CN113649616A

CN113649616A - Intelligent manufacturing equipment for punching motor rotor core

Info

Publication number: CN113649616A
Application number: CN202110976449.1A
Authority: CN
Inventors: 刘展玲
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-24
Filing date: 2021-08-24
Publication date: 2021-11-16

Abstract

The invention relates to intelligent manufacturing equipment, in particular to intelligent manufacturing equipment for punching a rotor core of a motor. The invention aims to provide intelligent manufacturing equipment for punching a motor rotor core, which can automatically and continuously feed materials and is simple to operate. The utility model provides a be used for motor rotor core to punch a hole and use intelligent manufacturing equipment, places the frame, pushes down the mechanism, pushing equipment, fixed establishment and cutting fluid mechanism including first support frame, first frame, motor, drill bit, second of placing, first support frame upper portion one side is equipped with the second and places the frame, and the second is placed frame top one side and is equipped with the first frame of placing, and first support frame upper portion is equipped with and pushes down the mechanism. The cutting fluid is sprayed to the drill bit which is punching through the fluid outlet gun, so that the drill bit can be cooled, the loss of the drill bit is reduced, a large amount of dust is generated during punching of the drill bit, the cutting fluid can also achieve the aim of dust fall, and people are prevented from being sucked into the body.

Description

Intelligent manufacturing equipment for punching motor rotor core

Technical Field

The invention relates to intelligent manufacturing equipment, in particular to intelligent manufacturing equipment for punching a rotor core of a motor.

Background

The rotor is the inside rotating part of motor, there is rotor core in the rotor, rotor core is when manufacturing, need punch a hole to rotor core, at present, people generally punch a hole to rotor core with the help of punching equipment, current punching equipment needs the manual work to closely go up unloading to rotor core, the manual work is sat before punching equipment, put rotor core on punching equipment, punching equipment punches a hole to rotor core, the back that finishes punching a hole, take away rotor core again, change new rotor core, so the manual unloading of going up, the efficiency that can lead to punching a hole is lower, and current punching equipment, when punching a hole, need artifical manual interpolation cutting fluid, so, just, it is comparatively troublesome to lead to artificial operation.

Therefore, an intelligent manufacturing device for punching a motor rotor core, which can continuously feed materials by itself and is simple to operate, needs to be developed.

Disclosure of Invention

In order to overcome the defects that the existing equipment needs manual feeding and is troublesome to operate, the invention aims to provide the intelligent manufacturing equipment for punching the motor rotor core, which can automatically and continuously feed materials and is simple to operate.

The technical scheme is as follows: the utility model provides a be used for motor rotor core to punch a hole and use intelligent manufacturing equipment, including first support frame, the first frame of placing, including a motor, an end cap, a controller, and a cover plate, the frame is placed to the second, push down the mechanism, pushing equipment, fixed establishment and cutting fluid mechanism, first support frame upper portion one side is equipped with the second and places the frame, the second is placed frame top one side and is equipped with the first frame of placing, first support frame upper portion is equipped with push down the mechanism, be equipped with the motor on the mechanism part that pushes down, motor output shaft installs the drill bit that is used for punching a hole through the shaft coupling in the bottom, the second is placed and is connected with the pushing equipment that the material loading was used between frame and the mechanism part that pushes down, the second is placed and is equipped with the fixed establishment that is used for fixed rotor core on the frame, be equipped with cutting fluid mechanism on the mechanism part that pushes down.

In one embodiment, the pressing mechanism comprises a protective frame, a handle, a rotating frame, a connecting rod, a sliding rail and a first spring, the protective frame is arranged on the upper portion of the first support frame, the handle is rotatably connected to one side of the protective frame, the rotating frame is rotatably arranged in the middle of the handle, the connecting rod is arranged on one side of the rotating frame, one side of the top of the connecting rod is connected with the motor, the sliding rail is arranged on one side of the protective frame and is slidably connected with the connecting rod, and the first spring is connected between one side of the bottom of the connecting rod and the sliding rail.

