CN113019797A - Painting device and method for iron core deformed groove - Google Patents

Abstract

The invention discloses a painting device of an iron core distortion groove, which comprises a paint mechanism for accommodating paint, and further comprises: a detection mechanism for detecting the deformed slot on the iron core; the controller is electrically connected with the detection mechanism to acquire a detection signal provided by the detection mechanism; the positioning and indexing mechanism is used for installing the iron core, the positioning and indexing mechanism is electrically connected with the controller, and the positioning and indexing mechanism enables the iron core to rotate according to a control signal provided by the controller so that the deformed groove detected by the detection mechanism reaches a painting station; the rotary painting mechanism is used for painting the iron core assembled on the positioning indexing mechanism, the rotary painting mechanism is matched with the paint mechanism and extracts the paint from the paint mechanism, and the rotary painting mechanism is positioned on one side of the positioning indexing mechanism. The method for painting the deformed slots of the iron core has the advantage of simple process.

Description

Painting device and method for iron core deformed groove

Technical Field

The invention relates to the technical field of motors, in particular to a painting device and method for an iron core abnormal groove.

Background

The stator is an important component part in the motor, wherein the rust prevention of the stator iron core is an important work, the surface of the iron core is not subjected to rust prevention treatment, and the iron core is rusted to greatly influence the performance and the service life of the motor, so that the stator iron core is very necessary to prevent rust.

The iron core has several through welding seams on the outer circumference, several distorted grooves on the inner circumference, and the whole surface is discontinuous, and the thickness of the iron core antirust paint coating is 3-20 μm, and the current iron core surface antirust coating treatment has the following methods according to the structure and the coating thickness:

(1) the iron core is rolled in the paint groove by rolling paint, so that the paint is attached to the surface of the iron core.

(2) The electrophoretic coating is a special coating method which comprises the steps of immersing an object to be coated with electric conductivity into an electrophoretic coating tank which is filled with water and has a relatively low concentration to be used as an anode (or a cathode), arranging a cathode (or an anode) corresponding to the object in the tank, and depositing a uniform, fine and water-insoluble coating film on the surface of the object to be coated after direct current is conducted between the two electrodes for a period of time. The surface electrophoresis treatment is high in cost, and the surface of the antirust paint can be damaged in the processing of the previous procedure;

(3) spraying, a coating method in which the coating is applied to the surface of an object to be coated by dispersing the coating into uniform and fine droplets by a spray gun or a disc atomizer with the aid of pressure or centrifugal force. The spraying mode has high equipment cost, large occupied area and complex process.

Disclosure of Invention

The invention provides a painting device and method for an iron core deformed groove, which are simple in process.

The technical scheme for realizing the purpose is as follows:

the painting device in iron core distortion groove, including the paint vehicle mechanism who holds the paint vehicle, still include:

a detection mechanism for detecting the deformed slot on the iron core;

the controller is electrically connected with the detection mechanism to acquire a detection signal provided by the detection mechanism;

the positioning and indexing mechanism is used for installing the iron core, the positioning and indexing mechanism is electrically connected with the controller, and the positioning and indexing mechanism enables the iron core to rotate according to a control signal provided by the controller so that the deformed groove detected by the detection mechanism reaches a painting station;

the rotary painting mechanism is used for painting the iron core assembled on the positioning indexing mechanism, the rotary painting mechanism is matched with the paint mechanism and extracts the paint from the paint mechanism, and the rotary painting mechanism is positioned on one side of the positioning indexing mechanism.

Further, the positioning and indexing mechanism includes:

the positioning mechanism is used for positioning the iron core and is electrically connected with the controller;

the output end of the indexing mechanism is connected with the positioning mechanism, and the indexing mechanism is electrically connected with the controller.

Furthermore, the positioning mechanism is a multi-claw cylinder which enters an inner hole of the iron core and then moves along the radial direction of the iron core.

Further, the indexing mechanism includes:

the first support is used for bearing the iron core, an accommodating cavity is formed in the first support, one part of the positioning mechanism is located in the accommodating cavity and fixed with the first support, and the other part of the positioning mechanism for positioning the iron core is located outside the accommodating cavity;

the output end of the first motor is connected with the bracket.

Further, the rotary painting mechanism includes:

a second bracket;

the second motor is connected to the second bracket;

the rotating shaft is connected with the second bracket pivot shaft and fixed with the second motor;

the painting component is fixed with the rotating shaft.

