CN114227456B

CN114227456B - Motor rotor production and processing equipment and production and processing method thereof

Info

Publication number: CN114227456B
Application number: CN202111571083.6A
Authority: CN
Inventors: 陈凡; 崔德新; 张志峰
Original assignee: Anhui Zhiou Drive Technology Co ltd
Current assignee: Anhui Zhiou Drive Technology Co ltd
Priority date: 2021-12-21
Filing date: 2021-12-21
Publication date: 2023-01-06
Anticipated expiration: 2041-12-21
Also published as: CN114227456A

Abstract

The invention discloses a motor rotor production and processing device and a production and processing method thereof, wherein an adjusting component is arranged, so that a rotor can roll down along a guide plate, and the rotor is prevented from being strongly impacted; the baffle plate assembly is arranged, so that the rotor can be blocked under the polishing roller; the output end of the motor drives the grinding roller, the driving assembly and the clamping assembly to rotate; when the mounting frame and the polishing roller move downwards, the clamping assembly clamps the rotor, the polishing roller polishes the rotating rotor, and the dust removal assembly absorbs dust generated by polishing; after polishing, the mounting frame drives the linkage rod to move upwards when moving upwards, the linkage rod drives the driving rod and the baffle assembly to rotate, the processed rotor rolls to the left side of the lower material plate along the lower material plate and through the lower part of the baffle plate, and finally the linkage rod is far away from the driving rod, and the baffle plate falls back to the top of the lower material plate under the action of gravity.

Description

Motor rotor production and processing equipment and production and processing method thereof

Technical Field

The invention relates to the technical field of motor rotor processing equipment, in particular to motor rotor production and processing equipment and a production and processing method thereof.

Background

The motor is commonly called as a motor and refers to an electromagnetic device for realizing electric energy conversion or transmission according to the law of electromagnetic induction. The motor is represented by a letter M old standard D in a circuit, the motor mainly has the function of generating driving torque and is used as a power source of electrical appliances or various machines, the generator is represented by a letter G in a circuit, and the generator mainly has the function of converting mechanical energy into electric energy.

Dividing according to the types of working power supplies: can be divided into a direct current motor and an alternating current motor; the dc motor can be divided according to structure and working principle: brushless dc motors and brushed dc motors; brushed dc motors can be divided: permanent magnet dc motors and electromagnetic dc motors; electromagnetic direct current motor division: a series direct current motor, a parallel direct current motor, a separately excited direct current motor, and a compound direct current motor; dividing a permanent magnet direct current motor: rare earth permanent magnet direct current motors, ferrite permanent magnet direct current motors, and alnico permanent magnet direct current motors.

Wherein the alternating current motor can also be divided into: single phase motors and three phase motors; the device can be divided into the following parts according to the structure and the working principle: can be divided into a direct current motor, an asynchronous motor and a synchronous motor; synchronous machines can be divided: permanent magnet synchronous motors, reluctance synchronous motors and hysteresis synchronous motors; asynchronous machines can be divided: induction motors and ac commutator motors; induction motors can be divided into: three-phase asynchronous motors, single-phase asynchronous motors, shaded pole asynchronous motors, and the like.

The ac commutator motor can be divided into: single-phase series motor, AC/DC motor and repulsion motor.

The starting and running modes can be divided into: the capacitor-started single-phase asynchronous motor, the capacitor-operated single-phase asynchronous motor, the capacitor-started operated single-phase asynchronous motor and the split-phase single-phase asynchronous motor.

It can be divided into: a drive motor and a control motor; the driving motor can be divided into: the electric tools include tools such as drilling, polishing, grinding, grooving, cutting and reaming, household appliances include washing machines, electric fans, refrigerators, air conditioners, recorders, video players, vacuum cleaners, cameras, hair dryers, electric shavers and other general small mechanical devices include various small machines, medical instruments, electronic instruments and other electric motors.

A motor rotor: also a rotating part in the motor. The motor consists of a rotor and a stator, and is a conversion device for realizing electric energy and mechanical energy and electric energy. The motor rotor is divided into a motor rotor and a generator rotor.