In one embodiment, the pushing mechanism comprises a pull rope, a first rack, a second rack, a push rod, a first gear, a one-way gear, a first torsion spring and a fourth spring, the pull rope is arranged on one side of the bottom of the connecting rod, the first rack is slidably arranged on one side of the bottom of the second placing frame, the pull rope penetrates through a sliding rail and is connected with one side of the first rack, the fourth spring is connected between one side of the first rack and the second placing frame, the push rod is slidably connected to one side inside the second placing frame, the second rack is arranged in the middle of the push rod, the first gear is rotatably connected to one side of the second placing frame, the one-way gear is connected to one side of a rotating shaft of the first gear, and the first torsion spring is connected between the middle of the first gear and the second placing frame.

In one embodiment, the fixing mechanism comprises sliding grooves, wedge-shaped rods, second springs and a fixing frame, the sliding grooves are symmetrically arranged in the middle of the second placing frame, the fixing frame is connected between the sliding grooves in a sliding mode, the second springs are connected between two sides of the fixing frame and the sliding grooves on the same side, and the wedge-shaped rods are arranged on one side of the fixing frame.

In one embodiment, the cutting fluid mechanism comprises a fluid tank, a fluid outlet gun, a third spring, a projection, a fixed shaft and a movable rod, the fluid tank is arranged on one side of the protective frame, the fluid outlet gun is connected to one side of the fluid tank through a water pipe, the projection is arranged on one side of the handle, the fixed shaft is arranged on one side inside the protective frame, the movable rod is connected between one side of the fixed shaft and the protective frame in a sliding mode, one side of the movable rod slides inside the fluid tank, and the third spring is connected between one side of the bottom of the movable rod and the upper portion of the fixed shaft.

In one embodiment, the liquid tank cover further comprises a shielding mechanism, the shielding mechanism comprises a cover, a second torsion spring and a hinge, the cover is placed on the top of the liquid tank, the hinge is arranged between one side of the top of the cover and the top of the liquid tank, and the two second torsion springs are arranged in the middle of the hinge.

In one embodiment, the device further comprises a placing mechanism, the placing mechanism comprises connecting blocks, connecting rods and a third placing frame, two connecting blocks are arranged on one side of the bottom of the second placing frame, the connecting rods are rotatably connected to the inner sides of the connecting blocks, and the third placing frame is connected between the lower sides of the connecting rods.

In one embodiment, the water pipe connected between the liquid tank and the liquid outlet gun is a telescopic water pipe.

The beneficial effects are that: 1. the cutting fluid is sprayed to the drill bit which is punching through the fluid outlet gun, so that the drill bit can be cooled, the loss of the drill bit is reduced, a large amount of dust is generated during punching of the drill bit, the cutting fluid can also achieve the aim of dust fall, and people are prevented from being sucked into the body.

2. The new rotor core is continuously driven by the push rod to move towards the right side, so that the rotor core can keep continuous feeding, and the punching efficiency is improved.

3. The cover is driven to reversely reset through the second torsion spring, so that the cover covers the liquid tank, and dust can be prevented from entering the liquid tank.

4. People can place the rotor core that finishes punching a hole in the third rack, so, alright avoid the second to place the inside rotor core of frame too much, lead to rotor core to continue to move to the right, simultaneously, also can make rotor core can obtain concentrating the collection.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic perspective view of a first pressing mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a second pressing mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a first pushing mechanism of the present invention.

Fig. 7 is a schematic perspective view of a second pushing mechanism of the present invention.

Fig. 8 is a schematic perspective view of a third pushing mechanism of the present invention.

Fig. 9 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 10 is an enlarged perspective view of the invention at a.

Fig. 11 is a schematic perspective view of a first cutting fluid mechanism according to the present invention.

Fig. 12 is a schematic perspective view of a second cutting fluid mechanism according to the present invention.

Fig. 13 is a schematic perspective view of the shielding mechanism of the present invention.

Fig. 14 is an enlarged perspective view of the present invention at B.

