KR102444918B1 - Air knife forward and backward device - Google Patents

Abstract

The present invention provides a device for moving an air knife forward and backward, which has the effect of adjusting a gap with a surface of a galvanized steel sheet by moving the air knife forward and backward while maintaining a horizontal state of the air knife. The device for moving an air knife forward and backward comprises: a forward and backward unit (110) configured to move an air knife (20) or gas supply pipe (30) in forward and backward directions to adjust a distance between a surface of a galvanized steel plate and the air knife (20); a driving unit (120) configured to operate the forward and backward unit (110); and an interlocking unit (130) connected to the gas supply pipe (30) to adjust a position and a rotation of the air knife (20) according to forward and backward movements of the air knife (20). In particular, the present invention provides the benefit of accurately measuring and verifying the forward and backward movement distance of the air knife. Additionally, the present invention has the advantage of a simple structure and easy application to the air knife, maximizing a range of applications.

Description

Air knife forward and backward device

The present invention relates to a forward/backward device for an air knife, and more particularly, to a forward/backward device for an air knife capable of adjusting the distance from the surface of a galvanized steel sheet by moving the air knife in the forward and backward directions.

In general, air knives perform air wiping to control the coating amount (plating thickness) by spraying high-pressure gas to the front and rear surfaces of galvanized steel sheets.

However, in the prior art, in order to move the air knife in the front-rear direction, it is necessary to use a positioner which is bulky and requires a large installation space, so there is a problem of lowering work efficiency.

In particular, due to the interference of the gas supply pipe coupled to one or both sides of the air knife, there is a structural problem in that the air knife cannot move forward and backward while maintaining a horizontal state.

In addition, there was a problem that the air knife could not be moved quickly in the front-rear direction according to the change in the specifications of the galvanized steel sheet and the operating conditions.

In addition, since the forward and backward movement position of the air knife cannot be accurately measured and confirmed, there is a problem of lowering the production efficiency.

Domestic Public Utility Model Publication No. 20-1992-0012105 (July 25, 1992) Domestic Registered Utility Model Publication No. 20-0202429 (November 15, 2000) Japanese Patent Application Laid-Open No. 2001-131724 (May 15, 2001) Domestic Patent Publication No. 10-2003-0017111 (March 2003.03.) Domestic Registered Utility Model Publication No. 20-0382147 (2005.04.18.) Domestic Registered Patent Publication No. 10-2012-0032283 (2012.04.05.) Domestic Patent Publication No. 10-2013-0044970 (2013.05.03.) Domestic Registered Patent Publication No. 10-1746549 (2017.06.14.) Domestic Registered Patent Publication No. 10-1866313 (2018.06.14.)

Therefore, the present invention has been devised to solve the conventional problems as described above,

An object of the present invention is to provide an air knife forward and backward device capable of moving in the front and rear directions while maintaining a horizontal state.

In particular, another object of the present invention is to provide a forward/backward device for an air knife capable of accurately measuring the forward and backward movement position of the air knife.

The present invention air knife forward and backward device 100 for achieving the above object,

a forward/backward unit 110 that moves the air knife 20 or the gas supply pipe 30 in the forward and backward directions to adjust the distance between the surface of the galvanized steel sheet and the air knife 20; a driving unit 120 configured to operate the forward and backward unit 110; and an interlocking unit 130 that is connected to the gas supply pipe 30 to adjust the rotation and position according to the forward and backward movement of the air knife 20 .

Here, the forward and backward unit 110 includes a plurality of control bodies 111 formed on both sides of the air knife 20 or on one side of the gas supply pipe 30; a support portion 112 formed on an upper portion of the adjustment body 111; and an induction part 113 which is seated on the upper side of the support part 112 on one lower side of the main body 10 and is formed to be movable in the front-rear direction.

In addition, the driving unit 120 includes a screw shaft 121 for moving in the forward and backward directions according to the rotational direction by screwing the adjustment body 111 of the forward and backward unit 110; a gearbox 122 connected to the rear of the screw shaft 121; an interlocking shaft 123 connected to the gearbox 122; and a driving motor 124 for rotating the interlocking shaft 123 .

In addition, by measuring the number of rotations of the interlocking shaft 123, a distance measuring unit 140 for measuring the forward and backward movement distance of the air knife 20; characterized in that it includes.

At this time, the distance measuring unit 140 includes a measuring means 141 mounted on one side of the interlocking shaft 123; a gearbox 142 connected to the other side of the measuring means 141; a screw shaft 143 formed on the other side of the gearbox 142; a moving body 144 screw-coupled to the screw shaft 143; an indicator 145 formed on one side of the movable body 144; It characterized in that it includes; a pair of detection sensors 146 formed so as to detect the forward and backward stop position of the air knife 20 according to the movement position of the indication unit 145.

