CN215897479U - New forms of energy motor that operation is stable - Google Patents

Abstract

The utility model discloses a new energy motor with stable operation, which comprises a fixed plate, a damping component, a positioning groove, a water cooling component, a motor body, a deep groove ball bearing, a transmission shaft and a bearing bracket, wherein the damping component is arranged at the top of the fixed plate, the motor body is arranged at the top of the damping component, the water cooling component is arranged at the bottom of the fixed plate, the bearing bracket is arranged at one side of the top end surface of the fixed plate through welding, and the deep groove ball bearing is arranged at the top of the bearing bracket, so that the new energy motor with stable operation has the advantages of simple structure, safety and firmness, can reduce the influence of the vibration of the transmission shaft on the motor body when in use, absorbs the stress transmitted from the transmission shaft to the motor body, enables the motor to stably operate for a long time, greatly improves the operation stability of the new energy motor, and can well cool and radiate the new energy motor, the influence of high temperature on the stable operation of the motor is reduced, and the potential safety hazard of high temperature is eliminated.

Description

New forms of energy motor that operation is stable

Technical Field

The utility model relates to the technical field of motors, in particular to a new energy motor which runs stably.

Background

The motor is the main power supply that new energy automobile went, the motor relies on the rotation of pivot, produce driving torque, supply new energy automobile to go forward, current new energy motor, the transmission shaft produces the vibration at rotatory in-process, the epaxial stress reverse transmission of transmission gets back to motor body, because the position of motor passes through the bolt and fixes completely, long-time stress can lead to the fact the influence to the motor, make the life-span of motor shorten easily, and be unfavorable for the normal operating of motor, and simultaneously, current new energy motor, lack good heat dissipation function, the long-time operation of motor produces high temperature easily, the operation to the motor produces the influence, and cause certain potential safety hazard, therefore, it is very necessary to design a new energy motor that operates stably.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problem of providing the new energy motor which runs stably, has simple structure, is safe and firm, can reduce the influence of the vibration of a transmission shaft on the motor body when in use, absorbs the stress transmitted to the motor body, greatly improves the running stability of the new energy motor, and simultaneously can well cool and radiate the new energy motor and reduce the influence of high temperature on the stable running of the motor.

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

a new energy motor with stable operation comprises a fixing plate, a damping assembly, a positioning groove, a water cooling assembly, a motor body, a deep groove ball bearing, a transmission shaft and a bearing support, wherein the damping assembly is arranged at the top of the fixing plate, the motor body is arranged at the top of the damping assembly, the water cooling assembly is arranged at the bottom of the fixing plate, the bearing support is installed on one side of the top end surface of the fixing plate through welding, the deep groove ball bearing is arranged at the top of the bearing support, the transmission shaft is installed on one side end surface of the motor body through a coupler, and the other end of the transmission shaft penetrates through the inner wall of the deep groove ball bearing to be communicated with the outside;

the damping component comprises a first fastening bolt, a first fastening plate, a second fastening bolt, a damping shell, a third fastening bolt, a second telescopic column, a first cylindrical spring, a first telescopic column, a third fastening plate, a damping splint, a second cylindrical spring, a second sliding block and a first sliding block, wherein the top end surface of the fixing plate is provided with four damping shells which are symmetrical in pairs, the damping splint is arranged in the damping shell, the inner wall of the damping splint is connected with the outer wall of the motor body in an attaching manner, the two side end surfaces of the damping splint are respectively provided with a first telescopic hole, the inner wall of each first telescopic hole is provided with the first telescopic column in an attaching manner, the other end of the first telescopic column is provided with the first sliding block in a welding manner, the position of the inner wall of the damping shell corresponding to the first sliding block is provided with a first sliding groove, and the two side outer walls of the first sliding block are connected with the two side inner walls of the first sliding groove in an attaching manner, the outer wall middle part of shock attenuation splint has seted up the flexible hole of second, and the inner wall laminating in the flexible hole of second installs the flexible post of second, the other end of the flexible post of second has installed the second sliding block through the welding, the position department that the inner wall of shock attenuation shell corresponds the second sliding block has seted up the second sliding tray, and the both sides outer wall of second sliding block is connected with the both sides inner wall laminating of second sliding tray.

