CN113245127A - Motor rotor excircle painting equipment - Google Patents

Abstract

The application relates to electric motor rotor excircle painting equipment, it is including painting the case, sets up the external storage lacquer chamber of intercommunication in the painting case, stores up the rotation of lacquer intracavity and is connected with a plurality of painting rollers, is equipped with lift cylinder in the painting case, is equipped with the lifter plate on lift cylinder's the output shaft, is equipped with two connecting plates on the lifter plate, is equipped with on the tip position of connecting plate and places the board, and electric motor rotor's both ends are placed respectively on two boards of placing. Operating personnel falls anticorrosive insulating paint in storing up the lacquer intracavity, place electric motor rotor on two boards of placing through hoist and mount, through lift cylinder's motion, drive electric motor rotor to the direction motion of being close to the painting roller of the top, until electric motor rotor contacts the painting roller of the top, through the mutual conflict rotation between painting roller and the electric motor rotor this moment, on painting the electric motor rotor excircle with anticorrosive insulating paint, realize automatic scribbling anticorrosive insulating paint on electric motor rotor, this application has the effect that reduces operating personnel intensity of labour and use manpower sparingly.

Description

Motor rotor excircle painting equipment

Technical Field

The application relates to the field of motor processing technology, in particular to motor rotor excircle painting equipment.

Background

The motor rotor is 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 rotor of the motor is divided into a motor rotor and a generator rotor.

The existing chinese patent publication No. CN107370266A discloses a motor rotor, a motor, and a method for manufacturing the motor rotor, wherein the motor rotor includes: a main shaft; the rotor iron core is fixedly sleeved on the main shaft and provided with a magnetic steel groove; the magnetic steel is arranged in the magnetic steel groove; the first baffle is sleeved on the main shaft and is positioned at the first end of the rotor core; the second baffle is sleeved on the main shaft and is positioned at the second end of the rotor iron core; one of the first baffle and the second baffle is provided with a through hole corresponding to the magnetic steel groove, and the magnetic steel is fixed in the magnetic steel groove through anticorrosive insulating paint immersed from the through hole.

Aiming at the related technologies, the inventor thinks that the motor rotor has the advantages of simplicity, rapidness, time saving, labor saving and effective reduction of the production cost of the motor rotor in the production process, and because the motor rotor is coated with the anticorrosion insulating paint on the surface of the motor rotor after the motor rotor is assembled, the traditional anticorrosion insulating paint coating is usually carried out manually, the labor intensity of operators is increased, and the labor force is wasted.

Disclosure of Invention

In order to reduce operating personnel's intensity of labour in the link of scribbling anticorrosive insulating varnish at electric motor rotor excircle, use manpower sparingly, this application provides an electric motor rotor excircle painting equipment.

The application provides a motor rotor excircle painting equipment adopts following technical scheme:

the utility model provides a motor rotor excircle painting equipment, including painting case, paint incasement sets up the external storage lacquer chamber of intercommunication, it is connected with a plurality of painting rollers to store up the rotation of lacquer intracavity, the painting incasement is equipped with lift cylinder, be equipped with the lifter plate on lift cylinder's the output shaft, be equipped with two connecting plates on the lifter plate, the homonymy of lifter plate and the top of arranging the painting roller in are arranged in to two connecting plates, two connecting plates are kept away from and are equipped with on the tip position of lifter plate and place the board, motor rotor's both ends are placed respectively on two boards of placing.

By adopting the technical scheme, the painting box plays a role in supporting the painting roller and the lifting oil cylinder, an operator pours the anticorrosive insulating paint into the paint storage cavity, the painting roller at the lowest part is contacted with the anticorrosive insulating paint, the anti-corrosion insulating paint is transferred to the uppermost painting roller layer by layer through the collision between the painting rollers by the rotation of the painting rollers, at the moment, the motor rotor is placed on the two placing plates by hoisting, through lift cylinder's motion, drive electric motor rotor to the direction motion of being close to the painting roller of the top, until electric motor rotor contacts the painting roller of the top, rotate through the conflict each other between painting roller and the electric motor rotor this moment, scribble anticorrosive insulating varnish on the electric motor rotor excircle, realize automatic scribbling anticorrosive insulating varnish on the electric motor rotor excircle, have the effect that reduces operating personnel intensity of labour and use manpower sparingly.

Optionally, a plurality of slide rails consistent with the length direction of the lifting plate are fixedly arranged on the lifting plate, and the connecting plate is connected with the slide rails in a sliding manner.

