CN110237980B - Automatic processing device for coating rotor antirust paint - Google Patents

Abstract

The invention aims to provide an automatic processing device for coating rotor antirust paint. The automatic processing device for coating the rotor with the antirust paint comprises a stock bin device, a painting device and a rack; the bin device comprises a bin motor, a rotating shaft and a material rack; the painting device comprises a screw motor, a ball screw pair, a first moving plate, an upper cylinder, a lower cylinder, a second moving plate, a painting plate and a painting cylinder; the painting device has a starting position and a working position; the storage bin device is provided with three working positions, namely a discharging position, a painting position and a discharging position; the device can be used for painting the rotor antirust paint at one time to paint a plurality of rotors.

Description

Automatic processing device for coating rotor antirust paint

Technical Field

The invention relates to an automatic processing device, in particular to an automatic processing device for coating rotor antirust paint.

Background

The water pump is a very common product, the water pump is internally provided with a rotor, the rotor 1 adopted by the common household water pump is mostly as shown in figure 1, the rotor 1 comprises a cast aluminum rotor 2 and a rotating shaft 3, the cast aluminum rotor 2 consists of magnetic sheets, a plurality of parts of the water pump can rust after the water pump is used for a long time, the rotor 1 comprises a rotor, the circumferential surface of the cast aluminum rotor 2 on the rotor 1 can influence the power of the water pump if the circumferential surface rusts, and therefore the circumferential surface of the cast aluminum rotor 2 on the rotor 1 needs to be subjected to rust prevention treatment before the rotor 1 is installed on the water pump, namely, rust prevention paint is coated. In some small-scale manufacturers, most of the small-scale manufacturers manually coat the rust-proof paint on the circumferential surface of the cast aluminum rotor 2 on the rotor 1, while the large-scale manufacturers have special painting equipment, but the rotors 1 to be painted still need to be manually placed on the large-scale manufacturers, then the equipment can only coat the rust-proof paint on one rotor 1 at a time, and the small-scale manufacturers are manually taken out and placed, and then the operation is circulated. This type of painting equipment, which can only paint one rotor 1 at a time, is inefficient and requires improvement.

Disclosure of Invention

The invention aims to provide an automatic processing device for coating rotor antirust paint, which can coat a plurality of rotors at one time.

The invention relates to an automatic processing device for coating rotor antirust paint, which is realized by the following steps: the automatic processing device for coating the rotor with the antirust paint comprises a stock bin device, a painting device and a rack; the bin device comprises a bin motor, a rotating shaft and a material rack; the bin motor is fixedly connected to the frame, and a shaft of the bin motor is fixedly connected with the rotating shaft; the rotating shaft and the frame form a rotating pair; the material rest is fixedly connected to the rotating shaft, a plurality of groups of material rests are uniformly distributed on the rotating shaft, the material rest is provided with a positioning rod, the rotor is placed and positioned at the positioning rod, but the rotor can rotate at the positioning rod; the painting device comprises a screw motor, a ball screw pair, a first moving plate, an upper cylinder, a lower cylinder, a second moving plate, a painting plate and a painting cylinder; the screw motor is fixedly connected to the frame, and a rotating shaft on the screw motor is fixedly connected with a ball screw in the ball screw pair; the ball screw and the rack form a rotating pair, and a screw nut in the ball screw pair is fixedly connected with the first moving plate; the first moving plate is arranged on the rack and forms a moving pair with the rack; the upper and lower cylinders are fixedly connected to the first moving plate, and moving rods of the upper and lower cylinders are fixedly connected with the second moving plate; the second moving plate is arranged on the first moving plate and forms a moving pair with the first moving plate; the paint coating plate is fixedly connected to the second moving plate and made of materials such as cloth, is immersed in the paint to enable the paint coating plate to carry the paint, and then is in contact with the cast aluminum rotor of the rotor to enable the cast aluminum rotor to be coated with the antirust paint; the paint filling cylinder is fixedly connected to the rack and serves as a paint filling container; the painting device is provided with an initial position and a working position, the painting plate is positioned right above the painting cylinder when the initial position is reached, the painting plate extends out of the moving rod and is immersed in the paint in the painting cylinder, the painting plate is positioned above the cast aluminum rotor of the rotor at the material rest when the painting position is reached when the working position is reached, the painting plate extends out of the moving rod and is contacted with the cast aluminum rotor of the rotor, the painting plate moves to enable each contacted rotor to rotate, and the painting plate continuously moves to enable the cast aluminum rotors of all the rotors at the material rest to be painted when the painting position is reached; the storage bin device is provided with three working positions, namely a discharging position, a painting position and a discharging position; when the material frame is at the material placing position, the positioning rod faces upwards, and a plurality of rotors are manually placed at the positioning rod; when the material rack is at the painting position, the cast aluminum rotor of the rotor at the material rack is positioned below the painting plate when the material rack is at the working position; the work or material rest turns to the unloading position from the painting position, and in this in-process work or material rest slope, the rotor of work or material rest department can roll out the locating lever and fall into in the finished product storehouse of below.