The motor rotor is divided into an inner rotor rotation mode and an outer rotor rotation mode. The inner rotor rotates in such a way that a core body in the middle of the motor is a rotating body, and the output torque refers to the motor or the input energy refers to the generator. The outer rotor rotation mode is that the motor outer body is used as a rotating body, and different modes are convenient for application in various occasions.

The rotor is usually required to be polished by the rotor processing equipment in the motor production process, however, the conventional rotor production processing equipment is required to be manually clamped when in use, and other rotors to be polished are required to be manually taken down and reinstalled after polishing is finished.

Disclosure of Invention

Aiming at the existing problems, the invention provides a motor rotor production and processing device and a production and processing method thereof, which solve the problems in the background technology.

In order to achieve the above object, the present invention adopts the following technical solutions:

a motor rotor production and processing device comprises a base, wherein the base is connected with a material discharging box, and a material discharging hole is formed in the left side wall of the material discharging box; an inclined blanking plate is arranged at the top of the base, and the right end of the blanking plate penetrates through the discharge hole and is connected with the inner side wall of the discharge box; the machining assembly is arranged on the top of the base and positioned on the left side of the discharging box, the machining assembly is provided with a clamping assembly, a driving assembly, a lifting assembly and a linkage assembly, and the clamping assembly is matched with the driving assembly and the lifting assembly; the top of the base is provided with a baffle assembly which is matched with the linkage assembly.

Preferably, the processing assembly comprises a U-shaped support, the support is connected with the front side wall and the rear side wall of the base, a hydraulic rod is connected to the top of an inner cavity of the support, the telescopic end of the hydraulic rod is downwards connected with a U-shaped mounting frame, and the inner side wall of the mounting frame is connected with a grinding roller; the front side wall of the mounting frame is connected with a motor, and the output end of the motor is connected with the front end of the polishing roller; the bracket is matched with the clamping component; the mounting frame is matched with the baffle plate assembly through the linkage assembly; the output end of the motor is matched with the driving component.

Preferably, the clamping assembly comprises two spline sleeves, the two spline sleeves are symmetrically arranged in the front and back direction and matched with the lifting assembly, the lifting assembly is matched with the front side wall and the back side wall of the support, the inner cavities of the spline sleeves are connected with spline shafts, a first spring is connected between the inner side wall of each spline sleeve and each spline shaft, the opposite ends of the spline shafts are connected with clamping blocks, the side walls of the spline shafts are connected with rotating rings, the side walls of the rotating rings, away from each other, of one sides are connected with a plurality of spring rods, the other ends of the spring rods are connected with fixing rings, and the tops of the fixing rings are connected with inclined planes; the bottom of the mounting rack is symmetrically connected with an L-shaped driving block, and the bottom of the driving block is provided with an inclined plane and matched with an inclined plane body; the bottoms of the fixing rings are connected with a rectangular-shaped limiting frame; the front side wall and the rear side wall of the base are symmetrically connected with limiting rods, and the limiting rods penetrate through the limiting frames; the spline housing is engaged with the drive assembly.

Preferably, the driving assembly comprises two first belt pulleys, and the two first belt pulleys are respectively connected to the front end and the rear end of the grinding roller; the outer wall of the spline housing is connected with a second belt pulley; the front and back of the bottom of the base are symmetrically connected with a fixed plate, the fixed plate is provided with a chute, the inner side wall of the chute is connected with a rotating rod through a first bearing seat, the rotating rod is connected with a third belt pulley, and a belt is connected between the third belt pulley and the corresponding second belt pulley as well as between the third belt pulley and the corresponding first belt pulley; and a second spring is connected between the bottom of the first bearing seat and the bottom of the inner cavity of the sliding groove.

