CN211303599U - Anti-oxidation coating brush coating device - Google Patents

Abstract

The utility model relates to a device of brushing of anti-oxidant coating belongs to the equipment technical field that brushes of ladle slide, including the portal frame, the portal frame both sides are equipped with the pipe clamp, and the rear side of portal frame is equipped with the tailstock, is equipped with line scanning camera on the tailstock, is equipped with the crossbeam on the portal frame, is equipped with the seat that moves about on the crossbeam, is equipped with the seat that goes up and down on the seat that moves about, and the seat front end that goes up and down is equipped with scribbles the silo, scribbles the even awl calandria that is equipped with in silo lower part, is equipped with the solenoid valve on the awl calandria, and the below of seat that goes up and. The utility model adopts the traveling seat to drive the lifting seat to move transversely and longitudinally on the beam of the portal frame, the line scanning camera identifies the position of the sliding plate on the transmission belt, and the controller controls the air pipe to blow away the floating ash on the surface of the sliding plate workpiece; the controller controls the lifting seat to drive the roller to rotate, the sliding plate is brushed by the brush, the brushing uniformity is good, and the brushing efficiency is high.

Description

Anti-oxidation coating brush coating device

Technical Field

The utility model belongs to the technical field of the equipment of brushing of ladle slide, in particular to anti-oxidation coating brush device.

Background

In continuous casting production in steel making, a ladle slide is a refractory material portion for sliding of a ladle slide mechanism. The sliding plate is usually made of a magnesium-carbon material, and in the production process of the sliding plate, after the sliding plate is stamped and shaped through a die, the sliding surface of the sliding plate needs to be polished, so that the flatness of the sliding plate is improved. Generally, the service life of the sliding plate can be prolonged by brushing a layer of anti-oxidation coating on the surface of the polished sliding plate, the brushing process is generally manual operation, the working efficiency is low, the sliding plate is mostly in a strip-like shape generally, brushing personnel can brush the coating uniformly by repeatedly brushing the sliding plate with a brush, and the sliding plate is not suitable for batch conveyor belt type flow line production.

SUMMERY OF THE UTILITY MODEL

The invention provides a brushing device for an antioxidant coating, which aims to solve the technical problem that the manual brushing coating efficiency is low when a sliding plate is conveyed by a conveyor belt.

The utility model provides a technical scheme that above-mentioned technical problem took is: the utility model provides an anti-oxidant coating brush device, its structural feature lies in, including the portal frame, the portal frame both sides are equipped with the pipe clamp, the rear side of portal frame is equipped with the tailstock, be equipped with the line scanning camera on the tailstock, be equipped with the crossbeam on the portal frame, be equipped with the travelling seat on the crossbeam, be equipped with the lift seat on the travelling seat, the lift seat front end is equipped with scribbles the silo, scribble the even awl calandria that is equipped with in silo lower part, be equipped with the solenoid valve on the awl calandria, the below of lift seat is equipped with the wheel carrier, be equipped with the gyro wheel in the wheel carrier.

Furthermore, an air pipe is arranged in the pipe clamp, an electromagnetic air valve is arranged on the air pipe, and the electromagnetic air valve is electrically connected with the controller.

Furthermore, the movable seat, the cross beam and the lifting seat are driven by a screw rod driven by a servo motor, the two servo motors are electrically connected with the controller, the controller controls the movable seat to transversely slide on the cross beam in a reciprocating manner, and the controller controls the lifting seat to vertically slide on the movable seat in a reciprocating manner.

Furthermore, an upper cover is arranged on the coating trough.

Furthermore, the quantity of awl calandria is a plurality of, and the quantity of awl calandria equals and supporting the setting with the quantity of solenoid valve, and a plurality of solenoid valves all are connected with controller electric property.

Further, the controller is electrically connected with the line scanning camera.

Furthermore, a motor on the side of the roller shaft adopts a stepping motor, and the motor is electrically connected with the controller.

Furthermore, the outside of gyro wheel is equipped with the felt, and the circumference of felt is even is equipped with the brush.

The utility model has the advantages that: the utility model adopts the traveling seat to drive the lifting seat to move transversely and longitudinally in a 2-shaft type on the beam of the portal frame, the line scanning camera identifies the position of the sliding plate on the transmission belt, and the controller controls the electromagnetic air valve to open and blow away the floating ash on the upper end surface of the sliding plate workpiece through the air pipe and close the electromagnetic air valve; the controller controls the lifting seat to move and enables the rollers to be aligned to the upper end face of the sliding plate workpiece, the controller controls the rollers to rotate and enables the electromagnetic valves above the rollers to open so that coating liquid in the coating groove can drop on the felt and the hairbrush, the sliding plate workpiece is conveyed by the conveying belt and is uniformly brushed by the hairbrush stained with the liquid coating material in a rolling mode, brushing uniformity is good, traditional manual operation is liberated, efficiency of brushing the sliding plate coating is high, and the sliding plate coating brush is suitable for being used for brushing the sliding plate coating in batch flow line production.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a left side view structure diagram of the present invention;

fig. 3 is a schematic cross-sectional view of the roller of the present invention;

in the figure: 1 portal frame, 11 pipe clamps, 111 air pipes, 112 electromagnetic air valves, 12 tail frames, 2 line scanning cameras, 3 crossbeams, 31 servo motors, 32 lead screws, 4 traveling seats, 5 lifting seats, 6 coating grooves, 61 conical exhaust pipes, 62 electromagnetic valves, 63 upper covers, 7 wheel frames, 8 rollers, 81 motors, 82 felts, 83 brushes and 9 controllers.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The components of the embodiments of the present invention, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