As a further scheme of the utility model: the water-cooling assembly comprises a water storage tank, a water-cooling pipe, a miniature water pump and an installation block, the water storage tank is installed on one side of the end face of the bottom of the fixing plate through a bolt, the water-cooling pipe is inserted into one side of the outer wall of the water storage tank, the inner side of the outer wall of the water-cooling pipe is connected with the outer wall of the motor body in a laminating mode, the miniature water pump is installed on the bottom of the outer wall of one side of the water storage tank through the bolt, and the top of the miniature water pump is connected with one end of the outer wall of the water-cooling pipe through a flange.

As a further scheme of the utility model: a plurality of installation blocks are installed on the top of the outer wall of the motor body through welding, and the outer end face of each installation block is connected with the outer wall of the corresponding water-cooled tube in a fitting mode.

As a further scheme of the utility model: two constant head tanks have been seted up to the top end face bilateral symmetry of fixed plate, are close to there is first mounting plate outer wall bottom of the shock attenuation shell of fixed plate through welding, and the inside of first mounting plate is provided with first fastening bolt, the outer wall and the external intercommunication of constant head tank and first mounting plate are passed to first fastening bolt's one end.

As a further scheme of the utility model: be close to the both sides outer wall top of the shock attenuation shell of fixed plate and the both sides outer wall bottom of keeping away from the shock attenuation shell of fixed plate all install the second mounting plate through the welding, and the inside of second mounting plate is provided with second fastening bolt, adjacent two the second mounting plate passes through second fastening bolt fixed connection, all install four third mounting plates through the welding around the outer wall both ends of motor body, and one side of third mounting plate is provided with third fastening bolt, shock attenuation splint pass through third fastening bolt fixed connection with the third mounting plate.

As a further scheme of the utility model: the inside grafting in first flexible hole has first cylinder spring, and the one end of first cylinder spring is connected with the laminating of the adjacent one end of first flexible post, the outer wall of the flexible post of second has cup jointed second cylinder spring, and the both ends of second cylinder spring are connected with the inner wall of shock attenuation shell, the outer wall laminating of shock attenuation splint respectively.

The utility model has the beneficial effects that: this new forms of energy motor that operates stably, moreover, the steam generator is simple in structure, it is safe and firm, when using, can reduce the influence of the vibrations of transmission shaft to motor body through damper, transmit the stress absorption on the motor with the transmission shaft through damper, make the motor can long-time even running, the operation stationarity of new forms of energy motor has been improved greatly, and simultaneously, can carry out good cooling heat dissipation to new forms of energy motor body through water-cooling component, reduce the influence that the even running of high temperature caused the motor, the potential safety hazard of high temperature has been eliminated.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the shock absorbing assembly of the present invention;

FIG. 3 is a schematic view of a water cooling module according to the present invention;

in the figure: 1. a fixing plate; 2. a shock absorbing assembly; 3. positioning a groove; 4. a water-cooling assembly; 5. a motor body; 6. a deep groove ball bearing; 7. a drive shaft; 8. a bearing support; 21. a first fastening bolt; 22. a first fastening plate; 23. a second fastening plate; 24. a second fastening bolt; 25. a shock-absorbing housing; 26. a third fastening bolt; 27. a second telescopic column; 28. a first cylindrical spring; 29. a first telescopic column; 210. a third fastening plate; 211. a damping splint; 212. a second cylindrical spring; 213. a second slider; 214. a first slider; 41. a water storage tank; 42. a water-cooled tube; 43. a micro water pump; 44. and (7) installing the block.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