Preferably, the lifting assembly comprises two sliding holes, the two sliding holes are respectively positioned on the front side wall and the rear side wall of the bracket, the inner side wall of each sliding hole is connected with a second bearing seat, and the second bearing seats are matched with the spline housing; the bottom of the inner cavity of the sliding hole is connected with a first screw, the side wall of the first screw is symmetrically connected with a moving seat, the top of the moving seat is connected with a connecting rod, and the other end of the connecting rod is upwards connected with the bottom of a second bearing seat; the left end of the first screw rod is connected with a knob leftwards.

Preferably, the linkage assembly comprises an L-shaped supporting rod, the supporting rod is connected to the rear end of the left side wall of the support, the bottom end of the supporting rod is connected with a fixing pin forwards, the fixing pin is connected with a linkage rod through a torsion spring, the bottom end of the supporting rod is connected with a limiting block forwards, and the limiting block is matched with the bottom of the linkage rod; the baffle plate assembly is connected with an L-shaped driving rod, and the driving rod is matched with the linkage rod.

Preferably, the baffle assembly comprises two rotating plates, the two rotating plates are symmetrically connected to the front side wall and the rear side wall of the base, the right side wall of each rotating plate is connected with an extending plate, the other end of each extending plate is connected with a second screw, the other end of each second screw is connected with a baffle, and the side wall of each second screw is connected with a rotating disc; the driving rod is connected with the top of the extension plate at the rear.

Preferably, the material discharging box further comprises an adjusting assembly, the adjusting assembly comprises a third screw, the third screw is connected to the right side wall of the material discharging box, the left end of the third screw extends into the inner cavity of the material discharging box and is connected with an inclined guide plate, and the right end of the third screw is connected with a rotating handle.

Preferably, the processing device also comprises a dust removal assembly, wherein the dust removal assembly comprises a dust suction cavity, the dust suction cavity is positioned in the lower material plate and below the processing assembly, and the top of the dust suction cavity is provided with a plurality of dust suction holes; the right side wall of the base is provided with a dust collector, and the dust collection end of the dust collector is communicated with the dust collection cavity.

A production and processing method of motor rotor production and processing equipment comprises the following steps:

the rotor is rolled to the right side of the baffle plate along the left side wall of the guide plate and the guide plate, the grinding roller is driven to rotate through the output end of the motor, and meanwhile, the output end of the motor drives the clamping assembly to rotate through the driving assembly;

the mounting frame, the polishing roller and the driving block are driven to move downwards through the telescopic end of the hydraulic rod, the driving block drives the spline shaft and the clamping block to move oppositely through the inclined plane body, the fixing ring, the spring rod and the rotating ring, the clamping block clamps the rotor and drives the rotor to rotate, the polishing roller performs comprehensive polishing on the rotating rotor, the dust removal assembly absorbs dust generated by polishing, the supporting rod and the linkage rod are driven to move downwards when the mounting frame moves downwards, and the linkage rod rotates upwards under the action of the torsion spring to bypass the driving rod;

after polishing, the mounting frame is moved upwards, the linkage rod upwards drives the driving rod and the baffle assembly to rotate under the action of the limiting block, the clamping block is gradually away from the rotor, the rotor rolls to the left side of the lower material plate along the inclined lower material plate and through the lower part of the baffle plate, the linkage rod continuously rises, the driving rod is finally kept away from the linkage rod, and the baffle plate falls back to the top of the lower material plate under the action of gravity.

The invention has the beneficial effects that:

1. the feeding box is provided with the adjusting assembly, so that the rotor can roll down along the inclined guide plate to prevent the rotor from being strongly impacted or collided, the baffle plate assembly is arranged to block the rotor under the polishing roller, the position of the baffle plate can be adjusted, the equipment can polish the rotors with different diameters, the mounting frame, the polishing roller and the driving block are driven to move downwards by the telescopic end of the hydraulic rod, the driving block drives the spline shaft and the clamping block to move oppositely through the inclined plane body, the fixing ring, the spring rod and the rotating ring, and the clamping block can clamp the rotor to be polished, so that the clamping is convenient, manual operation is not needed, and time and labor are saved;