Further, rotatory mopping mechanism still includes lift driver, the second support includes:

a support bar;

the support rod penetrates through the movable plate and is matched with the movable plate, and the second motor and the rotating shaft are connected with the movable plate;

the fixed plate is fixedly connected with the supporting rod, the lifting driver is installed on the fixed plate, and the power output end of the lifting driver penetrates through the fixed plate to be connected with the movable plate.

Further, the painting component corresponds to the middle of the movable plate, and the movable plate and the fixed plate are both provided with yielding grooves for yielding when the painting component rotates.

And the paint quantity control mechanism is used for extruding the paint extracted by the rotary painting mechanism before painting the iron core so as to control the painting quantity.

Further, the paint quantity control mechanism includes:

a fixed seat;

the first extrusion roller is arranged on the fixed seat;

a second squeeze roll;

and the driving mechanism is used for driving the second extrusion roller to be matched with the first extrusion roller to extrude the rotary painting mechanism, and the second extrusion roller is arranged on the driving mechanism.

The painting method of the iron core deformed groove comprises the following steps:

s1, the iron core is installed on the positioning and indexing mechanism, and the positioning and indexing mechanism fastens the iron core;

s2, the detection mechanism detects the deformed slot of the iron core arranged on the positioning indexing mechanism, and the detection mechanism provides the detected deformed slot to the controller;

s3, the positioning indexing mechanism rotates the iron core according to the control signal provided by the controller, so that the deformed groove detected by the detection mechanism reaches a painting station;

s4, the rotary painting mechanism moves, and the paint quantity control mechanism extrudes the rotary painting mechanism to control the paint quantity in the rotary painting mechanism;

and S5, the rotating painting mechanism works to paint the deformed groove of the iron core.

By adopting the painting mode of the invention, the paint quantity on the rotary painting mechanism is controlled by the paint quantity control mechanism, so that the paint quantity on the rotary painting mechanism is uniform during each painting; the abnormal groove is positioned by the detection mechanism, the abnormal groove is moved to a working position by the rotation of the positioning indexing mechanism, and the rotating painting mechanism rotates to paint along the direction of the notch of the abnormal groove. The invention has the characteristics of small occupied area, low cost, simple process and good effect.

Drawings

FIG. 1 is a perspective view of a painting device for an outer circle of an iron core;

FIG. 2 is a schematic view of FIG. 1 with a portion of the parts hidden;

reference numbers in the drawings:

iron core A, odd shape groove A1, hold lacquer box 1, backup pad 2, through-hole 2a, sensor 3, supporting mechanism 4, multi-jaw cylinder 5, first support 6, first motor 7, hold the chamber 8, second motor 9, pivot 10, painting subassembly 11, lift drive 12, bracing piece 13, fly leaf 14, fixed plate 15, the groove of stepping down 16, fixing base 17, first squeeze roll 18, second squeeze roll 19, actuating mechanism 20.

Detailed Description

The present invention will be described with reference to fig. 1 to 2.

The painting device for the distorted groove of the iron core comprises a paint mechanism for containing paint, a detection mechanism, a controller (not shown in the figure), a positioning and indexing mechanism and a rotary painting mechanism, and the following respectively describes the parts and the relationship among the parts in detail:

paint vehicle mechanism is provided with through-hole 2a including holding lacquer box 1, backup pad 2 on the backup pad 2, and this through-hole is located the middle part of backup pad 2, holds lacquer box 1 and through-hole 2a cooperation back, holds lacquer box 1 and backup pad 2 fixed connection. In addition, the detection mechanism, the controller, the positioning indexing mechanism and the rotary painting mechanism are all connected with the support plate 2.

Detection mechanism detects malformed slot A1 on to iron core A, and the controller is connected in order to obtain the detected signal that detection mechanism provided with detection mechanism electricity, and detection mechanism includes sensor 3 and supporting mechanism 4, and sensor 3 installs on supporting mechanism 4, and sensor 3 preferentially adopts laser displacement sensor, and detection mechanism provides the controller with the testing result, and the controller is the industrial computer.

The positioning and indexing mechanism is used for installing the iron core A, is electrically connected with the controller and rotates the iron core according to a control signal provided by the controller so that the distorted groove A1 detected by the detection mechanism reaches a painting station; the positioning and indexing mechanism is used for fastening the iron core A on one hand to enable the iron core A and the positioning and indexing mechanism to be integrated, and the positioning and indexing mechanism is used for driving the iron core A to rotate on the other hand, so that the deformed groove A1 is detected by the sensor 3 in the rotating process, or the detected deformed groove A1 reaches a painting station according to a control signal provided by the controller.

