KR101245705B1 - Apparatus for removing dust of oiler - Google Patents

Abstract

Oiler's debris removal device is introduced to quickly remove dust and debris from the oil injection hole of the oil injection nozzle. The oil removal device of the oiler is disposed parallel to the width direction of the oil spray nozzle 710 and rotated by the operation of the driving motor 110, and the air disposed to face the oil spray nozzle 710. An air injection unit 200 provided with a knife 230 and installed to be movable along the transfer screw 100, and an air supply tube connected to the air injection unit 200 to provide air to the air knife 230. 300 and the movement detection sensor 400 for detecting the air injection unit 200 moving to both ends of the oil injection nozzle 710 and the driving motor 110 according to the detection signal of the movement detection sensor 400. It is configured to include a controller 500 for converting the operating direction of the reverse direction or stop the drive motor 110.

Description

Euler debris removal device {APPARATUS FOR REMOVING DUST OF OILER}

The present invention relates to an apparatus for removing foreign substances from oilers, and more particularly, in an oil ring processing technique for applying oil to strips, oil non-coating on a strip by quickly removing dust and foreign matter from oil spray holes of oil spray nozzles. The present invention relates to an oiler's foreign material removal device capable of preventing stains from occurring.

In general, the oiler apparatus used in the exit process of the steelworks plating process line includes an oil tank for storing oil, an oil supply pump for supplying and circulating oil from the oil tank to the oil spray nozzle, and adjusting the temperature of the oil spray nozzle. It consists of a heating device for improving quality and an oil spray nozzle for spraying and spray coating oil on a strip.

Among these, the oil spray nozzle is composed of first and second blades 4 and 5 for spraying and spray coating the oil through the oil spray holes 6, as shown in FIGS. By applying an oil or the like uniformly on the strip by the desired electrostatic coating method, the strip is protected from corrosion, scratches, etc. of the coil.

Particularly, if an oil uncoated stain occurs due to foreign matter on the blade of the oil spray nozzle during the normal oil ring processing, the operation of the oil sprayer is stopped and the oil spray nozzle is imported. That is, after opening the oiler equipment shooter with the oiler panel switched from the auto mode to the manual mode, move the oiler from the line to the out position, open the door by unlocking the oiler door from the locker, and then open the oiler using the earth bar. The equipment is grounded, the safety pins of the oil spray nozzles are removed, the blades are pulled out of the oiler body, and the blades are pulled out of the oiler body and imported into the blades using an air discharge device or a 0.05mm thin plate. If the import is not complete, the import is repeated several times. When the manual import is completed, the assembly is reversed and the oiler is introduced into the line to oil the strip.

However, in the case of the prior art, a lot of time is required for the import work, a product defect is generated by a considerable amount of untreated oil, and there are problems that a lot of work load is generated because the workers work together.

SUMMARY OF THE INVENTION An object of the present invention for solving this problem is to provide an oil foreign material removal device that can quickly remove dust and foreign substances in the oil spray hole of the oil spray nozzle to prevent the occurrence of oil uncoated stains on the script. It is.

In order to achieve the above object, the oil removal device of the oiler according to the present invention is an oil removal device of the oiler for removing the foreign matter from the oil injection hole of the oil injection nozzle, the transfer screw, air injection unit, air supply tube, moving It includes a sensor and a controller, the conveying screw is disposed in parallel to the width direction of the oil spray nozzle is rotated by the operation of the drive motor, the air spray unit is provided with an air knife disposed opposite to the oil spray nozzle It is installed to move along the transfer screw, an air supply tube is connected to the air injection unit to provide air to the air knife, the movement detection sensor detects the air injection unit to move to both ends of the oil injection nozzle And, the controller reverses the operation direction of the drive motor in accordance with the detection signal of the motion sensor To ring or to stop the drive motor.

Preferably, the air spraying unit is a moving housing that is engaged with the transfer screw to move along the transfer screw, an air distribution housing connected to the mobile housing via a connecting frame and in communication with the air supply tube, and the oil And an air knife connected to the air dispensing housing to inject air toward the oil spray hole of the jet nozzle.

Preferably, the movement detection sensor is a first detection sensor installed at one end of the oil injection nozzle to move the air injection unit moved to one end of the oil injection nozzle, and moves to the other end of the oil injection nozzle And a second detection sensor installed at the other end of the oil injection nozzle to detect the air injection unit, wherein the controller changes the operation direction of the driving motor in a reverse direction when the detection signal of the first detection sensor is applied. The operation signal is applied to the drive motor, and when the detection signal of the second detection sensor is applied, a stop signal for stopping the operation of the drive motor and the air supply tube is applied to the drive motor and the air supply tube.

Preferably, the first detection sensor and the second detection sensor are contact sensors for applying a detection signal when the air injection unit is in contact.

Preferably, one end of the transfer screw is connected to a screw block supported by the first fixing bracket on which the first detection sensor is mounted, and the other end of the transfer screw is connected to the second fixing bracket on which the second detection sensor is mounted. It is connected to the drive motor supported by the drive.