2. according to the invention, the output end of the motor drives the polishing roller to rotate, meanwhile, the output end of the motor drives the clamping assembly to rotate through the driving assembly, and then the clamping assembly drives the rotor to rotate, so that the polishing roller can comprehensively polish the rotor, and the polishing device is convenient to use and good in polishing effect;

3. the lifting assembly is arranged in the device, the height of the clamping assembly can be adjusted through the lifting assembly, so that the clamping block can be clamped in the centers of the two ends of the rotor, the polishing quality is improved, and the device can polish rotors with different diameters;

4. the device is provided with the linkage assembly, the support rod and the linkage rod are driven to move downwards when the mounting rack moves downwards, the linkage rod rotates upwards under the action of the torsion spring to bypass the driving rod, the linkage rod drives the driving rod and the baffle assembly to rotate upwards under the action of the limiting block when the mounting rack moves upwards, the clamping block gradually keeps away from the rotor, the rotor rolls to the left side of the lower plate along the inclined lower plate and passes through the lower part of the baffle, the linkage rod continuously rises along with the linkage rod, finally the linkage rod keeps away from the driving rod, and the baffle falls back to the top of the lower plate under the action of gravity to continuously intercept the next rotor.

Drawings

FIG. 1 is a schematic structural view of the apparatus;

FIG. 2 is a left side view of the apparatus;

FIG. 3 is a front view of the apparatus;

FIG. 4 is a partial top view of the apparatus;

FIG. 5 is an enlarged view taken at A in FIG. 1;

FIG. 6 is an enlarged view at B of FIG. 1;

FIG. 7 is an enlarged view at C of FIG. 2;

FIG. 8 is an enlarged view taken at D in FIG. 2;

in the figure: 1-base, 2-discharge box, 3-discharge port, 4-blanking plate, 5-processing assembly, 51-support, 52-hydraulic rod, 53-mounting frame, 54-grinding roller, 55-motor, 6-clamping assembly, 60-limiting rod, 61-spline housing, 62-spline shaft, 63-first spring, 64-clamping block, 65-rotating ring, 66-spring rod, 67-fixing ring, 68-inclined plane body, 69-driving block, 70-limiting frame, 7-driving assembly, 71-first belt pulley, 72-second belt pulley, 73-fixing plate, 74-sliding groove, 75-first shaft bearing seat, 76-rotating rod, 77-third belt pulley, 78-belt, 79-second spring, 8-lifting component, 81-sliding hole, 82-second bearing seat, 83-first screw rod, 84-moving seat, 85-connecting rod, 86-knob, 9-linkage component, 91-supporting rod, 92-fixing pin, 93-torsion spring, 94-linkage rod, 95-limiting block, 96-driving rod, 10-baffle component, 101-rotating plate, 102-extending plate, 103-second screw rod, 104-baffle, 105-rotating disc, 11-adjusting component, 111-third screw rod, 112-guide plate, 113-rotating handle, 12-dust removing component, 121-dust removing cavity, 122-dust removing hole and 123-dust collector.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third," if any, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

with reference to fig. 1-8, the invention provides a technical scheme that the motor rotor production and processing equipment comprises a base 1, wherein the base 1 is fixedly connected with a material discharge box 2, and a material discharge hole 3 is formed in the left side wall of the material discharge box 2; an inclined blanking plate 4 is arranged at the top of the base 1, and the right end of the blanking plate 4 penetrates through the discharge port 3 and is fixedly connected with the inner side wall of the discharge box 2; a processing assembly 5 is arranged on the top of the base 1 and on the left side of the material placing box 2, the processing assembly 5 is provided with a clamping assembly 6, a driving assembly 7, a lifting assembly 8 and a linkage assembly 9, and the clamping assembly 6 is matched with the driving assembly 7 and the lifting assembly 8; the top of the base 1 is provided with a baffle assembly 10, and the baffle assembly 10 is matched with the linkage assembly 9.