On the other hand, the interlocking unit 130 is a rotation guide pipe 41 formed on the outside of the gas supply pipe 30; an interlocking pipe 40 provided on an upper portion of the rotation guide pipe 41 to supply high-pressure gas to the gas supply pipe 30; an interlocking body 131 formed on one lower side of the main body 10; a support sphere 132 formed on the inner side of the interlocking body 131; a rotating sphere 133 formed to rotate in the front-rear direction around the support sphere 132; In the process of moving the air knife 20 in the front-rear direction through the center of the rotating port 133 on the upper part of the interlocking pipe 40, the air knife 20 moves in the vertical direction according to the rotation radius so that the air knife 20 is in a horizontal state. It characterized in that it includes; a position adjustment unit 134 formed so as to maintain the.

The present invention has the effect of controlling the surface and spacing of the galvanized steel sheet by moving the air knife in the front and rear directions while maintaining the horizontal state.

In particular, the present invention has the effect of accurately measuring and confirming the forward and backward movement distance of the air knife.

In addition, the present invention has a simple structure and can be easily applied to an air knife, so it has the effect of maximizing the scope of application.

1 is a front view for showing the configuration of the forward and backward device of the present invention air knife.
Figure 2 is a cross-sectional view taken along line AA of Figure 1;
3 is a cross-sectional view taken along line BB of FIG. 1 .
Figure 4 is a cross-sectional view for showing the configuration of the forward and backward unit and the interlocking unit in the present invention.
5 is a plan view showing the configuration of the distance measuring unit in the present invention.
6 and 7 are reference views for showing the operating state for the forward and backward device of the present invention air knife.

As described above, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view for showing the configuration of the forward/backward device of the present invention air knife, FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1, FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1, and FIG. It is a cross-sectional view to show the configuration of the Jin unit and the interlocking unit, Figure 5 is a plan view for showing the configuration of the distance measuring unit in the present invention, Figures 6 and 7 are the operating state of the forward/backward device of the air knife of the present invention A reference diagram is shown to indicate

The present invention includes a forward and backward unit 110 that moves the air knife 20 or the gas supply pipe 30 in the forward and backward directions to adjust the distance between the surface of the galvanized steel sheet and the air knife 20; a driving unit 120 configured to operate the forward and backward unit 110; and an interlocking unit 130 that is connected to the gas supply pipe 30 to adjust the rotation and position according to the forward and backward movement of the air knife 20 .

In particular, the air knife 20 and the gas supply pipe 30 are located at the lower part of the main body 10 to receive high-pressure gas from the outside and spray the high-pressure gas to the surface of the galvanized steel sheet through the air knife 20 . have.

Here, the configuration and operating principle of the air knife 20 and the gas supply pipe 30 are well-known techniques widely used in the art, and thus detailed description will be omitted.

On the other hand, the forward/backward unit 110 may control the plating amount by moving the air knife 20 or the gas supply pipe 30 in the forward and backward directions to adjust the distance from the surface of the galvanized steel sheet.

The forward/backward unit 110 includes a plurality of control bodies 111 formed on both sides of the air knife 20 or on one side of the gas supply pipe 30 as shown in FIG. 2 ; a support portion 112 formed on an upper portion of the adjustment body 111; and an induction part 113 seated on the upper side of the support part 112 on one lower side of the main body 10 to be movable in the front-rear direction.

At this time, the control body 111 is formed on both sides of the air knife 20 or is formed on one side of the gas supply pipe 30, respectively, and moves in the front-rear direction, as a result, the air knife 20 can be moved in the front-rear direction. .

In particular, the support part 112 and the guide part 113 are made of a workpiece such as rails and rollers or LM guides so that the adjustment body 111 can move in the front and rear directions based on the direction facing the surface of the galvanized steel sheet. And it is possible to use a moving means having various shapes and standards, such as LM blocks.

In addition, the driving unit 120 serves to move the air knife 20 in the forward and backward direction by operating the forward and backward unit 110 .

As shown in FIGS. 1 and 2, the driving unit 120 is screwed with the adjusting body 111 of the forward and backward unit 110 and a screw shaft 121 for moving in the forward and backward directions according to the rotational direction. ; a gearbox 122 connected to the rear of the screw shaft 121; an interlocking shaft 123 connected to the gearbox 122; a driving motor 124 for rotating the interlocking shaft 123;

Here, the screw shaft 121 may be formed to face the surface of the galvanized steel sheet to move the adjusting body 111 in the front-rear direction according to the rotational direction.

In particular, the gearbox 122 transmits a driving force to simultaneously operate the plurality of adjustment bodies 111 and the screw shaft 121 screwed together.