Preferably, the controller applies an operation signal for changing the operation direction of the driving motor to the reverse direction when the detection signal of the first detection sensor is applied, and the driving motor when the detection signal of the second detection sensor is applied. And a stop signal for stopping the operation of the air supply tube and the operation of the air supply tube.

According to the present invention, when the oil-spray nozzles are filled with foreign substances such as dust, and oil uncoated stains are generated on the strip, the oil spray nozzles are sprayed with air to the left and right sides of the oil-spray nozzles of the oil-spray nozzles, thereby importing the oil-spray nozzles in the oiler line-in state. The advantage is that the work can be done quickly. In particular, through this, foreign matters are not generated due to the foreign matter in the oil injection hole is not generated unoiled, it is possible to automatically import work can be improved work efficiency.

1 is a block diagram showing a Euler device according to the prior art.
FIG. 2 is a side cross-sectional view of the oiler device in FIG. 2;
Figure 3 is a block diagram showing a foreign substance removal device of the oiler according to the present invention.
FIG. 4 is a side cross-sectional view of the AA line of FIG. 3;

In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

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

As shown in Figures 3 to 4, the oil removal device of the oiler according to the present invention, while moving to the left and right direction of the oil spray nozzle 710, the air is quickly injected into the oil spray hole 711 is foreign matter By spraying, the import operation of the oil spray nozzle 710 can be quickly proceeded, and the occurrence of oil unprocessed defects due to foreign substances in the oil spray hole 711 can be prevented.

In order to implement this, the present invention is an air spray unit for injecting air to the oil spray nozzle 710 while moving along the conveying screw 100 and the conveying screw 100 disposed in the width direction of the oil spray nozzle 710 200, an air supply tube 300 for supplying air to the air spray unit 200, a movement sensor 400 for detecting movement of the air spray unit 200, and a controller for controlling these configurations ( 500). Here, the oil spray nozzle 710 is composed of a first blade 710a and a second blade 710b assembled with the oil spray hole 711 interposed therebetween, and the oil spray nozzle 710 is a conventional oil spray nozzle. Since the same as the nozzle, a detailed description thereof will be omitted.

Specifically, the transfer screw 100 according to the present invention is a structure that is rotated when the drive motor 110 is operated, the air spray unit 200 through the rotation of the transfer screw 100 is left and right of the oil spray nozzle 710 To move in a direction.

To this end, the transfer screw 100 is disposed side by side in the width direction of the oil spray nozzle 710, the one end is rotatably connected to the screw block 630 supported by the first fixing bracket 610, The other end is driven and connected to the drive motor 110 and the coupling supported by the second fixing bracket 620.

The air injection unit 200 is engaged with the outer circumference of the transfer screw 100 to move in the longitudinal direction of the transfer screw 100 when the transfer screw 100 rotates. At this time, one side of the air injection unit 200, more specifically, the moving housing 210 to be described later is provided with a rail piece 260 for guiding the movement of the air injection unit 200. The rail piece 260 is configured to be coupled to the rail plate 740 installed on the second blade 710b of the oil spray nozzle 710, and moves along the rail plate 740 when the air spray unit 200 moves. do.

The air spraying unit 200 is engaged with the transfer screw 100 and moves through the moving housing 210 and the connecting frame 240 which are moved in the longitudinal direction of the transfer screw 100 when the transfer screw 100 rotates. The air dispensing housing 220 connected to the housing 210 and the air knife 230 for injecting air toward the oil spray hole 711 of the oil spray nozzle 710.

Here, a chamber into which air is introduced is provided in the air distribution housing 220, and an air knife 230 and an air supply tube 300 connected to the chamber are connected to upper and lower ends of the air distribution housing 220, respectively. At both ends of the air distribution housing 220, guide plates 270 are provided to guide movement to both ends of the oil injection nozzle 710, and the air injection unit 200 is provided at the side of the air distribution housing 220. When moving in both directions, the touch table 250 which is in contact with the first detection sensor 410 and the second detection sensor 420 which will be described later is provided.

The movement detecting sensor 400 is for detecting the air spray unit 200 moving to both ends of the oil spray nozzle 710, and the first fixing bracket 610 installed at one end of the oil spray nozzle 710. The first detection sensor 410 is fixed to, and the second detection sensor 420 is fixed to the second fixing bracket 620 installed on the other end side of the oil spray nozzle 710. The first detection sensor 410 detects the air injection unit 200 moved to one end of the oil injection nozzle 710 and then applies a corresponding detection signal to the controller 500, the second detection sensor 420 Detects the air spray unit 200 moved to the other end of the oil spray nozzle 710 and then applies a corresponding detection signal to the controller 500.

The controller 500 converts the operation direction of the driving motor 110 in the reverse direction or stops the driving motor 110 through the detection signal applied from the movement detecting sensor 400. For example, when the detection signal is applied from the first detection sensor 410, the controller 500 applies an operation signal for changing the operation direction of the driving motor 110 to the reverse direction to the driving motor 110, and the second detection sensor ( When the detection signal is applied from the 420, a stop signal for stopping the operation of the drive motor 110 is applied to the drive motor 110, and a stop signal for stopping air supply is applied to the air valve 310. .