Fig. 15 is a schematic perspective view of a first embodiment of the placement mechanism of the present invention.

Fig. 16 is a schematic perspective view of a second placement mechanism of the present invention.

In the reference symbols: 1-a first support frame, 2-a first placing frame, 3-a motor, 4-a drill bit, 5-a second placing frame, 6-a pressing mechanism, 61-a protective frame, 62-a handle, 63-a rotating frame, 64-a connecting rod, 65-a sliding rail, 66-a first spring, 7-a pushing mechanism, 71-a pull rope, 72-a first rack, 73-a second rack, 74-a push rod, 75-a first gear, 76-a one-way gear, 77-a first torsion spring, 78-a fourth spring, 8-a fixing mechanism, 81-a sliding chute, 82-a wedge rod, 83-a second spring, 84-a fixed frame, 9-a cutting fluid mechanism, 91-a fluid box, 92-a fluid gun, 93-a third spring and 94-a lug, 95-fixed shaft, 96-movable rod, 10-shielding mechanism, 101-cover, 102-second torsion spring, 103-hinge, 11-placing mechanism, 111-connecting block, 112-connecting rod and 113-third placing rack.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

The utility model provides a be used for motor rotor core to punch a hole and use intelligent manufacturing equipment, as shown in fig. 1-16, including first support frame 1, first frame 2 of placing, motor 3, drill bit 4, frame 5 is placed to the second, pushing down mechanism 6, pushing equipment 7, fixed establishment 8 and cutting fluid mechanism 9, first support frame 1 upper portion right front side is equipped with the second and places frame 5, the second is placed frame 5 top left side and is equipped with first frame 2 of placing, first support frame 1 upper portion is equipped with pushing down mechanism 6, be equipped with motor 3 on the pushing down mechanism 6 part, drill bit 4 is installed to motor 3 output shaft bottom, the second is placed and is connected with pushing equipment 7 between frame 5 and the pushing down mechanism 6 part, the second is placed and is equipped with fixed establishment 8 on the frame 5, be equipped with cutting fluid mechanism 9 on the pushing down mechanism 6 part.

The pressing mechanism 6 comprises a protective frame 61, a handle 62, a rotating frame 63, a connecting rod 64, a sliding rail 65 and a first spring 66, the protective frame 61 is arranged on the upper left portion of the first support frame 1, the handle 62 is rotatably connected to the upper left side of the protective frame 61, the rotating frame 63 is rotatably arranged in the middle of the handle 62, the connecting rod 64 is arranged on the lower side of the rotating frame 63, the right side of the top of the connecting rod 64 is connected with the motor 3, the sliding rail 65 is arranged on the right side of the protective frame 61, the sliding rail 65 is slidably connected with the connecting rod 64, and the first spring 66 is connected between the rear side of the bottom of the connecting rod 64 and the sliding rail 65.

The pushing mechanism 7 comprises a pulling rope 71, a first rack 72, a second rack 73, a pushing rod 74, a first gear 75, a one-way gear 76, a first torsion spring 77 and a fourth spring 78, the rear side of the bottom of the connecting rod 64 is provided with a pull rope 71, the second placing frame 5 is provided with a first rack 72 in a sliding mode on the left rear side of the bottom, the pull rope 71 penetrates through the lower side of the sliding rail 65 to be connected with the rear side of the first rack 72, the first rack 72 is connected with a fourth spring 78 between the upper side of the rear side of the second placing frame 5 and the second placing frame 5, the second placing frame 5 is connected with a push rod 74 in a sliding mode on the left side, the middle of the push rod 74 is provided with a second rack 73, the second placing frame 5 is connected with a first gear 75 in a rotating mode on the left side, the first gear 75 is in contact with the first rack 72, a one-way gear 76 is connected to the lower side of a rotating shaft of the first gear 75, the one-way gear 76 is in contact with the second rack 73, and a first torsion spring 77 is connected between the first gear 75 and the second placing frame 5.