The processing assembly 5 comprises a U-shaped bracket 51, the bracket 51 is fixedly connected with the front side wall and the rear side wall of the base 1, a hydraulic rod 52 is fixedly connected to the top of an inner cavity of the bracket 51, a U-shaped mounting frame 53 is fixedly connected with the telescopic end of the hydraulic rod 52 downwards, and a grinding roller 54 is rotatably connected to the inner side wall of the mounting frame 53; a motor 55 is fixedly connected to the front side wall of the mounting frame 53, and the output end of the motor 55 is fixedly connected with the front end of the grinding roller 54; the bracket 51 is matched with the clamping assembly 6; the mounting frame 53 is matched with the baffle plate assembly 10 through the linkage assembly 9; the output of the motor 55 is coupled to the drive assembly 7.

The clamping assembly 6 comprises two spline sleeves 61, the two spline sleeves 61 are symmetrically arranged front and back and are matched with the lifting assembly 8, the lifting assembly 8 is matched with the front side wall and the back side wall of the support 51, spline shafts 62 are inserted into the inner cavities of the spline sleeves 61, first springs 63 are fixedly connected between the inner side walls of the spline sleeves 61 and the spline shafts 62, clamping blocks 64 are fixedly connected to the opposite ends of the spline shafts 62, the side walls of the spline shafts 62 are rotatably connected with rotating rings 65, a plurality of spring rods 66 are fixedly connected to the side wall of one side, away from each other, of each rotating ring 65, the other end of each spring rod 66 is fixedly connected with a fixing ring 67, and inclined planes 68 are fixedly connected to the tops of the fixing rings 67; the bottom of the mounting rack 53 is symmetrically and fixedly connected with an L-shaped driving block 69, and the bottom of the driving block 69 is provided with an inclined plane and matched with an inclined plane body 68; the bottoms of the fixing rings 67 are fixedly connected with a rectangular-shaped limiting frame 70; the front side wall and the rear side wall of the base 1 are symmetrically and fixedly connected with limiting rods 60, and the limiting rods 60 penetrate through a limiting frame 70; the spline housing 61 mates with the drive assembly 7.

Wherein, the driving assembly 7 comprises two first belt pulleys 71, and the two first belt pulleys 71 are respectively fixedly connected at the front end and the rear end of the grinding roller 54; the outer wall of the spline housing 61 is fixedly connected with a second belt pulley 72; a fixing plate 73 is symmetrically fixedly connected to the front and the back of the bottom of the base 1, the fixing plate 73 is provided with a sliding chute 74, the inner side wall of the sliding chute 74 is rotatably connected with a rotating rod 76 through a first bearing seat 75, the rotating rod 76 is connected with a third belt pulley 77, and a belt 78 is sleeved between the third belt pulley 77 and the corresponding second belt pulley 72 and the corresponding first belt pulley 71; a second spring 79 is fixedly connected between the bottom of the first bearing seat 75 and the bottom of the inner cavity of the slide groove 74.

The lifting assembly 8 comprises two sliding holes 81, the two sliding holes 81 are respectively positioned on the front side wall and the rear side wall of the bracket 51, the inner side wall of each sliding hole 81 is connected with a second bearing seat 82 in a sliding manner, and the second bearing seats 82 are matched with the spline housing 61; the bottom of the inner cavity of the sliding hole 81 is rotatably connected with a first screw 83, the side walls of the first screw 83 are symmetrically screwed with moving seats 84, the top of the moving seats 84 is rotatably connected with a connecting rod 85, and the other end of the connecting rod 85 is upwards rotatably connected with the bottom of the second bearing seat 82; the left end of the first screw 83 is fixed with a knob 86.

The linkage assembly 9 comprises an L-shaped supporting rod 91, the supporting rod 91 is fixedly connected to the rear end of the left side wall of the support 51, the bottom end of the supporting rod 91 is fixedly connected with a fixing pin 92 forwards, the fixing pin 92 is rotatably connected with a linkage rod 94 through a torsion spring 93, the bottom end of the supporting rod 91 is fixedly connected with a limiting block 95 forwards, and the limiting block 95 is matched with the bottom of the linkage rod 94; the baffle assembly 10 is fixedly connected with an L-shaped driving rod 96, and the driving rod 96 is matched with the linkage rod 94.