Through adopting above-mentioned technical scheme, when operating personnel placed electric motor rotor two and place between the board, according to different electric motor rotor's size of a dimension, along the direction sliding connection board of slide rail, adjust two and place the distance between the board, and then enlarge the application scope to electric motor rotor.

Optionally, the end part of the connecting plate, which is close to the slide rail, is connected with a connecting bolt in a threaded manner, and the end part of the connecting bolt penetrates through the connecting plate and is abutted against the lifting plate.

Through adopting above-mentioned technical scheme, on the direction sliding connection board of operating personnel along the slide rail, and then slide the connecting plate to suitable position, screw up connecting bolt on the connecting plate this moment again, through connecting bolt support tightly, with connecting plate locking on the lifter plate, and then improve the stability of being connected between connecting plate and the lifter plate.

Optionally, one end of the placing plate close to the connecting plate is fixedly provided with a square sliding rod, and one end of the sliding rod far away from the placing plate is inserted into the connecting plate and is in sliding connection with the connecting plate.

Through adopting above-mentioned technical scheme, the slide bar slides in arranging the connecting plate in, and operating personnel passes through the slide bar that slides, and then adjusts the position height of placing the board, ensures that two are in same level all the time, ensures that electric motor rotor's both ends keep the level, improves electric motor rotor and rotates the stability of painting in-process.

Optionally, the connecting plate is internally threaded with an adjusting screw rod, the adjusting screw rod is parallel to the sliding rod, one end of the adjusting screw rod extends out of the connecting plate, and the other end of the adjusting screw rod is rotatably connected with the sliding rod.

Through adopting above-mentioned technical scheme, when operating personnel will slide the slide bar and adjust the position height of placing the board, rotate adjusting screw this moment, through the threaded connection between adjusting screw and the connecting plate, realize the slip of slide bar, further improve the stability of adjusting when placing the board height.

Optionally, a gasket is arranged on one side of the placing plate close to the motor rotor.

Through adopting above-mentioned technical scheme, when the tip that motor rotor placed was placed and is rotating on placing the board, motor rotor tip was placed in to the gasket this moment and is placed between the board, gasket and motor rotor direct contact this moment, and the gasket plays the effect that the board was placed in the protection, has reduced the friction of placing between board and the motor rotor, has improved the life of placing the board.

Optionally, the gasket is detachably connected with the placing plate.

Through adopting above-mentioned technical scheme, along with the friction between gasket and the pivoted electric motor rotor, the gasket can take place wearing and tearing along with the lapse of time, and operating personnel pulls down the gasket from placing the board this moment, changes new gasket, makes things convenient for operating personnel's operation to use.

Optionally, the end parts at two ends of the motor rotor are sleeved with locking rings, and the side walls of the locking rings are abutted to one ends of the two placing plates, which are far away from each other.

Through adopting above-mentioned technical scheme, operating personnel places two with electric motor rotor earlier and places between the board, overlaps the locking ring on electric motor rotor from electric motor rotor's both ends again, through the cooperation between two locking rings, prescribes a limit to electric motor rotor between two boards of placing, reduces electric motor rotor and slides along the horizontal direction at the pivoted in-process, further improves electric motor rotor at the stability of rotation in-process.

Optionally, a locking bolt penetrates through the locking ring, the locking bolt is in threaded connection with the locking ring, and the end of the locking bolt is abutted against the end of the motor rotor.

By adopting the technical scheme, when an operator installs the locking ring on the motor rotor, the position of the locking ring is adjusted, then the locking bolt is screwed on the locking ring, and the locking ring and the motor rotor are locked together through the locking bolt, so that the stability of the locking ring when the locking ring is fixed on the motor rotor is improved.

Optionally, a supporting plate arranged on one side of the lifting oil cylinder is fixedly arranged on the painting box, a connecting block is fixedly arranged on one side, close to the supporting plate, of the lifting plate, and the connecting block is connected with the supporting plate in a sliding mode along the movement direction of the output shaft of the lifting oil cylinder.

Through adopting above-mentioned technical scheme, lift cylinder drives the lifter plate motion, and through the sliding fit between connecting block and the backup pad this moment, further improves the stability of lifter plate, finally improves electric motor rotor's painting effect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. an operator pours the anticorrosive insulating paint into the paint storage cavity, the lowermost painting roller is in contact with the anticorrosive insulating paint, the motor rotor is placed on the two placing plates by hoisting through the rotation of the painting rollers, and the motor rotor is driven to move towards the direction close to the uppermost painting roller through the collision between the painting rollers in a layer and a layer until the motor rotor is in contact with the uppermost painting roller, and the anticorrosive insulating paint is coated on the excircle of the motor rotor through the mutual collision rotation between the painting rollers and the motor rotor, so that the anticorrosive insulating paint is automatically coated on the excircle of the motor rotor, and the effects of reducing the labor intensity of the operator and saving manpower are achieved;