The fixing mechanism 8 comprises a sliding groove 81, a wedge-shaped rod 82, a second spring 83 and a fixing frame 84, the sliding grooves 81 are symmetrically arranged in the front and back of the middle of the second placing frame 5, the fixing frame 84 is connected between the sliding grooves 81 in a sliding mode, the second spring 83 is connected between the front side and the back side of the fixing frame 84 and the sliding grooves 81 on the same side, the wedge-shaped rod 82 is arranged on the front side of the fixing frame 84, and the pushing rod 74 contacts with the wedge-shaped rod 82 after moving.

The cutting fluid mechanism 9 comprises a fluid tank 91, a fluid outlet gun 92, a third spring 93, a convex block 94, a fixed shaft 95 and a movable rod 96, the fluid tank 91 is arranged on the upper right side of the protective frame 61, the fluid outlet gun 92 is connected to the right side of the fluid tank 91 through a water pipe, the convex block 94 is arranged on the right side of the rear portion of the handle 62, the fixed shaft 95 is arranged on the right side inside the protective frame 61, the movable rod 96 is connected between the upper side of the fixed shaft 95 and the protective frame 61 in a sliding mode, the front side of the movable rod 96 slides in the front side inside the fluid tank 91, and the third spring 93 is connected between the left side of the bottom of the movable rod 96 and the upper portion of the fixed shaft 95.

When people need to punch a hole on the rotor core of the motor, the equipment can be used, the rotor core is firstly placed in the first placing frame 2, the handle 62 is manually pressed, the handle 62 rotates to drive the rotating frame 63 to move, and further drive the connecting rod 64, the motor 3 and the drill bit 4 to move downwards, at the moment, the first spring 66 is compressed, the initial state of the fourth spring 78 is a stretching state, as the pull rope 71 is loosened, the fourth spring 78 resets to drive the first rack 72 and the pull rope 71 to move forwards, the first rack 72 moves forwards to drive the one-way gear 76 to rotate, at the moment, the first gear 75 cannot rotate, when people lift the handle 62 upwards, the first spring 66 resets to drive the connecting rod 64, the motor 3 and the drill bit 4 to move upwards to reset, and further pull the pull rope 71 to be tensioned, the first rack 72 is driven to move backwards to reset through the pull rope 71, the fourth spring 78 is compressed, the first rack 72 drives the one-way gear 76 to reversely reset, the one-way gear 76 drives the first gear 75 to rotate, at this time, the first torsion spring 77 deforms, the first gear 75 drives the second rack 73 to move rightwards, and further drives the push rod 74 to move rightwards, and the push rod 74 drives the rotor core to move rightwards, when the first rack 72 moves to be separated from the one-way gear 76, the first torsion spring 77 resets, and drives the first gear 75 to reversely reset, and further drives the second rack 73 and the push rod 74 to move leftwards and reset, so that the rotor core inside the first placing frame 2 drops downwards once, the operations are repeated, so that the push rod 74 pushes the rotor core to be below the fixing frame 84 in a material pushing manner, when the push rod 74 moves rightwards to be in contact with the wedge rod 82, the wedge rod 82 is driven to move upwards, and further drives the fixing frame 84 to move upwards, and at this time, the second spring 83 is compressed, the rotor core is moved to the lower part of the fixing frame 84, when the pushing rod 74 moves leftwards to reset and is separated from the wedge-shaped rod 82, the second spring 83 resets to drive the fixing frame 84 to reset, the fixing frame 84 fixes the rotor core, when the iron core moves to the lower part of the drill bit 4, the motor 3 is started, the output shaft of the motor 3 drives the drill bit 4 to rotate, the motor 3 moves downwards to drive the drill bit 4 to move downwards, when the drill bit 4 moves downwards to be contacted with the rotor core, the drill bit 4 punches the iron core, when punching, people put cutting fluid into the liquid tank 91, the handle 62 rotates to drive the lug 94 to rotate, so that the lug 94 drives the movable rod 96 to move downwards, at the moment, the third spring 93 is compressed, so that the movable rod 96 does not block the liquid tank 91 any more, and then the cutting fluid in the liquid tank 91 enters the liquid outlet gun 92 through the water pipe, because the water pipe is a telescopic water pipe, so that one can pull the fluid-out gun 92 and adjust the position of the fluid-out gun 92, so that the fluid-out gun 92 sprays the cutting fluid to the drill bit 4 being punched, and thus, the drill bit 4 can be cooled, the loss of the drill bit 4 is reduced, a large amount of dust is generated when the drill bit 4 punches a hole, the cutting fluid can achieve the purpose of dust fall, the handle 62 moves upwards to reset after the punching is finished, the connecting rod 64 drives the motor 3 and the drill bit 4 to move upwards to reset, the handle 62 drives the lug 94 to rotate reversely to reset, the third spring 93 resets at the moment, the movable rod 96 is driven to reset, the movable rod 96 is enabled to block the liquid tank 91 again, the motor 3 is turned off, when the pushing rod 74 contacts with the wedge-shaped rod 82 again, the rotor core on the left side drives the rotor core on the right side which is punched to move towards the right side in a material pushing mode, so that the rotor core can be continuously fed, and punching efficiency is improved.

