of the copper heat conducting member 233 extending out of the case 231 is provided with a heat dissipating portion 234, and the heat dissipating portion 234 is a bent copper sheet.

Further, the air cooling component 3 is configured to extract heat dissipated from the heat dissipating portion 234, so as to accelerate the rate of heat dissipation of the copper heat conducting member 233, and the air cooling component 3 includes a frame 31, a motor 32, and fan blades 33, where the frame 31 is detachably connected to the upper end of the fixing frame 252, and the motor 32 and the fan blades 33 are both disposed on the frame 31, so that after the motor 32 and the fan blades 33 are powered on, the heat dissipated from the heat dissipating portion 234 can be rapidly dissipated.

Further, the connection parts 11 are grooves formed in the casing 1, the number of the connection parts 11 is three, the connection parts 11 are formed in three positions, namely, the upper part, the left side and the right side of the casing 1, the connection parts 11 are provided with joint pipes 100 inserted into the water cooling cavity 10 through holes 110, and one ends of the joint pipes 100 are detachably connected with the first pipeline 22 through a connection structure; meanwhile, the joint pipe 100 is further provided with a joint pipe, the joint pipe is detachably connected with one end of the second pipeline 232, the specific connection mode can be determined according to needs, and the connection mode of the connection structure in the embodiment can also be adopted; a positioning concave part 111 is arranged on the connecting part 11, the bottom of the positioning concave part 111 is arranged in a tooth shape, meanwhile, a positioning convex part 211 is arranged at the lower end of the assembling head 251, the thickness of the positioning convex part 211 is a wider part, the lower end of the positioning convex part 211 is arranged in a tooth shape, and the positioning convex part 211 is inserted into the positioning concave part 111; the positioning convex part 211 and the positioning concave part 111 are provided with a sealing sheet 201 arranged in a ring shape, and the sealing sheet 201 is a rubber sheet, so when the positioning convex part 211 is inserted into the positioning concave part 111, the sealing sheet 201 can seal the positioning concave part 111 and the positioning convex part 211 to form a seal.

Specifically, a connecting concave portion 115 is formed on an inner wall of the connecting portion 11, the connecting concave portion 115 is a concave portion formed on a side wall of the connecting portion 11, a connecting convex portion 215 is formed on a side wall of the fitting head 251, and after the fitting head 251 is inserted into the connecting portion 11, the connecting convex portion 215 is inserted into the connecting concave portion 115; a first locking portion 116 is arranged on the inner wall of the connecting concave portion 115, the first locking portion 116 is a protruding strip, a second locking portion 216 is arranged on the side wall of the connecting convex portion 215, and the second locking portion 216 is a groove formed on the side wall of the assembling head 251; after the connecting convex part 215 is inserted into the connecting concave part 115, the first and

second clamping parts

116 and 216 are mutually limited; the side wall of the connecting concave part 115 is provided with a limiting concave part 117, the side wall of the connecting convex part 215 is provided with a limiting convex part 217, when the assembling head 251 is inserted into the connecting part 11, the limiting convex part 217 can be inserted into the limiting concave part 117, so that the assembling head 251 and the connecting part 11 can be installed; therefore, one connecting part 11 is sealed through the arrangement mode, and the two extra connecting parts are sealed through the screw connection sealing plates.

Specifically, the connecting structure includes a convex ring part 51 arranged on the joint pipe 100 and a locking ring 53 for locking the joint pipe 100 and the first pipeline 22, the convex ring part 51 is a circle of convex rings, an annular groove 511 is arranged on the convex ring part 51, an O-shaped sealing ring 512 is arranged in the annular groove 511, wherein the annular groove 511 is a groove with a V-shaped section, a stepped part 235 is arranged on the first pipeline 22, and the stepped part 235 is in contact with the sealing ring 512; the end of the joint pipe 100 is further provided with a sealing ring 109, the sealing ring 109 contacts with a boss 220 on the inner wall of the first pipeline 22, when the first pipeline 22 is sleeved on the joint pipe 100, the sealing ring 109 contacts with the boss on the inner wall of the first pipeline 22, so that the joint pipe 100 and the first pipeline 22 are sealed, the locking ring 53 is a metal ring, the locking ring 53 is sleeved on the first pipeline 22, and the locking ring 53 is locked by a screw, so that the joint pipe 100 is detachably connected with the first pipeline 22.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. The utility model provides a water cooled machine convenient to assembly which characterized in that: comprises that

The refrigerator comprises a shell (1) with a water-cooling cavity (10), wherein a refrigerant is filled in the water-cooling cavity (10);

a plurality of connecting parts (11) provided on the housing (1);

a stator (12) arranged in the casing (1);

a rotor (13) arranged in the casing (1);

the circulating device (2) is detachably connected with one of the connecting parts (11), and the circulating device (2) is used for pumping out the refrigerant in the water-cooling cavity (10) to reduce the temperature of the refrigerant;

the air cooling component (3) is arranged on the circulating device (2) and is used for air cooling the refrigerant on the circulating device;

the circulating device (2) comprises a bracket (21) detachably connected with the connecting part (11), a first pipeline (22) formed on the bracket (21), a cooling box (23) arranged on the bracket (21) and a pump body (24) used for pumping refrigerant in the water cooling cavity (10) into the cooling box (23), wherein the pump body (24) is arranged on the bracket (21);

the cooling box (23) comprises a box body (231), a second pipeline (232) spirally arranged in the box body (231), heat exchange liquid filled in the box body (231), and a copper heat conduction piece (233) with one part contacting with the heat exchange liquid and the other part arranged outside the box body (231), wherein the second pipeline (232) is detachably connected with the first pipeline (22); the support (21) comprises an assembling head (251) and a fixing frame (252), wherein a convex edge (253) is arranged on the assembling head (251), a screw hole is formed in the convex edge (253), and a screw passes through the screw hole and then is connected with the connecting part (11) through the screw hole; a clamping strip (254) is arranged on the fixing frame (252), a clamping groove (230) is formed in the side wall of the box body (231), and the clamping strip (254) is clamped into the clamping groove (230);

the copper heat-conducting piece (233) is provided with a heat dissipation part (234) matched with the air cooling part (3), and the heat dissipation part (234) is bent;

the air cooling component (3) comprises a frame body (31), a motor (32) arranged on the frame body (31) and a plurality of fan blades (33) matched with the motor (32), and the frame body (31) is detachably connected with the support (21);

the connecting part (11) is a groove formed on the casing (1), and a through hole (110) communicated with the water cooling cavity (10) is formed in the groove.

2. The water-cooled motor convenient to assemble of claim 1, wherein: a positioning concave part (111) with a toothed bottom is arranged in the through hole (110), a positioning convex part (211) matched with the positioning concave part (111) is arranged on the support (21), and the end part of the positioning convex part (211) is toothed.

3. The water-cooled motor convenient to assemble of claim 2, wherein: an annular sealing sheet (201) is arranged between the positioning concave part (111) and the positioning convex part (211).

4. The water-cooled motor convenient to assemble of claim 3, wherein: a connecting concave part (115) is arranged on the inner wall of the connecting part (11), and a connecting convex part (215) matched with the connecting concave part (115) is arranged on the bracket (21); the inner wall of the connecting concave part (115) is provided with a first clamping part (116), and the connecting convex part (215) is provided with a second clamping part (216) matched with the first clamping part (116).

5. The water-cooled motor convenient to assemble of claim 4, wherein: the inner wall of the connecting concave part (115) is provided with a limiting concave part (117), and the side wall of the connecting convex part (215) is provided with a limiting convex part (217) which can be inserted into the limiting concave part (117).