In this embodiment, the positioning and indexing mechanism includes a positioning mechanism and an indexing mechanism, the positioning mechanism positions the iron core, the positioning mechanism is electrically connected to the controller, an output end of the indexing mechanism is connected to the positioning mechanism, the indexing mechanism is electrically connected to the controller, and both the positioning mechanism and the indexing mechanism are controlled by the controller.

In this embodiment, the positioning mechanism is the multi-jaw cylinder 5 that enters into in the hole of iron core a and back edge iron core a radial movement, and multi-jaw cylinder 5 preferentially adopts three-jaw gas claw, and every claw of three-jaw gas claw can be along iron core a's radial movement, and after iron core a overlaps on three-jaw gas claw, three-jaw gas claw work, the claw moves to iron core a's the outside along iron core a's radial to form tight effect that rises to iron core a, and then make iron core a and positioning indexing mechanism fasten and become an organic whole. When the angular indexing mechanism is required to fasten the iron core A, the claw of the three-claw gas claw is moved to the center of the iron core A along the radial direction of the iron core A.

The indexing mechanism comprises a first support 6 bearing an iron core A and a first motor 7, a containing cavity 8 is formed in the first support 6, one part of a positioning mechanism is located in the containing cavity 8 and fixed with the first support 6, and the other part of the positioning mechanism for positioning the iron core A is located outside the containing cavity 8.

The output of the first motor 7 is connected to the support 6. First motor 7 drive support 6 is rotatory, and support 6 drives positioning mechanism and iron core A rotatory, and first motor 7 is connected with the controller electricity to control signal according to the controller sends makes iron core A rotatory to the assigned position.

The rotary painting mechanism is used for painting the iron core A assembled on the positioning indexing mechanism, the rotary painting mechanism is matched with the paint mechanism and used for extracting the paint from the paint mechanism, the rotary painting mechanism is located on one side of the positioning indexing mechanism, and the rotary painting mechanism is electrically connected with the controller. When the deformed groove A1 reaches the painting station, the rotary painting mechanism paints the deformed groove A1 according to the instruction of the controller.

The rotary painting mechanism comprises a second support, a second motor 9, a rotating shaft 10 and a painting component 11, wherein the second motor 9 is connected to the second support, the rotating shaft 10 is connected with the second support through a pivot, the rotating shaft 10 is fixed with the second motor 9, and the painting component is fixed with the rotating shaft. When the second motor 9 works, the second motor 9 drives the rotating shaft 10 to rotate, and the rotating shaft 10 drives the painting component 11 to rotate, so that the abnormal groove A1 is painted. The painting component comprises a brush and a clamping seat, the brush is connected with the clamping seat, and the clamping seat is also fixed with the rotating shaft 10.

The rotary painting mechanism further comprises a lifting driver 12, the second support comprises a supporting rod 13, a movable plate 14 and a fixed plate 15, the supporting rod 13 penetrates through the movable plate 14 and is matched with the movable plate 14, the second motor 9 and the rotating shaft 10 are both connected with the movable plate 14, the fixed plate 15 is fixedly connected with the supporting rod 13, the lifting driver 14 is installed on the fixed plate 15, and a power output end of the lifting driver 12 penetrates through the fixed plate 15 and is connected with the movable plate 14. The lifting driver 12 preferably adopts an air cylinder, and when the lifting driver 12 works, the movable plate 14 is lifted or lowered, so that the movable plate 14 drives the rotary painting mechanism to lift or lower.

Painting subassembly 11 corresponds to the middle part of fly leaf 14, all is equipped with the groove of stepping down 16 that steps down when painting subassembly 11 is rotatory on fly leaf 14 and the fixed plate 15, and the groove of stepping down 16 is the U type, and painting subassembly 11 passes through from the groove of stepping down 16 when rotatory to avoid fly leaf 14 and fixed plate 15 to form the hindrance effect to the rotation of painting subassembly 11.