Still including sheltering from mechanism 10, shelter from mechanism 10 including lid 101, second torsion spring 102 and hinge 103, lid 101 has been placed at liquid tank 91 top, is equipped with hinge 103 between lid 101 top right side and the liquid tank 91 top, and hinge 103 middle part is equipped with two second torsion spring 102.

People open lid 101 manually, and lid 101 drives hinge 103 and folds, and second torsion spring 102 takes place deformation this moment, puts into liquid tank 91 with the cutting fluid again, loosens lid 101 afterwards, and second torsion spring 102 resets this moment, drives lid 101 and hinge 103 and resets, so, alright avoid the dust to get into in liquid tank 91.

Still including placing mechanism 11, place mechanism 11 including linking up piece 111, connecting rod 112 and third rack 113, the second is placed frame 5 bottom right side and is equipped with two and links up piece 111, links up the equal rotary type in piece 111 inboard and is connected with connecting rod 112, is connected with third rack 113 between the connecting rod 112 downside.

The rotor core that finishes of punching a hole moves to the second and places frame 5 rightmost side, and the rotor core that people will finish of punching a hole is manual places in third rack 113, so, alright avoid the second to place the inside rotor core of frame 5 too much, lead to rotor core can't continue to move to the right, simultaneously, also can make rotor core can obtain concentrating the collection.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims

1. An intelligent manufacturing device for punching a hole in a rotor core of a motor is characterized by comprising a first support frame (1), a first placing frame (2), a motor (3), a drill bit (4), a second placing frame (5), a pressing mechanism (6), a material pushing mechanism (7), a fixing mechanism (8) and a cutting fluid mechanism (9), wherein the second placing frame (5) is arranged on one side of the upper portion of the first support frame (1), the first placing frame (2) is arranged on one side of the top of the second placing frame (5), the pressing mechanism (6) is arranged on the upper portion of the first support frame (1), the motor (3) is arranged on a part of the pressing mechanism (6), the drill bit (4) for punching the hole is arranged at the bottom of an output shaft of the motor (3) through a coupler, the material pushing mechanism (7) for feeding is connected between the second placing frame (5) and the part of the pressing mechanism (6), the fixing mechanism (8) for fixing the rotor core is arranged on the second placing frame (5), the pressing mechanism (6) component is provided with a cutting fluid mechanism (9).