The invention has the beneficial effects that: multiple rotors can be painted at once.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of a rotor to be painted with a rust inhibitive paint according to the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic structural view of a silo device in the invention.

Fig. 4 is a schematic view of the structure of the removing rack in the stock house apparatus of the present invention.

Fig. 5 to 7 are schematic structural views of the stacks including the rotor in the bin device according to the present invention.

Fig. 8 and 9 are schematic structural views of the stacks in the stock bin apparatus of the present invention, which do not include a rotor.

Fig. 10 to 12 are schematic views of the construction of the painting apparatus of the present invention.

Fig. 13 is a schematic view of the position of the hopper device relative to the painting device in the painting position in accordance with the present invention.

Fig. 14-16 illustrate an embodiment of a painting mechanism for replacing painted panels in a painting apparatus according to the present invention.

In the figure:

1: and (3) a rotor 2: cast aluminum rotor 3: and (4) rotating shaft: a stock bin device 5: the painting device 6: a baffle 7: and (4) a finished product bin 8: a bin motor 9: a rotating shaft 10: a material rack 11: and (4) a material placing position 12: painting position 13: a blanking position 14: positioning rod 15: a screw motor 16: moving the first plate 17: upper and lower cylinders 18: ball screw 19: the screw nut 20: moving a second plate 21: painted panel 22: paint cartridge 23: painting motor 24: the driving pulley 25: the belt 26: a driven pulley.

Detailed Description

Fig. 2 to 13 are schematic structural views of an automatic processing device for coating rotor rust inhibitive paint according to the present invention. As shown in the figure, the automatic processing device for coating the rotor antirust paint comprises a storage bin device 4, a painting device 5 and a frame; as shown in fig. 3 to 9, the bin device 4 includes a bin motor 8, a rotating shaft 9 and a stack 10; the bin motor 8 is fixedly connected to the frame, and a shaft of the bin motor 8 is fixedly connected with the rotating shaft 9; the rotating shaft 9 and the frame form a rotating pair; the material rest 10 is fixedly connected to the rotating shaft 9, the material rest 10 is provided with a plurality of groups (for example, 4 groups in fig. 3) which are uniformly distributed on the rotating shaft 9, the material rest 10 is provided with positioning rods 14, the rotor 1 is placed at the positioning rods 14 and positioned, but the rotor 1 can rotate at the positioning rods 14; as shown in fig. 10 to 12, the painting device 5 includes a screw motor 15, a ball screw pair, a first moving plate 16, an upper and lower cylinder 17, a second moving plate 20, a painting plate 21 and a paint cartridge 22; the screw motor 15 is fixedly connected to the frame, and a rotating shaft on the screw motor 15 is fixedly connected with a ball screw 18 in the ball screw pair; the ball screw 18 and the frame form a rotating pair, and a screw nut 19 in the ball screw pair is fixedly connected with the first moving plate 16; the first moving plate 16 is arranged on the rack and forms a moving pair with the rack; the upper and lower cylinders 17 are fixedly connected to the first moving plate 16, and moving rods of the upper and lower cylinders 17 are fixedly connected with the second moving plate 20; the second moving plate 20 is arranged on the first moving plate 16 and forms a moving pair with the first moving plate 16; the paint coating plate 21 is fixedly connected to the second moving plate 20, the paint coating plate 21 is made of cloth materials, is immersed in paint to enable the paint coating plate 21 to carry paint, and then is in contact with the cast aluminum rotor 2 of the rotor 1 to enable the cast aluminum rotor 2 to be coated with anti-rust paint; the paint cylinder 22 is fixedly connected to the frame, and the paint cylinder 22 is used as a paint container; the painting device 5 has a starting position and a working position, the painting plate 21 is positioned right above the painting cylinder 22 when the starting position is, the upper and lower air cylinders 17 extend out of the moving rod painting plate 21 and are immersed in the paint in the painting cylinder 22, the painting plate 21 is positioned above the cast aluminum rotor 2 of the rotor 1 at the rack 10 when the working position is, the upper and lower air cylinders 17 extend out of the moving rod painting plate 21 and are in contact with the cast aluminum rotor 2 of the rotor 1, the painting plate 21 moves to enable each contacted rotor 1 to rotate, and the painting plate 21 continuously moves to enable all the cast aluminum rotors 2 of the rotor 1 at the rack 10 to be painted when the painting position is; the storage bin device 4 has three working positions, namely a discharging position 11, a painting position 12 and a discharging position 13; when the material rack 10 is at the material placing position 11, the positioning rod 14 faces upwards, and a plurality of rotors 1 are manually placed at the positioning rod 14; when the material frame 10 is at the painting position 12, the cast aluminum rotor 2 of the rotor 1 at the material frame 10 is positioned below the painted plate 21 at the working position; the stacks 10 are turned from the painting position 12 to the blanking position 13, during which the stacks 10 are tilted and the rotors 1 at the stacks 10 roll out of the parking rods 14 and fall into the product bin 7 below.