Accordingly, the air injection unit 200 is moved in the left direction of FIG. 3 by the rotation of the transfer screw 100 according to the initial operation of the drive motor 110, and then the drive motor 110 by the controller 500. If the operating direction of the reverse direction, the transfer screw 100 is moved in the right direction of Figure 3 by the reverse rotation, when the operation of the drive motor 110 by the controller 500 is stopped, the air injection unit 200 Movement of the air supply tube 300 is also stopped.

Hereinafter, the operation of the present invention will be described.

When the oil uncoated stain is generated on the strip, the air valve 310 is operated to supply air through the air supply tube 300, and the driving motor 110 is operated to rotate the transfer screw 100.

When the feed screw 100 is rotated, the touch table 250 and the second detection sensor 420 located on the right side of the air spray unit 200 are separated from each other, and the air spray unit 200 engaged with the feed screw 100 is rotated. The moving housing 210 is guided by the rail plate 740 via the rail piece 260 to move in the left direction of FIG. 3. At this time, the air injection unit 200 supplied with the air through the air supply tube 300, by injecting air to the oil injection hole 711 of the oil injection nozzle 710 through the air knife 230, the oil injection hole Remove the foreign matter on (711).

Then, when the touch table 250 and the first detection sensor 410 located on the right side of the air injection unit 200 are in contact with each other, the first detection sensor 410 applies the corresponding detection signal to the controller 500. At this time, the controller 500 moves the air injection unit 200 to the right direction of FIG. 3 by applying an operation signal for changing the operation direction to the reverse direction to the driving motor 110.

Next, when the touch table 250 and the second detection sensor 420 positioned on the left side of the air injection unit 200 contact each other, the second detection sensor 420 applies the corresponding detection signal to the controller 500. . When the detection signal of the second detection sensor 420 is applied to the controller 500, the controller 500 applies a stop signal for stopping the operation of the driving motor 110 to the driving motor 110 and at the same time, By applying a stop signal for stopping the supply to the air valve 310, the foreign matter removal operation on the oil injection hole 711 of the oil injection nozzle 710 is completed.

Although the present invention has been described in detail using the preferred embodiments, the scope of the present invention is not limited to the specific embodiments, and should be interpreted by the appended claims. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention.

100: feed screw 200: air spray unit
300: air supply tube 400: movement detection sensor
500: controller

Claims (6)

As a debris removal device of an oiler for removing debris from the oil injection hole 711 of the oil injection nozzle 710,
A transfer screw 100 disposed side by side in the width direction of the oil spray nozzle 710 and rotated by the operation of the driving motor 110;
An air spray unit 200 provided with an air knife 230 disposed to face the oil spray nozzle 710 so as to be movable along the transfer screw 100;
An air supply tube 300 connected to the air injection unit 200 to provide air to the air knife 230;
A movement detecting sensor 400 for detecting the air spray unit 200 moving to both ends of the oil spray nozzle 710; And
Euler's debris removal device including a controller 500 for converting the operation direction of the drive motor 110 in the reverse direction or stop the drive motor 110 according to the detection signal of the movement sensor 400. The method according to claim 1,
The air injection unit 200 is connected to the moving housing 210 via a moving housing 210 which is engaged with the transfer screw 100 and a connecting frame 240 so as to move along the transfer screw 100. And air connected to the air distribution housing 220 so that air is injected toward the oil injection hole 711 of the oil injection nozzle 710 and the air distribution housing 220 communicating with the air supply tube 300. Oiler debris removal device comprising a knife (230). The method according to claim 1,
The movement detecting sensor 400 is a first detection sensor 410 which is installed at one end of the oil spray nozzle 710 to detect the air spray unit 200 moved to one end of the oil spray nozzle 710. And a second detection sensor 420 installed at the other end of the oil spray nozzle 710 to detect the air spray unit 200 moved to the other end of the oil spray nozzle 710. Oiler foreign material removal device characterized in that. The method according to claim 3,
The first detection sensor 410 and the second detection sensor 420 is a foreign material removal device of the oiler, characterized in that the contact sensor for applying a detection signal when the air injection unit 200 contacts. The method according to claim 3,
One end of the transfer screw 100 is connected to the screw block 630 supported by the first fixing bracket 610 on which the first detection sensor 410 is mounted, and the other end of the transfer screw 100 is The foreign matter removal apparatus of the oiler, characterized in that the drive is connected to the drive motor 110 is supported by the second fixing bracket 620 is equipped with a second detection sensor (420). The method according to claim 3,
The controller 500 applies an operation signal for changing the operation direction of the drive motor 110 in the reverse direction when the detection signal of the first detection sensor 410 is applied to the drive motor 110, and the second detection. When the detection signal of the sensor 420 is applied, a stop signal for stopping the operation of the driving motor 110 and the operation of the air supply tube 300 is applied to the driving motor 110 and the air supply tube 300. The oil removal device of oiler.

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