2. The intelligent manufacturing equipment for punching the rotor core of the motor as claimed in claim 1, wherein the pressing mechanism (6) comprises a protective frame (61), a handle (62), a rotating frame (63), an engaging rod (64), a sliding rail (65) and a first spring (66), the protective frame (61) is arranged on the upper portion of the first support frame (1), the handle (62) is rotatably connected to one side of the protective frame (61), the rotating frame (63) is rotatably arranged in the middle of the handle (62), the engaging rod (64) is arranged on one side of the rotating frame (63), one side of the top of the engaging rod (64) is connected with the motor (3), the sliding rail (65) is arranged on one side of the protective frame (61), the sliding rail (65) is slidably connected with the engaging rod (64), and the first spring (66) is connected between one side of the bottom of the engaging rod (64) and the sliding rail (65).

3. The intelligent manufacturing equipment for punching the rotor core of the motor as claimed in claim 2, wherein the material pushing mechanism (7) comprises a pulling rope (71), a first rack (72), a second rack (73), a pushing rod (74), a first gear (75), a one-way gear (76), a first torsion spring (77) and a fourth spring (78), the pulling rope (71) is arranged on one side of the bottom of the linking rod (64), the first rack (72) is slidably arranged on one side of the bottom of the second placing frame (5), the pulling rope (71) passes through the sliding rail (65) to be connected with one side of the first rack (72), the fourth spring (78) is connected between one side of the first rack (72) and the second placing frame (5), the pushing rod (74) is slidably connected on one side of the inside of the second placing frame (5), the second rack (73) is arranged in the middle of the pushing rod (74), the first gear (75) is rotatably connected on one side of the second placing frame (5), one side of the rotating shaft of the first gear (75) is connected with a one-way gear (76), and a first torsion spring (77) is connected between the middle part of the first gear (75) and the second placing frame (5).

4. The intelligent manufacturing equipment for punching the rotor core of the motor as claimed in claim 3, wherein the fixing mechanism (8) comprises sliding grooves (81), wedge-shaped rods (82), second springs (83) and fixing frames (84), the sliding grooves (81) are symmetrically arranged in the middle of the second placing frame (5), the fixing frames (84) are connected between the sliding grooves (81) in a sliding manner, the second springs (83) are connected between the two sides of the fixing frames (84) and the sliding grooves (81) on the same side, and the wedge-shaped rods (82) are arranged on one side of the fixing frames (84).

5. The intelligent manufacturing equipment for punching the rotor core of the motor as claimed in claim 4, wherein the cutting fluid mechanism (9) comprises a fluid tank (91), a fluid outlet gun (92), a third spring (93), a convex block (94), a fixed shaft (95) and a moving rod (96), the fluid tank (91) is arranged on one side of the protective frame (61), the fluid outlet gun (92) is connected to one side of the fluid tank (91) through a water pipe, the convex block (94) is arranged on one side of the handle (62), the fixed shaft (95) is arranged on one side inside the protective frame (61), the moving rod (96) is connected between one side of the fixed shaft (95) and the protective frame (61) in a sliding mode, one side of the moving rod (96) slides inside the fluid tank (91), and the third spring (93) is connected between one side of the bottom of the moving rod (96) and the upper portion of the fixed shaft (95).

6. The intelligent manufacturing equipment for punching the rotor core of the motor as claimed in claim 5, further comprising a shielding mechanism (10), wherein the shielding mechanism (10) comprises a cover (101), second torsion springs (102) and hinges (103), the cover (101) is placed at the top of the liquid tank (91), the hinges (103) are arranged between one side of the top of the cover (101) and the top of the liquid tank (91), and the two second torsion springs (102) are arranged in the middle of the hinges (103).

7. The intelligent manufacturing equipment for punching the rotor core of the motor according to claim 6, further comprising a placing mechanism (11), wherein the placing mechanism (11) comprises connecting blocks (111), connecting rods (112) and a third placing frame (113), two connecting blocks (111) are arranged on one side of the bottom of the second placing frame (5), the connecting rods (112) are rotatably connected to the inner sides of the connecting blocks (111), and the third placing frame (113) is connected between the lower sides of the connecting rods (112).

8. The intelligent manufacturing equipment for punching the iron core of the motor rotor as claimed in claim 5, wherein the water pipe connected between the liquid tank (91) and the liquid outlet gun (92) is a telescopic water pipe.