The baffle plate assembly 10 comprises two rotating plates 101, the two rotating plates 101 are symmetrically and rotatably connected to the front side wall and the rear side wall of the base 1, the right side wall of each rotating plate 101 is fixedly connected with an extending plate 102, the other end of each extending plate 102 is in threaded connection with a second screw 103, the other end of each second screw 103 is rotatably connected with a baffle plate 104, and the side wall of each second screw 103 is fixedly connected with a rotating disc 105; the drive rod 96 is affixed atop an extension plate 102 at the rear.

One specific application of this embodiment is:

the rotor to be polished is rolled to the right side of the baffle plate 104 along the inclined guide plate 4 in the inner cavity of the discharge box 2, the polishing roller 54 is driven to rotate by the output end of the motor 55, and meanwhile, the output end of the motor 55 drives the clamping assembly 6 to rotate by the driving assembly 7;

the mounting frame 53, the polishing roller 54 and the driving block 69 are driven to move downwards through the telescopic end of the hydraulic rod 52, the driving block 69 drives the spline shaft 62 and the clamping block 64 to move oppositely through the inclined plane body 68, the fixing ring 67, the spring rod 66 and the rotating ring 65, then the clamping block 64 clamps the rotor on the right side of the baffle 104 and drives the rotor to rotate, and finally the polishing roller 54 performs comprehensive polishing on the rotating rotor; in addition, the mounting rack 53 drives the supporting rod 91 and the linkage rod 94 to move downwards in the downward moving process, and the linkage rod 94 rotates upwards under the action of the torsion spring 93 to bypass the driving rod 96;

after polishing is finished, the mounting frame 53 is driven to move upwards through the telescopic end of the hydraulic rod 52, the linkage rod 94 upwards drives the driving rod 96 and the baffle plate assembly 10 to rotate under the action of the limiting block 95, at the moment, the clamping block 64 gradually keeps away from the rotor, the rotor rolls to the left side of the lower material plate 4 along the inclined lower material plate 4 through the position below the baffle plate 104, and finally the linkage rod 94 keeps away from the driving rod 96 along with continuous rising of the linkage rod 94, and the baffle plate 104 falls back to the top of the lower material plate 4 under the action of gravity to continuously intercept the next rotor.

Example 2:

referring to fig. 1, in order to prevent the rotor from being violently impacted or collided during falling in the material placing box 2, the motor rotor production and processing equipment further comprises an adjusting component 11, wherein the adjusting component 11 comprises a third screw 111, the third screw 111 is screwed on the right side wall of the material placing box 2, the left end of the third screw 111 extends into the inner cavity of the material placing box 2 and is rotatably connected with an inclined guide plate 112, and the right end of the third screw 111 is fixedly connected with a rotating handle 113.

One specific application of this embodiment is:

the rotor is rolled down along the left side wall of the inclined guide plate 112, so that the rotor can be prevented from being violently impacted or collided in the falling process, the distance between the left side wall of the guide plate 112 and the left side wall of the inner cavity of the discharging box 2 can be adjusted through the third screw 111, and the guide plate 112 can be suitable for rotors with different diameters.

Example 3:

with reference to fig. 1 and 5, in order to keep a working environment clean and tidy and clean and ensure the health of workers, the motor rotor production and processing equipment further comprises a dust removal assembly 12, wherein the dust removal assembly 12 comprises a dust suction cavity 121, the dust suction cavity 121 is located inside the blanking plate 4 and below the processing assembly 5, and the top of the dust suction cavity 121 is provided with a plurality of dust suction holes 122; the right side wall of the base 1 is provided with a dust collector 123, and the dust collection end of the dust collector 123 is communicated with the dust collection cavity 121.

One specific application of this embodiment is:

when the grinding roller 54 grinds the rotor, the dust collecting end of the dust collector 123 absorbs dust or debris generated by grinding through the dust collecting cavity 121 and the dust collecting hole 122, so that the cleanness and tidiness of the working environment are ensured, and the health of workers is ensured.