The painting device for the iron core abnormal groove further comprises a paint amount control mechanism for extruding paint extracted by the rotary painting mechanism before painting the iron core A to control the painting amount, and the paint amount control mechanism performs extrusion on the rotary painting mechanism, so that the thickness of the rotary painting mechanism painted on the surface of the abnormal groove A1 can be controlled, and the paint attached to the painting assembly 11 can splash in the rotating process if the rotary painting mechanism is directly rotationally painted without extrusion when the rotary painting mechanism is matched with the paint mechanism, so that workers and equipment can be polluted, and the paint can be prevented from splashing after the painting assembly 11 is extruded by the paint amount control mechanism.

In this embodiment, when the paint quantity control mechanism is matched with the lifting driver 12 to extrude the paint on the painting assembly 11, when the extrusion is required, the lifting driver 12 drives the movable plate 14 to drive the painting assembly 11 to ascend, and meanwhile, the paint quantity control mechanism works to extrude the painting assembly 11, and the painting assembly 11 is subjected to the extrusion acting force of the paint quantity control mechanism in the ascending process, so that the redundant paint is extruded.

The paint quantity control mechanism comprises a fixed seat 17, a first squeezing roller 18, a second squeezing roller 19 and a driving mechanism 20, wherein the first squeezing roller 18 is installed on the fixed seat 17, the first squeezing roller 18 is preferentially connected with the fixed seat 17 in a rotatable mode, the driving mechanism 20 drives the second squeezing roller 19 to be matched with the first squeezing roller 18 to extrude the rotary painting mechanism, and the second squeezing roller 19 is installed on the driving mechanism 20. The second press roll 19 is preferably rotatably connected to a drive 20.

The driving mechanism 20 comprises a linear driver and a mounting seat, the output end of the linear driver is fixed with the mounting seat, the linear driver can adopt driving components such as an air cylinder, an oil cylinder and the like, and the second squeezing roller 19 is rotatably connected with the mounting seat.

When paint on painting assembly 11 is squeezed, drive mechanism 20 drives second squeeze roller 19 to move toward first squeeze roller 18, and second squeeze roller 19 and first squeeze roller 18 clamp painting assembly 11, and as painting assembly 11 rises, excess paint contained within painting assembly 11 is squeezed out by second squeeze roller 19 and first squeeze roller 18. During the pressing process, second squeeze roller 19 and first squeeze roller 18 are rotated due to the frictional force between second squeeze roller 19 and first squeeze roller 18 and paint brushing assembly 11.

The painting method of the distorted groove A1 of the iron core A comprises the following steps:

s1, the iron core A is installed on the positioning and indexing mechanism, and the positioning and indexing mechanism fastens the iron core A; after the iron core A is sleeved on the three-jaw air claw, the three-jaw air claw works, and the claw moves to the outer side of the iron core A along the radial direction of the iron core A, so that the iron core A is tensioned, and the iron core A and the positioning indexing mechanism are fastened into a whole.

And S2, the positioning and indexing mechanism drives the iron core A to rotate, the detection mechanism detects the deformed groove A1 of the iron core installed on the positioning and indexing mechanism, and the detection mechanism provides the detected deformed groove to the controller. The iron core A is detected by the sensor 3 in the rotating process, and when the deformed groove A1 on the surface of the iron core A corresponds to the sensor 3, the sensor 3 detects that the deformed groove A1 exists on the surface of the iron core A.

And S3, the positioning indexing mechanism rotates the iron core according to the control signal provided by the controller, so that the deformed groove detected by the detection mechanism reaches a painting station. Since the distance between the sensor 3 and the painting station is fixed and the deformed groove a1 corresponds to the sensor 3, the core a is rotated by an angle of, for example, 180 ° to bring the deformed groove a1 to the painting station.

And S4, the rotary painting mechanism moves, and the paint quantity control mechanism extrudes the rotary painting mechanism to control the paint quantity in the rotary painting mechanism. The lifting driver 12 drives the movable plate 14 to drive the painting assembly 11 to ascend, meanwhile, the painting control mechanism is operated to extrude the painting assembly 11, and the painting assembly 11 is extruded by the extrusion force of the painting control mechanism in the ascending process, so that the redundant paint is extruded.

And S5, the rotating painting mechanism works to paint the deformed groove of the iron core. After the rotary painting mechanism is extruded by the painting quantity control mechanism, the second motor 9 works to drive the rotating shaft 10 to rotate, and the rotating shaft 10 drives the painting component 11 to rotate, so that the painting component 11 paints the deformed groove A1 positioned at the painting station.

The steps S2 to S5 are repeated, and painting of the next distorted groove a1 is performed.