In this case, the gearbox 122 may use various shapes and specifications that can change the direction of the driving force, such as a mighty gearbox.

In addition, the interlocking shaft 123 may smoothly transmit the rotational force of the driving motor 124 to the gearbox 122 using a universal joint or the like.

In addition, the drive motor 124 uses a double-axis type to connect the interlocking shaft 123 to one shaft, and a handle to the other shaft, so that the operator rotates the handle during a power outage or maintenance process to the drive motor 124 . can be manually operated to move the air knife 20 in the front-rear direction.

In the present invention, the interlocking unit 130 is connected to the main body 110 to supply high-pressure gas to the air knife 20, and the air knife 20 does not rotate in the vertical direction and moves in the front-rear direction while maintaining a horizontal state. It plays a very important role in inducing

The interlocking unit 130 includes a rotation guide pipe 41 formed on the outside of the gas supply pipe 30 as shown in FIG. 4 ; an interlocking pipe 40 provided on an upper portion of the rotation guide pipe 41 to supply high-pressure gas to the gas supply pipe 30; an interlocking body 131 formed on one lower side of the main body 10; a support sphere 132 formed on the inner side of the interlocking body 131; a rotating sphere 133 formed to rotate in the front-rear direction around the support sphere 132; In the process of moving the air knife 20 in the front-rear direction through the center of the rotating hole 133 on the upper part of the interlocking pipe 40, the air knife 20 moves in the vertical direction according to the rotation radius so that the air knife 20 is in a horizontal state. It includes; a position adjustment unit 134 formed to maintain the.

In particular, the rotation guide pipe 41 is formed so that the gas supply pipe 30 can rotate in the process of moving the air knife 20 in the front-rear direction so that the air knife 20 does not rotate in the vertical direction and maintains a horizontal state. induce you to

In this case, a sealing member having various shapes and specifications for securing airtightness at a portion where the rotation guide pipe 41 and the gas supply pipe 30 abut against each other may be included.

In addition, the support sphere 132 and the rotating sphere 133 assist the interlocking pipe 40 to rotate in the front-rear direction while the air knife 20 moves in the front-rear direction.

Here, the outer surface of the rotating sphere 133 is formed in a spherical shape to serve as a center so that the interlocking pipe 40, the gas supply pipe 30, and the air knife 20 can rotate in the front-rear direction.

On the other hand, the support sphere 132 is formed to surround the outer surface of the pivoting sphere 133 to assist the pivoting sphere 133 to rotate smoothly.

In addition, the support sphere 132 and the rotating sphere 133 may be formed to have various shapes and configurations.

And when the position adjusting unit 134 rotates the interlocking pipe 40 and the air knife 20 in the front and rear directions around the rotation port 133, the angle of the air knife 20 in the vertical direction is not changed. It is guided to move forward and backward while maintaining a horizontal state.

That is, when the angle of the interlocking tube 40 and the air knife 20 is changed in the vertical direction by the rotation radius while moving in the front and rear directions around the rotation port 133, the position adjusting unit 134 moves up and down. The position can be adjusted so that the air knife 20 can maintain a horizontal state while moving in the direction.

In this case, a sealing member having various shapes and specifications for securing airtightness at a portion where the rotating member 133 and the position adjusting unit 134 abut against each other may be included.

In particular, the expansion tube 135 is formed to surround between the interlocking body 131 and the interlocking tube 40 to prevent the inflow of foreign substances and to be expandable and contractible according to the rotation and position of the interlocking tube 40 . ); may be included.

Meanwhile, the position adjusting unit 134 may deliver the high-pressure gas supplied through the main body 10 in the form of a pipe to the air knife 20 through the interlocking pipe 40 and the gas supply pipe 30 .

In addition, by measuring the number of rotations of the interlocking shaft 123, a distance measuring unit 140 for measuring the forward and backward movement distance of the air knife 20; includes.

The distance measuring unit 140 includes a measuring means 141 mounted on one side of the interlocking shaft 123 as shown in FIG. 5; a gearbox 142 connected to the other side of the measuring means 141; a screw shaft 143 formed on the other side of the gearbox 142; a moving body 144 screw-coupled to the screw shaft 143; an indicator 145 formed on one side of the movable body 144; It includes; a pair of detection sensors 146 formed to detect the forward and backward stop position of the air knife 20 according to the movement position of the indication unit 145 .

In particular, the measuring means 141 may use an encoder or the like, and may transmit the angle measured by wire or wirelessly to the cab.

Here, the measuring means 141 is formed in a double-axis type, so that one shaft is connected to the interlocking shaft 123 , and the other shaft is connected to the gearbox 142 .

In addition, the gearbox 142 may use a mighty gearbox or the like.