The electric elements adopted by the patent are commercially available, and the specific structure and the control mode are not repeated in the specification.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A motor rotor production and processing device comprises a base (1) and is characterized in that the base (1) is connected with a material discharging box (2), and a material discharging hole (3) is formed in the left side wall of the material discharging box (2); an inclined blanking plate (4) is arranged at the top of the base (1), and the right end of the blanking plate (4) penetrates through the discharge hole (3) and is connected with the inner side wall of the discharge box (2); a processing assembly (5) is arranged on the top of the base (1) and on the left side of the material placing box (2), the processing assembly (5) is provided with a clamping assembly (6), a driving assembly (7), a lifting assembly (8) and a linkage assembly (9), and the clamping assembly (6) is matched with the driving assembly (7) and the lifting assembly (8); the top of the base (1) is provided with a baffle assembly (10), and the baffle assembly (10) is matched with the linkage assembly (9);

the processing assembly (5) comprises a U-shaped support (51), the support (51) is connected with the front side wall and the rear side wall of the base (1), the top of an inner cavity of the support (51) is connected with a hydraulic rod (52), the telescopic end of the hydraulic rod (52) is downwards connected with a U-shaped mounting frame (53), and the inner side wall of the mounting frame (53) is connected with a grinding roller (54); the front side wall of the mounting frame (53) is connected with a motor (55), and the output end of the motor (55) is connected with the front end of the polishing roller (54); the bracket (51) is matched with the clamping component (6); the mounting rack (53) is matched with the baffle plate assembly (10) through a linkage assembly (9); the output end of the motor (55) is matched with the driving component (7);

the clamping assembly (6) comprises two spline sleeves (61), the two spline sleeves (61) are symmetrically arranged front and back and are matched with the lifting assembly (8), the lifting assembly (8) is matched with the front side wall and the back side wall of the bracket (51), spline shafts (62) are connected to inner cavities of the spline sleeves (61), first springs (63) are connected between inner side walls of the spline sleeves (61) and the spline shafts (62), clamping blocks (64) are connected to opposite ends of the spline shafts (62), swivel rings (65) are connected to side walls of the spline shafts (62), a plurality of spring rods (66) are connected to side walls of the swivel rings (65) far away from each other, the other ends of the spring rods (66) are connected with fixing rings (67), and inclined plane bodies (68) are connected to the tops of the fixing rings (67); the bottom of the mounting rack (53) is symmetrically connected with an L-shaped driving block (69), and the bottom of the driving block (69) is provided with an inclined plane and matched with an inclined plane body (68); the bottoms of the fixing rings (67) are connected with a square-shaped limiting frame (70); the front side wall and the rear side wall of the base (1) are symmetrically connected with limiting rods (60), and the limiting rods (60) penetrate through the limiting frame (70); the spline sleeve (61) is matched with the driving assembly (7);

the driving assembly (7) comprises two first belt pulleys (71), and the two first belt pulleys (71) are respectively connected to the front end and the rear end of the grinding roller (54); the outer wall of each spline housing (61) is connected with a second belt pulley (72); the front and back of the bottom of the base (1) are symmetrically connected with a fixing plate (73), the fixing plate (73) is provided with a sliding chute (74), the inner side wall of the sliding chute (74) is connected with a rotating rod (76) through a first bearing seat (75), the rotating rod (76) is connected with a third belt pulley (77), and a belt (78) is connected between the third belt pulley (77) and the corresponding second belt pulley (72) and first belt pulley (71); a second spring (79) is connected between the bottom of the first bearing seat (75) and the bottom of the inner cavity of the sliding groove (74);