Finally, it should be noted that: the above embodiments are only preferred embodiments of the present invention to illustrate the technical solutions of the present invention, but not to limit the technical solutions, and the patent scope of the present invention is not limited; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention; in addition, the technical scheme of the invention is directly or indirectly applied to other related technical fields, and the technical scheme is included in the patent protection scope of the invention.

Claims (10)

1. The painting device in iron core distortion groove, including the paint vehicle mechanism who holds the paint vehicle, its characterized in that still includes:

a detection mechanism for detecting the deformed slot on the iron core;

the controller is electrically connected with the detection mechanism to acquire a detection signal provided by the detection mechanism;

the positioning and indexing mechanism is used for installing the iron core, the positioning and indexing mechanism is electrically connected with the controller, and the positioning and indexing mechanism enables the iron core to rotate according to a control signal provided by the controller so that the deformed groove detected by the detection mechanism reaches a painting station;

the rotary painting mechanism is used for painting the iron core assembled on the positioning indexing mechanism, the rotary painting mechanism is matched with the paint mechanism and extracts the paint from the paint mechanism, and the rotary painting mechanism is positioned on one side of the positioning indexing mechanism.

2. A painting apparatus for an iron core abnormal groove according to claim 1, wherein the positioning indexing mechanism comprises:

the positioning mechanism is used for positioning the iron core and is electrically connected with the controller;

the output end of the indexing mechanism is connected with the positioning mechanism, and the indexing mechanism is electrically connected with the controller.

3. A painting apparatus for an iron core angular groove according to claim 2, wherein the positioning mechanism is a multi-jaw cylinder which enters the inner hole of the iron core and then moves along the radial direction of the iron core.

4. A painting apparatus for an iron core abnormal groove according to claim 2, wherein the index mechanism comprises:

the first support is used for bearing the iron core, an accommodating cavity is formed in the first support, one part of the positioning mechanism is located in the accommodating cavity and fixed with the first support, and the other part of the positioning mechanism for positioning the iron core is located outside the accommodating cavity;

the output end of the first motor is connected with the bracket.

5. A painting apparatus for an iron core abnormal groove according to claim 1, wherein the rotary painting mechanism comprises:

a second bracket;

the second motor is connected to the second bracket;

the rotating shaft is connected with the second bracket pivot shaft and fixed with the second motor;

the painting component is fixed with the rotating shaft.

6. A painting apparatus for an iron core abnormal groove according to claim 5, wherein the rotary painting mechanism further comprises a lifting driver, and the second bracket comprises:

a support bar;

the support rod penetrates through the movable plate and is matched with the movable plate, and the second motor and the rotating shaft are connected with the movable plate;

the fixed plate is fixedly connected with the supporting rod, the lifting driver is installed on the fixed plate, and the power output end of the lifting driver penetrates through the fixed plate to be connected with the movable plate.

7. The painting device for an iron core abnormal groove according to claim 6, wherein the painting component corresponds to the middle part of the movable plate, and the movable plate and the fixed plate are provided with a yielding groove for yielding when the painting component rotates.

8. A painting apparatus for an iron core abnormal groove according to claim 1, further comprising a paint amount control mechanism for controlling an amount of paint to be painted by pressing paint extracted by the rotary painting mechanism before painting the iron core.

9. A painting apparatus for an iron core abnormal groove according to claim 8, wherein the painting amount control mechanism comprises:

a fixed seat;

the first extrusion roller is arranged on the fixed seat;

a second squeeze roll;

and the driving mechanism is used for driving the second extrusion roller to be matched with the first extrusion roller to extrude the rotary painting mechanism, and the second extrusion roller is arranged on the driving mechanism.

10. The painting method of the iron core abnormal groove is characterized by comprising the following steps:

s1, the iron core is installed on the positioning and indexing mechanism, and the positioning and indexing mechanism fastens the iron core;

s2, the detection mechanism detects the deformed slot of the iron core arranged on the positioning indexing mechanism, and the detection mechanism provides the detected deformed slot to the controller;

s3, the positioning indexing mechanism rotates the iron core according to the control signal provided by the controller, so that the deformed groove detected by the detection mechanism reaches a painting station;

s4, the rotary painting mechanism moves, and the paint quantity control mechanism extrudes the rotary painting mechanism to control the paint quantity in the rotary painting mechanism;

and S5, the rotating painting mechanism works to paint the deformed groove of the iron core.

Images