As an example, as shown in fig. 1, fig. 2 and fig. 3, a brushing device for an antioxidant coating is structurally characterized by comprising a portal frame 1, wherein the portal frame 1 is a welded steel structure frame, pipe clamps 11 can be arranged on two sides of the portal frame 1, the pipe clamps 11 are in a circular sleeve shape, the pipe clamps 11 are in bolted connection with a vertical column at the middle position of the portal frame 1, an air pipe 111 can be arranged in each pipe clamp 11, the air pipe 111 is a metal pipe with a gradually-reduced inner hole, the air pipe 111 is inserted into each pipe clamp 11 and is in abutting connection through a screw on the side wall of each pipe clamp 11, an electromagnetic air valve 112 can be arranged on each air pipe 111, the electromagnetic air valve 112 can be an electromagnetic pneumatic valve of a sandman brand, the air pipe 111 can be in pipeline connection with a pipeline of an output source of an air pump in a workshop, and a controller 9 is electrically connected; a tail frame 12 can be arranged at the rear side of the portal frame 1, a line scanning camera 2 can be arranged on the tail frame 12, the line scanning camera 2 is electrically connected with a PC (personal computer) of the controller 9 through an encoder, and the line scanning camera 2 can scan a sliding plate conveyed on a transmission belt and identify the sliding plate when the sliding plate passes through the portal frame 1; a cross beam 3 can be arranged on the portal frame 1, the cross beam 3 is in a double-slide rail type and is screwed on the portal frame 1, a movable seat 4 in sliding fit can be arranged on the cross beam 3, the movable seat 4 and the cross beam 3 are in slide rail type sliding fit, and the cross beam 3 drives the movable seat 4 to reciprocate on the cross beam 3 in a mode that a servo motor 31 drives a screw rod 32; the movable seat 4 can be also provided with a lifting seat 5 in sliding fit, a dovetail-groove-type sliding rail is adopted between the lifting seat 5 and the movable seat 4 for matching, and the lifting seat 5 also adopts a mode that a servo motor drives a lead screw to rotate, so that the lifting seat 5 in sliding fit vertically reciprocates on the movable seat 4; the servo motors 31 driven in two directions are electrically connected with the controller 9, and the controller 9 controls the lifting seat 5 to transversely move along the direction of the beam 3 and simultaneously lift and move in the vertical direction, so that planar 2-axis movement is realized; the controller 9 can be linked with the electromagnetic air valve 112 to open to enable the air pipe 111 to blow out high-pressure air flow by using data information of the position where the sliding plate appears, which is acquired by the line scanning camera 2, and can control the lifting seat 5 to move to the position above the sliding plate workpiece to appear in advance; the front end of the lifting seat 5 can be provided with a paint groove 6, the paint groove 6 is bolted on the lifting seat 5, the lower part of the paint groove 6 can be uniformly provided with a cone exhaust pipe 61, the cone exhaust pipe 61 can be provided with an electromagnetic valve 62, the electromagnetic valve 62 is a water liquid electromagnetic valve, the number of the cone exhaust pipe 61 can be multiple, the number of the cone exhaust pipes 61 is equal to that of the electromagnetic valves 62, the liquid which is matched with the cone exhaust pipe 61 is arranged to flow out, the paint groove 6 can be provided with an upper cover 63, and the upper cover 63 covers the upper part of the paint groove 6 to prevent dust from falling into the paint groove. The lower part of the lifting seat 5 can be provided with a wheel carrier 7, the wheel carrier 7 is bolted on two sides of the lifting seat 5, the lower end of the wheel carrier 7 can be provided with a roller 8, the shaft side of the roller 8 can be provided with a motor 81, the motor 81 drives the roller 8 to rotate at the lower end of the wheel carrier 7, the motor 81 at the shaft side of the roller 8 adopts a stepping motor or a servo motor, the rotating speed of the roller 8 is adjustable, the rotating speed of the roller 8 is generally dozens of revolutions, the felt 82 can be sleeved outside the roller 8, and the circumference of the felt 82 can be uniformly provided with brushes 83. One side of the portal frame 1 can be provided with a controller 9, and the controller 9 is respectively electrically connected with the electromagnetic air valve 112, the line scanning camera 2, the two servo motors 31 driven transversely and longitudinally, the electromagnetic valve 62 and the motor 81 of the roller 8 in sequence.