As shown in fig. 1-3, a new energy motor with stable operation comprises a fixing plate 1, a damping component 2, a positioning groove 3, a water cooling component 4, a motor body 5, a deep groove ball bearing 6, a transmission shaft 7 and a bearing support 8, wherein the damping component 2 is arranged at the top of the fixing plate 1, the motor body 5 is arranged at the top of the damping component 2, the water cooling component 4 is arranged at the bottom of the fixing plate 1, the bearing support 8 is installed on one side of the top end surface of the fixing plate 1 through welding, the deep groove ball bearing 6 is arranged at the top of the bearing support 8, the transmission shaft 7 is installed on one side end surface of the motor body 5 through a coupler, and the other end of the transmission shaft 7 penetrates through the inner wall of the deep groove ball bearing 6 to be communicated with the outside;

the damping component 2 comprises a first fastening bolt 21, a first fastening plate 22, a second fastening plate 23, a second fastening bolt 24, a damping shell 25, a third fastening bolt 26, a second telescopic column 27, a first cylindrical spring 28, a first telescopic column 29, a third fastening plate 210, a damping clamping plate 211, a second cylindrical spring 212, a second sliding block 213 and a first sliding block 214, four damping shells 25 which are symmetrical in pairs are arranged on the top end surface of the fixing plate 1, the damping clamping plate 211 is arranged inside the damping shell 25, the inner wall of the damping clamping plate 211 is connected with the outer wall of the motor body 5 in an attaching manner, first telescopic holes are respectively arranged on the two side end surfaces of the damping clamping plate 211, the first telescopic column 29 is arranged on the inner wall of the first telescopic hole in an attaching manner, the first sliding block 214 is arranged at the other end of the first telescopic column 29 in a welding manner, a first sliding groove is arranged on the inner wall of the damping shell 25 corresponding to the position of the first sliding block 214, and the outer wall of both sides of the first sliding block 214 is jointed and connected with the inner wall of both sides of the first sliding groove, the middle part of the outer wall of the damping splint 211 is provided with a second telescopic hole, and the inner wall of the second telescopic hole is jointed and installed with a second telescopic column 27, the other end of the second telescopic column 27 is welded and installed with a second sliding block 213, the inner wall of the damping shell 25 is provided with a second sliding groove corresponding to the position of the second sliding block 213, and the outer wall of both sides of the second sliding block 213 is jointed and connected with the inner wall of both sides of the second sliding groove, when the motor body 5 operates, the vibration is reversely transmitted to the motor body 5 through the transmission shaft 7, the damping splint 211 vibrates along with the motor body 5, the first cylindrical spring 28 and the second cylindrical spring 212 are repeatedly compressed and released, the first telescopic column 29 and the second telescopic column 27 repeatedly slide and stretch in the first telescopic hole and the second telescopic hole, the first sliding block 214 is jointed and slides in the first sliding groove, the second sliding block 213 slides in the second sliding groove in a fitting manner, and the vibration of the motor body 5 at each radial angle is absorbed, so that the effect of absorbing the radial vibration of the motor body 5 by the damping shell 25 is achieved, the function of damping the motor body 5 is realized, the running stability of the motor body 5 is improved, and the service life of the motor body 5 is prolonged; two positioning grooves 3 are symmetrically formed in two sides of the top end face of the fixed plate 1, a first fastening plate 22 is installed at the bottom of the outer wall of a shock absorption shell 25 close to the fixed plate 1 through welding, a first fastening bolt 21 is arranged inside the first fastening plate 22, one end of the first fastening bolt 21 penetrates through the positioning grooves 3 and the outer wall of the first fastening plate 22 to be communicated with the outside, and the function of axially moving and adjusting the motor body 5 is achieved through the positioning grooves 3; the top of the outer walls of the two sides of the shock absorption shell 25 close to the fixed plate 1 and the bottom of the outer walls of the two sides of the shock absorption shell 25 far away from the fixed plate 1 are respectively provided with a second fastening plate 23 through welding, a second fastening bolt 24 is arranged inside the second fastening plate 23, the two adjacent second fastening plates 23 are fixedly connected through the second fastening bolt 24, four third fastening plates 210 are arranged around the two ends of the outer wall of the motor body 5 through welding, a third fastening bolt 26 is arranged on one side of each third fastening plate 210, and the shock absorption clamping plates 211 and the third fastening plates 210 are fixedly connected through the third fastening bolts 26, so that a good fixing effect on the motor body 5 is realized, and the stability is improved; a first cylindrical spring 28 is inserted into the first telescopic hole, one end of the first cylindrical spring 28 is connected with one end of the first telescopic column 29 in an attaching mode, a second cylindrical spring 212 is sleeved on the outer wall of the second telescopic column 27, two ends of the second cylindrical spring 212 are connected with the inner wall of the damping shell 25 and the outer wall of the damping clamping plate 211 in an attaching mode respectively, the first cylindrical spring 28 and the second cylindrical spring 212 are compressed and released repeatedly, and the effect of absorbing stress is achieved;