2. when an operator places the motor rotor between the two placing plates, the connecting plate is slid along the direction of the sliding rail according to the sizes of different motor rotors, the distance between the two placing plates is adjusted, and the application range of the motor rotor is further expanded;

3. the slide bar slides in arranging the connecting plate in, and operating personnel passes through the slide bar that slides, and then adjusts the position height of placing the board, ensures that two are in same level all the time, ensures that electric motor rotor's both ends keep the level, improves electric motor rotor and rotates the stability of painting in-process.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a longitudinal sectional view in the direction of the lift cylinder in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of the connection relationship between the lifting plate and the supporting plate in the embodiment of the present application.

Fig. 4 is a schematic structural diagram of a connection relationship between the connection plate and the placement plate in the embodiment of the present application.

Fig. 5 is a partially enlarged view of a in fig. 1.

Description of reference numerals: 1. painting box; 11. a paint storage cavity; 2. a painting roller; 3. a motor rotor; 4. a lift cylinder; 5. a lifting plate; 51. a slide rail; 52. connecting blocks; 6. a support plate; 7. a connecting plate; 71. a connecting bolt; 72. adjusting the screw rod; 73. adjusting the rotating handle; 8. placing the plate; 81. a slide bar; 82. a gasket; 83. a countersunk bolt; 9. locking a ring; 91. locking the bolt; 92. and locking the handle.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses electric motor rotor excircle painting equipment.

Referring to fig. 1 and 2, the motor rotor excircle painting equipment comprises a painting box 1, wherein a painting storage cavity 11 communicated with the outside is formed in the top of the painting box 1, and the painting storage cavity 11 is in a vertical cuboid shape and plays a role in storing anticorrosive insulating paint. Four horizontal painting rollers 2 are rotationally connected in the paint storage cavity 11, the two painting rollers 2 are in a group and vertically arranged in a contact manner, and the two groups of painting rollers 2 are horizontally opposite. The anticorrosive insulating paint contacts the lower painting roller 2, the anticorrosive insulating paint is painted on the lower painting roller 2 through the rotation of the painting roller 2, and the anticorrosive insulating paint is transferred to the upper painting roller 2 through the contact of the painting rollers 2 in the same group. At this moment, an operator places the motor rotor 3 on the painting rollers 2 above the motor rotor to roll through hoisting, the motor rotor 3 is placed in the middle positions of the painting rollers 2 above the motor rotor 3, the motor rotor 3 is parallel to the painting rollers 2, and the painting process of the anticorrosive insulating paint is completed through contact between the two painting rollers 2 and the outer circles of the motor rotor 3.

Referring to fig. 1 and 2, a vertical lifting cylinder 4 is fixedly arranged in the painting tank 1, and an output shaft of the lifting cylinder 4 extends out of the top position of the painting tank 1. A horizontal lifting plate 5 is fixedly arranged on an output shaft of the lifting oil cylinder 4, and the middle position of the lifting plate 5 is connected with the lifting oil cylinder 4. The lifting plate 5 is driven to do reciprocating lifting motion by the movement of the lifting oil cylinder 4.

Referring to fig. 3, two vertical supporting plates 6 are fixedly arranged on the painting box 1, and the two supporting plates 6 are respectively arranged at two ends of the same side of the lifting plate 5. The two ends of the lifting plate 5 are respectively and fixedly provided with a connecting block 52, the connecting block 52 is opposite to the supporting plate 6, and the connecting block 52 is in sliding connection with the supporting plate 6 along the movement direction of the output shaft of the lifting oil cylinder 4. When the lifting oil cylinder 4 drives the lifting plate 5 to move, the movement direction of the lifting plate 5 is further limited through the sliding fit between the connecting block 52 and the supporting plate 6, and the stability of the lifting plate 5 is further improved.

With reference to fig. 3 and 4, two connection plates 7 are mounted on the lifting plate 5, the two connection plates 7 facing the roller 2, the two connection plates 7 being placed on the same side of the lifting plate 5 and above the roller 2, the two connection plates 7 being placed between the two connection blocks 52. Two connecting plates 7 are kept away from and are installed on the tip position of lifter plate 5 and place board 8, and the tip of placing board 8 is "V" font, and electric motor rotor 3's both ends are placed respectively on two boards 8 of placing, place board 8 and play the effect of supporting electric motor rotor 3. At this moment, the motor rotor 3 freely reciprocates above the painting roller 2 through the connection among the lifting plate 5, the connecting plate 7 and the placing plate 8, so that the labor-saving painting on the motor rotor 3 is further facilitated for an operator.