At this time, the screw shaft 143 serves to move the movable body 144 according to the rotation direction of the interlocking shaft 123 .

On the other hand, the movable body 144 is screwed with the screw shaft 143 to move the indicator 145 to measure it through the detection sensor 146 .

In particular, the detection sensor 146 may form at least two or more to detect the position of the indicator 145 and determine the stop position in the process of moving the air knife 20 in the front and rear direction.

Here, the detection sensor 146 may use a contact type or non-contact type sensor.

Accordingly, in the present invention, as shown in FIG. 6 , by moving the control body 111 in the front and rear directions by the operation of the driving unit 120, the air knife 20 and the surface and the distance between the galvanized steel sheet can be adjusted.

At this time, as shown in FIG. 7 , the interlocking pipe 40 and the air knife 20 rotate in the front-rear direction around the rotating port 133 at the same time while the control body 111 moves in the front-rear direction. Here, since the position adjusting unit 134 adjusts the position while moving in the vertical direction according to the moving position of the adjusting body 111, the air knife 20 maintains a horizontal state without changing the angle in the vertical direction. can move forward and backward.

In particular, since the air knife 20 is in a state in which the gas supply pipe 30 is coupled to be idle in the center of the rotation guide pipe 41, the control body 111 can maintain a horizontal state in the process of moving in the front-rear direction.

As described above, the embodiment of the present invention has been described in detail, but the scope of the present invention is not limited thereto, and the scope of the present invention is included to the extent that it is substantially equivalent to the embodiment of the present invention. Of course.

10: body 20: air knife
30: gas supply pipe 40: peristaltic pipe
41: rotation guide tube
100: forward and backward device of the present invention air knife
110: forward and backward unit 111: control body
112: support 113: induction part
120: drive unit 121: screw shaft
122: gearbox 123: interlocking shaft
124: drive motor 130: interlocking unit
131: interlocking body 132: support
133: hoedonggu 134: position control unit
135: expansion tube
140: distance measuring unit 141: measuring means
142: gearbox 143: screw shaft
144: mobile body 145: indicator
146: detection sensor

Claims (6)

The air knife 20 or the gas supply pipe 30 located in the lower part of the main body 10 is moved in the forward and backward directions so that the distance between the surface of the galvanized steel sheet and the air knife 20 can be adjusted. ); a driving unit 120 configured to operate the forward and backward unit 110; An interlocking unit 130 that is connected to the gas supply pipe 30 to adjust the rotation and position according to the forward and backward movement of the air knife 20; but, the interlocking unit 130 includes a gas supply pipe ( 30) a rotation guide tube 41 formed on the outside; an interlocking pipe 40 provided on an upper portion of the rotation guide pipe 41 to supply high-pressure gas to the gas supply pipe 30; an interlocking body 131 formed on one lower side of the main body 10; a support sphere 132 formed on the inner side of the interlocking body 131; a rotating sphere 133 formed to rotate in the front-rear direction around the support sphere 132; In the process of moving the air knife 20 in the front-rear direction through the center of the rotating port 133 on the upper part of the interlocking pipe 40, the air knife 20 moves in the vertical direction according to the rotation radius so that the air knife 20 is in a horizontal state. A forward and backward device of the air knife, characterized in that it comprises; The method according to claim 1, The forward and backward unit 110 is a plurality of control bodies 111 formed on both sides of the air knife (20) or one side of the gas supply pipe (30); a support portion 112 formed on an upper portion of the adjustment body 111; The air knife forward/backward device, characterized in that it includes; an induction part 113 which is seated on the upper part of the support part 112 on one lower side of the main body 10 and is formed to move in the front-rear direction. The method according to claim 1, wherein the driving unit 120 is a screw shaft 121 for moving in the front-rear direction according to the rotational direction by screwing the adjustment body 111 of the forward/backward unit 110; a gearbox 122 connected to the rear of the screw shaft 121; an interlocking shaft 123 connected to the gearbox 122; A drive motor 124 for rotating the interlocking shaft 123; Air knife forward and backward device comprising a. The air knife according to claim 3, further comprising: a distance measuring unit 140 configured to measure the number of rotations of the interlocking shaft 123 to measure the forward and backward movement distance of the air knife 20; of the forward and backward devices. The method according to claim 4, The distance measuring unit 140 is a measuring means 141 mounted on one side of the interlocking shaft 123; a gearbox 142 connected to the other side of the measuring means 141; a screw shaft 143 formed on the other side of the gearbox 142; a moving body 144 screw-coupled to the screw shaft 143; an indicator 145 formed on one side of the movable body 144; Air knife forward and backward device comprising a; a pair of detection sensors (146) formed to detect the forward and backward stop position of the air knife (20) according to the movement position of the indicator (145). delete

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