the water cooling component 4 comprises a water storage tank 41, a water cooling pipe 42, a micro water pump 43 and an installation block 44, the water storage tank 41 is installed on one side of the end face of the bottom of the fixing plate 1 through a bolt, the water cooling pipe 42 is inserted into the outer wall of one side of the water storage tank 41, the inner side of the outer wall of the water cooling pipe 42 is connected with the outer wall of the motor body 5 in an attaching mode, the micro water pump 43 is installed on the bottom of the outer wall of one side of the water storage tank 41 through a bolt, the top of the micro water pump 43 is connected with one end of the outer wall of the water cooling pipe 42 through a flange, the micro water pump 43 is started, water flows out of the interior of the water storage tank 41 through the micro water pump 43 and the water cooling pipe 42 and flows in a circulating mode inside the water cooling pipe 42, heat generated by the motor body 5 is absorbed, and the function of cooling is achieved; a plurality of installation block 44 is installed through the welding at the outer wall top of motor body 5, and the outside terminal surface of installation block 44 is connected with the outer wall laminating of water-cooled tube 42, and the installation block 44 of the outer wall of motor body 5 top firmly fixes water-cooled tube 42, has reached the effect that prevents water-cooled tube 42 aversion, has improved the stability of operation.

The working principle of the utility model is as follows: when the motor works, the motor body 5 can be cooled through the water cooling assembly 4, the micro water pump 43 is started, water flows out of the water storage tank 41 through the micro water pump 43 and the water cooling pipe 42, and circularly flows in the water cooling pipe 42 to absorb heat generated by the motor body 5, so that the cooling function is realized, the water cooling pipe 42 is firmly fixed by the mounting block 44 on the outer wall of the top of the motor body 5, the effect of preventing the water cooling pipe 42 from shifting is achieved, the running stability is improved, the motor body 5 can be axially moved and adjusted through the positioning groove 3 during mounting and adjusting, the motor body 5 and the damping clamping plate 211 can be well fixed through the third fastening plate 210 and the third fastening bolt 26, the motor body 5 can be damped through the damping assembly 2, when the motor body 5 runs, the vibration is reversely transmitted to the motor body 5 through the transmission shaft 7, shock attenuation splint 211 shakes along with motor body 5, first cylindrical spring 28 and the repeated compression of second cylindrical spring 212 and release, first flexible post 29 and the flexible post 27 of second slide in first flexible hole and the flexible hole of second repeatedly, first sliding block 214 slides in the laminating of first sliding tray, second sliding block 213 slides in the laminating of second sliding tray, the effect that the radial vibrations that have reached messenger motor body 5 were absorbed by damper housing 25, the function of carrying out the absorbing to motor body 5 has been realized, the stationarity of motor body 5 operation has been improved, motor body 5's life has been increased.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. A new energy motor with stable operation is characterized by comprising a fixing plate (1), a damping component (2), a positioning groove (3), a water cooling component (4), a motor body (5), a deep groove ball bearing (6), a transmission shaft (7) and a bearing support (8), wherein the damping component (2) is arranged at the top of the fixing plate (1), a motor body (5) is arranged at the top of the damping component (2), a water cooling component (4) is arranged at the bottom of the fixed plate (1), a bearing bracket (8) is welded on one side of the top end surface of the fixed plate (1), and the top of the bearing bracket (8) is provided with a deep groove ball bearing (6), one side end surface of the motor body (5) is provided with a transmission shaft (7) through a coupling, the other end of the transmission shaft (7) penetrates through the inner wall of the deep groove ball bearing (6) to be communicated with the outside;