When the automatic processing device for coating the rotor antirust paint is in work, air cylinders in the automatic processing device for coating the rotor antirust paint are connected with a pneumatic system and a controller, the antirust paint is filled in a paint filling cylinder 22, and a finished product bin 7 is placed below a positioning rod 14 rolled out by a rotor 1 at a material rack 10 in the process that the material rack 10 is rotated from a painting position 12 to a blanking position 13; the invention comprises the following steps: 1) initially, a number of rotors 1 to be painted are placed in the magazine device 4 and the racks 10 are positioned at the positioning rods 14 at the emptying positions 11, but the rotors 1 are able to rotate at the positioning rods 14; 2) Controlling a bin motor 8 to rotate, and stopping the bin motor 8 after the material rack 10 is rotated to a painting position 12 from a discharging position 11; 3) when the painting device 5 is at the initial position, the painting plate 21 is positioned right above the painting cylinder 22, the upper air cylinder 17 and the lower air cylinder 17 are controlled to extend out of the movable rod, the painting plate 21 is immersed in the paint in the painting cylinder 22, and then the upper air cylinder 17 and the lower air cylinder 17 are controlled to extend back to the movable rod to drive the painting plate 21 to return; 4) Controlling the screw motor 15 to rotate, moving the first moving plate 16 through the roller screw pair, moving the painted plate 21 to a working position, stopping the screw motor 15, and positioning the painted plate 21 above the cast aluminum rotor 2 of the rotor 1 at the material rack 10; 5) controlling the upper and lower cylinders 17 to extend out of the moving rod paint plates 21 to be in contact with the cast aluminum rotors 2 of the rotors 1, controlling the lead screw motor 15 to rotate, moving the moving plate I16 through the roller lead screw pair to drive the paint plates 21 to move so as to enable each contacted rotor 1 to rotate, continuously moving the paint plates 21 to paint all the cast aluminum rotors 2 of the rotors 1 at the material rack 10 when the paint positions are painted, and then stopping the lead screw motor 15; 6) the upper air cylinder 17 and the lower air cylinder 17 are controlled to extend back to move the moving rod, then the screw rod motor 15 is controlled to rotate, the first moving plate 16 is driven to move back through the roller screw rod pair, and the screw rod motor 15 stops after the painting device 5 returns to the starting position; 7) controlling a bin motor 8 to rotate, rotating a material rack 10 from a painting position 12 to a blanking position 13, wherein the material rack 10 inclines in the process, and a rotor 1 at the material rack 10 rolls out of a positioning rod 14 and falls into a finished product bin 7 below; 8) controlling the bin motor 8 to continue rotating, rotating the material rack 10 from the discharging position 13 back to the discharging position 11, returning to the step 2) to start working again, and circulating the working. Because the material racks 10 have a plurality of groups (for example, 4 groups in fig. 3) and are uniformly distributed on the rotating shaft 9, when one working position is rotated, the material racks 10 are positioned at the material placing position 11, new rotors need to be placed, and the material racks 10 are positioned at the painting position 12, so that the painting device 5 can perform painting work, and the finished products of the rotors 1 continuously drop into the finished product bin 7 when the finished products rotate every time.

In the technical scheme, a baffle 6 is additionally arranged; the baffle 6 is fixedly connected to the frame and located at the painting position 12 of the bin device 4, and the rotor 1 at the material rack 10 at the painting position 12 is blocked from rolling out of the positioning rod 14, so that the rotor 1 is prevented from falling in during painting.