In the embodiment of the present invention, the coating material of the liquid is filled in the coating tank 6, the portal frame 1 spans on the conveyor belt and is fastened with the cement ground bolt below, when the slide plate workpiece conveyed on the conveyor belt passes through the portal frame 1 from back to front, the position of the slide plate workpiece can be recognized by the line scanning camera 2 on the tail frame 12 behind the portal frame 1, the controller 9 controls the electromagnetic air valve 112 to open intermittently and repeatedly for 3 times, the air pipe 111 blows out intermittent high-pressure air flow and then blows off the floating dust on the surface of the slide plate, meanwhile, the controller 9 controls the lifting seat 5 to drive the roller 8 to move to the position above the slide plate workpiece to be appeared, the height position of the roller 8 can touch the height position of the upper surface of the slide plate workpiece by the brush 83, and the felt 82 cannot touch the position of the upper surface of the slide plate workpiece; the controller 9 controls the motor 81 and the electromagnetic valve 62 to be opened, the liquid coating material in the coating tank 6 is uniformly dripped on the felt 82 and the brush 83 along the taper pipe 61, the upper surface of the sliding plate workpiece is uniformly brushed by the rolling roller 8 after the sliding plate workpiece on the transmission belt moves and touches the brush 83 which rotates, in practical application, the electromagnetic valve 62 sets the switching time of the electromagnetic valve according to the viscosity of the specific liquid coating material, so that the felt 82 and the brush 83 are ensured to be stained with enough liquid material for brushing, unnecessary waste caused by excessive flow of the liquid material is avoided, the motor 81 of the roller 8 stops rotating after the sliding plate workpiece is brushed, and one-time program control brushing work is completed. The controller 9 performs the brush coating operation in sequence by the linkage roller 8 according to the other slide plate workpieces identified by the line scanning camera 2.

The utility model adopts the traveling seat 4 to drive the lifting seat 5 to move transversely and longitudinally in 2-axis type on the beam 3 of the portal frame 1, the line scanning camera 2 identifies the position of the sliding plate workpiece on the transmission belt, the controller 9 controls the electromagnetic air valve 112 to open and blow away the floating dust on the upper end surface of the sliding plate workpiece through the air pipe 111 and close the electromagnetic air valve 112; the controller 9 controls the lifting seat 5 to move and enables the roller 8 to be aligned to the position of the upper end face of the sliding plate workpiece, meanwhile, the controller 9 controls the roller 8 to rotate and enables the electromagnetic valves 62 above the plurality of rollers 8 to be opened to enable coating liquid in the coating groove 6 to drip on the felt 82 and the brush 83, the sliding plate workpiece is conveyed by the conveyor belt and is uniformly brushed by the brush 83 stained with the liquid coating material in a rolling mode, brushing uniformity is good, traditional manual operation is liberated, efficiency of brushing the sliding plate coating is high, and the sliding plate coating brush is suitable for being used for brushing the sliding plate coating in batch flow line production.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be dominated by the protection scope of the claims.

Claims (8)

1. A device of brushing of anti-oxidant coating which characterized in that: including the portal frame, the portal frame both sides are equipped with the pipe clamp, and the rear side of portal frame is equipped with the tailstock, is equipped with the line scanning camera on the tailstock, is equipped with the crossbeam on the portal frame, is equipped with the travelling seat on the crossbeam, is equipped with the lift seat on the travelling seat, and the lift seat front end is equipped with scribbles the silo, scribbles the even awl calandria that is equipped with in silo lower part, is equipped with the solenoid valve on the awl calandria, and the below of lift seat is equipped with the wheel carrier, is equipped with the gyro wheel in the wheel carrier, and.

2. The brush application device for an oxidation-resistant coating according to claim 1, characterized in that: an air pipe is arranged in the pipe clamp, an electromagnetic air valve is arranged on the air pipe, and the electromagnetic air valve is electrically connected with the controller.

3. The brush application device for an oxidation-resistant coating according to claim 1, characterized in that: the traveling seat, the cross beam and the lifting seat are driven by a servo motor to drive the lead screw, the two servo motors are electrically connected with the controller, the controller controls the traveling seat to transversely slide on the cross beam in a reciprocating mode, and the controller controls the lifting seat to vertically slide on the traveling seat in a reciprocating mode.

4. The brush application device for an oxidation-resistant coating according to claim 1, characterized in that: an upper cover is arranged on the coating groove.

5. The brush application device for an oxidation-resistant coating according to claim 1, characterized in that: the quantity of awl calandria is a plurality ofly, and the quantity of awl calandria equals and supporting the setting with the quantity of solenoid valve, and a plurality of solenoid valves all are connected with controller electric property.

6. The brush application device for an oxidation-resistant coating according to claim 1, characterized in that: the controller is electrically connected with the line scanning camera.

7. The brush application device for an oxidation-resistant coating according to claim 1, characterized in that: the motor on the side of the roller shaft adopts a stepping motor, and the motor is electrically connected with the controller.

8. The brush application device for an oxidation-resistant coating according to claim 1, characterized in that: and the outside of the roller is provided with a felt, and the circumference of the felt is uniformly provided with brushes.

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