the damping component (2) comprises a first fastening bolt (21), a first fastening plate (22), a second fastening plate (23), a second fastening bolt (24), a damping shell (25), a third fastening bolt (26), a second telescopic column (27), a first cylindrical spring (28), a first telescopic column (29), a third fastening plate (210), a damping clamping plate (211), a second cylindrical spring (212), a second sliding block (213) and a first sliding block (214), the top end surface of the fixing plate (1) is provided with four damping shells (25) which are symmetrical in pairs, the damping clamping plate (211) is arranged inside the damping shell (25), the inner wall of the damping clamping plate (211) is connected with the outer wall of the motor body (5) in an attaching manner, the two side end surfaces of the damping clamping plate (211) are respectively provided with a first telescopic hole, and the inner wall of the first telescopic hole is provided with the first telescopic column (29) in an attaching manner, first sliding block (214) are installed through the welding to the other end of first flexible post (29), first sliding tray has been seted up to the position department that the inner wall of shock attenuation shell (25) corresponds first sliding block (214), and the both sides outer wall of first sliding block (214) is connected with the both sides inner wall laminating of first sliding tray, the flexible hole of second has been seted up at the outer wall middle part of shock attenuation splint (211), and the inner wall laminating in the flexible hole of second installs flexible post (27) of second, the second sliding block (213) is installed through the welding to the other end of the flexible post of second (27), the second sliding tray has been seted up to the position department that the inner wall of shock attenuation shell (25) corresponds second sliding block (213), and the both sides outer wall of second sliding block (213) is connected with the both sides inner wall laminating of second sliding tray.

2. The new energy motor capable of running stably according to claim 1, wherein the water cooling assembly (4) comprises a water storage tank (41), a water cooling pipe (42), a micro water pump (43) and an installation block (44), the water storage tank (41) is installed on one side of the bottom end face of the fixing plate (1) through a bolt, the water cooling pipe (42) is inserted into the outer wall of one side of the water storage tank (41), the inner side of the outer wall of the water cooling pipe (42) is connected with the outer wall of the motor body (5) in an attaching mode, the micro water pump (43) is installed on the bottom of the outer wall of one side of the water storage tank (41) through a bolt, and the top of the micro water pump (43) is connected with one end of the outer wall of the water cooling pipe (42) through a flange.

3. The new energy motor with stable operation according to claim 2, characterized in that a plurality of installation blocks (44) are installed on the top of the outer wall of the motor body (5) through welding, and the outer end face of each installation block (44) is connected with the outer wall of the water cooling pipe (42) in an attaching manner.

4. The new energy motor capable of operating stably according to claim 1, wherein two positioning grooves (3) are symmetrically formed in two sides of the top end surface of the fixing plate (1), a first fastening plate (22) is installed at the bottom of the outer wall of the damping shell (25) close to the fixing plate (1) through welding, a first fastening bolt (21) is arranged inside the first fastening plate (22), and one end of the first fastening bolt (21) penetrates through the positioning grooves (3) and the outer wall of the first fastening plate (22) to be communicated with the outside.

5. The new energy motor capable of operating stably according to claim 1, wherein second fastening plates (23) are welded to the tops of the outer walls of two sides of the shock absorption shell (25) close to the fixing plate (1) and the bottoms of the outer walls of two sides of the shock absorption shell (25) far away from the fixing plate (1), second fastening bolts (24) are arranged inside the second fastening plates (23), two adjacent second fastening plates (23) are fixedly connected through the second fastening bolts (24), four third fastening plates (210) are welded to the peripheries of two ends of the outer wall of the motor body (5), a third fastening bolt (26) is arranged on one side of each third fastening plate (210), and the shock absorption clamping plates (211) are fixedly connected with the third fastening plates (210) through the third fastening bolts (26).

6. The new energy motor with stable operation according to claim 1, wherein a first cylindrical spring (28) is inserted into the first telescopic hole, one end of the first cylindrical spring (28) is connected with one end of the first telescopic column (29) in an attaching manner, a second cylindrical spring (212) is sleeved on the outer wall of the second telescopic column (27), and two ends of the second cylindrical spring (212) are respectively connected with the inner wall of the damping shell (25) and the outer wall of the damping clamping plate (211) in an attaching manner.

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