the lifting assembly (8) comprises two sliding holes (81), the two sliding holes (81) are respectively positioned on the front side wall and the rear side wall of the bracket (51), the inner side wall of each sliding hole (81) is connected with a second bearing seat (82), and the second bearing seats (82) are matched with the spline housing (61); the bottom of the inner cavity of the sliding hole (81) is connected with a first screw (83), the side walls of the first screw (83) are symmetrically connected with a moving seat (84), the top of the moving seat (84) is connected with a connecting rod (85), and the other end of the connecting rod (85) is upwards connected with the bottom of a second bearing seat (82); the left end of the first screw rod (83) is connected with a knob (86) leftwards;

the linkage assembly (9) comprises an L-shaped supporting rod (91), the supporting rod (91) is connected to the rear end of the left side wall of the support (51), a fixing pin (92) is connected to the bottom end of the supporting rod (91) in a forward direction, the fixing pin (92) is connected with a linkage rod (94) through a torsion spring (93), a limiting block (95) is connected to the bottom end of the supporting rod (91) in a forward direction, and the limiting block (95) is matched with the bottom of the linkage rod (94); the baffle plate assembly (10) is connected with an L-shaped driving rod (96), and the driving rod (96) is matched with the linkage rod (94).

2. The electric motor rotor production and processing apparatus of claim 1, wherein: the baffle plate assembly (10) comprises two rotating plates (101), the two rotating plates (101) are symmetrically connected to the front side wall and the rear side wall of the base (1), the right side wall of each rotating plate (101) is connected with an extending plate (102), the other end of each extending plate (102) is connected with a second screw (103), the other end of each second screw (103) is connected with a baffle plate (104), and the side wall of each second screw (103) is connected with a rotating disc (105); the drive rod (96) is attached to the top of the rear extension plate (102).

3. The electric motor rotor production and processing apparatus of claim 2, wherein: still include adjustment assembly (11), adjustment assembly (11) include third screw rod (111), and third screw rod (111) are connected at blowing case (2) right side wall, and third screw rod (111) left end stretches into blowing case (2) inner chamber and is connected with guide plate (112), the right-hand member that has the slope and is connected with and changes handle (113).

4. The electric motor rotor production and processing apparatus of claim 3, wherein: the dust removing device is characterized by further comprising a dust removing assembly (12), wherein the dust removing assembly (12) comprises a dust suction cavity (121), the dust suction cavity (121) is located inside the lower material plate (4) and below the processing assembly (5), and a plurality of dust suction holes (122) are formed in the top of the dust suction cavity (121); the right side wall of the base (1) is provided with a dust collector (123), and the dust collection end of the dust collector (123) is communicated with a dust collection cavity (121).

5. The production method of the production processing equipment of the motor rotor as claimed in claim 4, characterized by comprising the steps of:

the rotor rolls to the right side of the baffle (104) along the left side wall of the guide plate (112) and the guide plate (4), the grinding roller (54) is driven to rotate through the output end of the motor (5), and meanwhile, the output end of the motor (55) drives the clamping assembly (6) to rotate through the driving assembly (7);

the mounting frame (53), the polishing roller (54) and the driving block (69) are driven to move downwards through the telescopic end of the hydraulic rod (52), the driving block (69) drives the spline shaft (62) and the clamping block (64) to move towards each other through the inclined plane body (68), the fixing ring (67), the spring rod (66) and the rotating ring (65), the clamping block (64) clamps the rotor and drives the rotor to rotate, the polishing roller (54) polishes the rotating rotor comprehensively, the dust removal assembly (12) absorbs dust generated by polishing, the supporting rod (91) and the linkage rod (94) are driven to move downwards when the mounting frame (53) moves downwards, and the linkage rod (94) rotates upwards under the action of the torsion spring (93) to bypass the driving rod (96);

after polishing, make mounting bracket (53) shift up, under the effect of stopper (95), gangbar (94) upwards drive actuating lever (96), baffle subassembly (10) rotate, grip block (64) keep away from the rotor gradually this moment, and then the rotor rolls to flitch (4) left side down along unloading board (4) of slope, pass baffle (104) below, along with gangbar (94) constantly rise, actuating lever (96) are kept away from in final gangbar (94), baffle (104) fall back to unloading board (4) top under the action of gravity.