Referring to fig. 3, two slide rails 51 are fixedly arranged on the lifting plate 5 and are consistent with the lifting plate 5 in the length direction, and the end of the connecting plate 7 is slidably connected with the slide rails 51. According to the size length of different motor rotors 3, the connecting plate 7 is slid along the direction of the sliding rail 51, the distance between the two placing plates 8 is adjusted, and the application range of the motor rotors 3 with different sizes is expanded.

Referring to fig. 3, a vertical connecting bolt 71 is screwed to an end portion of the connecting plate 7 near the slide rail 51, and an end portion of the connecting bolt 71 penetrates through the connecting plate 7 and abuts against the lifting plate 5. The operator slides the connecting plate 7 along the direction of the slide rail 51, and after sliding the connecting plate 7 to a proper position, the connecting bolt 71 is tightened, and the connecting plate 7 is locked on the lifting plate 5 through the abutting fit of the connecting bolt 71.

Referring to fig. 3 and 4, the end of the placing plate 8 close to the connecting plate 7 is fixedly provided with a square sliding rod 81, the sliding rod 81 is vertical, the end of the sliding rod 81 far away from the placing plate 8 is inserted into the connecting plate 7, and the sliding rod 81 is connected with the connecting plate 7 in a sliding manner along the vertical direction. The operating personnel slides slide bar 81, adjusts the height of placing board 8, ensures that two are placed board 8 and is in same level all the time, guarantees the balance at motor rotor 3 both ends, highly uniform.

Referring to fig. 4, a vertical adjusting screw 72 is screwed into the connecting plate 7, the adjusting screw 72 and the sliding rod 81 are parallel to each other and coaxial, and one end of the adjusting screw 72 is rotatably connected to the sliding rod 81. An operator rotates the adjusting screw 72, and the sliding adjustment of the sliding rod 81 is realized through the threaded connection between the adjusting screw 72 and the connecting plate 7, so that the stability and the accuracy of the sliding rod 81 at the sliding position are improved.

Referring to fig. 4, the other end of the adjusting screw 72 extends out of the connecting plate 7 and is fixedly provided with an adjusting rotating handle 73, and the adjusting rotating handle 73 increases the contact area with the human hand, so that the operator can rotate the adjusting screw 72 in a labor-saving manner.

Referring to fig. 3 and 4, two spacers 82 are mounted on the side of the mounting plate 8 adjacent to the motor rotor 3, and the two spacers 82 are respectively disposed on both sides of the mounting plate 8 that are bent inward. When motor rotor 3 is placed and rotate on placing board 8, gasket 82 is placed in motor rotor 3 tip and is placed between the board 8, and gasket 82 directly rubs with motor rotor 3, plays the protection and places the effect of board 8.

Referring to fig. 3 and 4, the pad 82 and the placing plate 8 are detachably connected, the pad 82 is worn along with the friction between the pad 82 and the rotating motor rotor 3, and at the moment, the pad 82 is detached from the placing plate 8 by an operator, so that the pad 82 is convenient to replace.

Referring to fig. 3 and 4, a countersunk bolt 83 penetrates through the gasket 82 at the central position of the gasket 82, the countersunk bolt 83 penetrates through the gasket 82 and is in threaded connection with the placing plate 8, the countersunk bolt 83 is in countersunk connection with the gasket 82, the possibility of contact between the countersunk bolt 83 and the motor rotor 3 is reduced, and the gasket 82 is replaced by detaching the countersunk bolt 83.

Referring to fig. 5, locking rings 9 are respectively sleeved on the end portions of the two ends of the motor rotor 3, and the side walls of the locking rings 9 are abutted against the ends of the two placing plates 8, which are far away from each other. The operating personnel overlaps locking ring 9 on electric motor rotor 3 from electric motor rotor 3's both ends, through the cooperation between two locking rings 9, prescribes a limit to electric motor rotor 3 between two boards 8 of placing, reduces electric motor rotor 3 and follows the gliding possibility of horizontal direction at the pivoted in-process.

Referring to fig. 5, two locking bolts 91 are inserted into the locking ring 9, the locking bolts 91 are threadedly coupled to the locking ring 9, and ends of the locking bolts 91 are abutted against ends of the motor rotor 3. The operator tightens the locking bolt 91 on the locking ring 9, and locks the locking ring 9 with the motor rotor 3 through the locking bolt 91, so as to ensure the firmness of the locking ring 9 on the end of the motor rotor 3.