Fig. 14-16 illustrate an embodiment of a painting mechanism for replacing painted panels in a painting apparatus according to the present invention. As shown, the painting mechanism includes a painting motor 23, a driving pulley 24, a belt 25, and a driven pulley 26; the painting motor 23 is fixedly connected to the second moving plate 20; the driving belt wheel 24 is fixedly connected on the shaft of the painting motor 23; the driven belt wheel 26 is arranged on the second moving plate 20 and forms a rotating pair with the second moving plate 20; the belt 25 is arranged on the driving pulley 24 and the driven pulley 26, the driving pulley 24, the belt 25 and the driven pulley 26 form a belt transmission mechanism, and the outer surface of the belt 25 is full of painting materials (such as cloth); when the painting device 5 is in the initial position, the painting mechanism is positioned right above the painting cylinder 22, the upper air cylinder 17 and the lower air cylinder 17 extend out of the moving rod painting mechanism and are immersed in the paint in the painting cylinder 22, the painting motor 23 rotates, the belt 25 moves to drive the surface painting material to be fully painted, when the painting mechanism is in the working position, the painting mechanism is positioned above the cast aluminum rotor 2 of the rotor 1 at the material rack 10, the upper air cylinder 17 and the lower air cylinder 17 extend out of the moving rod painting material to be in contact with the cast aluminum rotor 2 of the rotor 1, and the painting motor 23 rotates to enable each contacted rotor 1 to rotate, so that all the cast aluminum rotors 2 of the rotor 1 at the material rack 10 are painted at the painting position.

In addition to the above embodiments, the present invention has other embodiments. All technical equivalents and equivalents which may be substituted for one another are intended to fall within the scope of the claims.

Claims (3)

1. The utility model provides a scribble automatic processing device of rotor anti rust paint which characterized in that: the automatic processing device for coating the rotor with the antirust paint comprises a stock bin device, a painting device and a rack; the bin device comprises a bin motor, a rotating shaft and a material rack; the bin motor is fixedly connected to the frame, and a shaft of the bin motor is fixedly connected with the rotating shaft; the rotating shaft and the frame form a rotating pair; the material racks are fixedly connected to the rotating shaft, a plurality of groups of material racks are uniformly distributed on the rotating shaft, and the material racks are provided with positioning rods; the painting device comprises a screw motor, a ball screw pair, a first moving plate, an upper cylinder, a lower cylinder, a second moving plate, a painting plate and a painting cylinder; the screw motor is fixedly connected to the frame, and a rotating shaft on the screw motor is fixedly connected with a ball screw in the ball screw pair; the ball screw and the rack form a rotating pair, and a screw nut in the ball screw pair is fixedly connected with the first moving plate; the first moving plate is arranged on the rack and forms a moving pair with the rack; the upper and lower cylinders are fixedly connected to the first moving plate, and moving rods of the upper and lower cylinders are fixedly connected with the second moving plate; the second moving plate is arranged on the first moving plate and forms a moving pair with the first moving plate; the paint coating plate is fixedly connected to the second moving plate; the paint filling cylinder is fixedly connected to the rack and serves as a paint filling container; the painting device is provided with an initial position and a working position, the painting plate is positioned right above the painting cylinder at the initial position, the painting plate is positioned above the cast aluminum rotor of the rotor at the material rest at the painting position at the working position, the upper cylinder and the lower cylinder extend out of the moving rod painting plate to be in contact with the cast aluminum rotor of the rotor, the painting plate moves to enable each contacted rotor to rotate, and the painting plate continuously moves to enable the cast aluminum rotors of all the rotors at the material rest to be painted at the painting position; the storage bin device is provided with three working positions, namely a discharging position, a painting position and a discharging position; when the material frame is at the material placing position, the positioning rod is upward, and a plurality of rotors of the material frame are placed at one time; when the material rack is at the painting position, the cast aluminum rotors of all the rotors at the material rack are positioned below the painted plate, and the painting device paints all the rotors at the painting position at one time; the work or material rest turns to the unloading position from the painting position, and work or material rest slope in this in-process, whole a plurality of rotors that the work or material rest was located can roll out the locating lever automatically and fall into in the finished product storehouse of below.

2. The automatic processing device for coating rotor antirust paint according to claim 1, characterized in that: also comprises a baffle plate; the baffle is fixedly connected to the frame and located at the painting position of the storage bin device, and the rotor at the material rack at the painting position is blocked from rolling out of the positioning rod.

3. The automatic processing device for coating rotor antirust paint according to claim 1, characterized in that: the painting mechanism replaces the painted plate; the painting mechanism comprises a painting motor, a driving belt wheel, a belt and a driven belt wheel; the painting motor is fixedly connected to the second moving plate; the driving belt wheel is fixedly connected to a shaft of the painting motor; the driven belt wheel is arranged on the second moving plate and forms a revolute pair with the second moving plate; the belt is arranged on the driving belt wheel and the driven belt wheel, the driving belt wheel, the belt and the driven belt wheel form a belt transmission mechanism, and the outer surface of the belt is fully coated with a painting material; the painting mechanism is positioned right above the painting cylinder when the painting device is at the initial position, and the painting mechanism is positioned above the cast aluminum rotor of the rotor at the material rack when the painting mechanism is at the painting position when the painting device is at the working position.

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