Referring to fig. 5, a locking handle 92 is fixedly arranged on one side of the locking ring 9 away from the motor rotor 3, and an operator holds the locking handle 92, so that the locking ring 9 can be conveniently taken, placed, installed and used.

The implementation principle of the painting equipment for the outer circle of the motor rotor in the embodiment of the application is as follows: an operator firstly coats the actual size of the motor rotor 3 with the anticorrosive insulating paint according to the requirement, slides the connecting plate 7, adjusts the distance between the two placing plates 8, locks the position of the connecting plate 7 through the connecting bolt 71, hoists the motor rotor 3 between the two placing plates 8, rotates the adjusting rotating handle 73 at the moment, ensures that the motor rotor 3 is in a horizontal state, enables the motor rotor 3 to be parallel to the painting roller 2, finally sleeves the locking rings 9 at the two ends of the motor rotor 3, screws the locking bolts 91, fastens the positions of the locking rings 9, and starts the lifting oil cylinder 4 to enable the outer side wall of the motor rotor 3 to be simultaneously contacted with the outer side walls of the two glue coating rollers, thereby realizing the process of automatically coating the anticorrosive insulating paint on the outer circle of the motor rotor 3.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a motor rotor excircle painting equipment which characterized in that: including painting case (1), paint storage chamber (11) of intercommunication external world have been seted up in painting case (1), paint storage chamber (11) internal rotation is connected with a plurality of japanning rollers (2), be equipped with lift cylinder (4) in painting case (1), be equipped with lifter plate (5) on the output shaft of lift cylinder (4), be equipped with two connecting plates (7) on lifter plate (5), the homonymy of lifter plate (5) is arranged in two connecting plates (7) and the top of japanning roller (2) is arranged in, be equipped with on the tip position that lifter plate (5) were kept away from in two connecting plates (7) and place board (8), place respectively on two board (8) are placed at the both ends of motor rotor (3).

2. The painting equipment for the outer circle of the motor rotor as claimed in claim 1, wherein: the lifting plate (5) is fixedly provided with a plurality of sliding rails (51) which are consistent with the lifting plate (5) in length direction, and the connecting plate (7) is connected with the sliding rails (51) in a sliding manner.

3. The painting equipment for the outer circle of the motor rotor as claimed in claim 2, wherein: the connecting bolt (71) is connected to the end part of the connecting plate (7) close to the sliding rail (51) in a threaded mode, and the end part of the connecting bolt (71) penetrates through the connecting plate (7) and is abutted to the lifting plate (5).

4. The painting equipment for the outer circle of the motor rotor as claimed in claim 1, wherein: one end, close to the connecting plate (7), of the placing plate (8) is fixedly provided with a square sliding rod (81), and one end, far away from the placing plate (8), of the sliding rod (81) is inserted into the connecting plate (7) and is in sliding connection with the connecting plate (7).

5. The painting equipment for the outer circle of the motor rotor as claimed in claim 4, wherein: the connecting plate (7) is internally threaded with an adjusting screw (72), the adjusting screw (72) is parallel to the sliding rod (81), one end of the adjusting screw (72) extends out of the connecting plate (7), and the other end of the adjusting screw (72) is rotatably connected with the sliding rod (81).

6. The painting equipment for the outer circle of the motor rotor as claimed in claim 1, wherein: and a gasket (82) is arranged on one side of the placing plate (8) close to the motor rotor (3).

7. The painting equipment for the outer circle of the motor rotor as claimed in claim 6, wherein: the gasket (82) is detachably connected with the placing plate (8).

8. The painting equipment for the outer circle of the motor rotor as claimed in claim 1, wherein: the end parts of the two ends of the motor rotor (3) are sleeved with locking rings (9), and the side walls of the locking rings (9) are abutted to one ends of the two placing plates (8) which are far away from each other.

9. The painting equipment for the outer circle of the motor rotor as claimed in claim 8, wherein: the motor rotor locking device is characterized in that a locking bolt (91) penetrates through the locking ring (9), the locking bolt (91) is in threaded connection with the locking ring (9), and the end part of the locking bolt (91) is abutted to the end part of the motor rotor (3).

10. The painting equipment for the outer circle of the motor rotor as claimed in claim 1, wherein: the paint coating box (1) is fixedly provided with a supporting plate (6) arranged on one side of the lifting oil cylinder (4), one side, close to the supporting plate (6), of the lifting plate (5) is fixedly provided with a connecting block (52), and the connecting block (52) is connected with the supporting plate (6) in a sliding mode along the moving direction of an output shaft of the lifting oil cylinder (4).

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