KR101566216B1 - Device adjusting width of airknife improving operating efficiency - Google Patents

Abstract

A device for adjusting a width of an air knife having excellent operating efficiency according to the present invention comprises: a drive member (100) installed on both sides of an air knife (10); and a blocking member (200) to move to the inside or the outside in a longitudinal direction of the air knife (10) by an operation of the drive member (100), and adjust a blocking range of a spray hole (11). When the air knife (10) is viewed from above, the blocking member (200) fixes one end of a front end portion (210) thereof on the outside of the air knife (10) to move the air knife (10) in the spray hole (11) along the longitudinal direction to the outside or the inside and adjust the blocking range of the spray hole (11), and a rear end portion (220) circulates from the other end of the front end portion (210) to the outside of the air knife (10) to connect the rear end portion (220) to the drive member (100). The present invention minimizes collision resistance between the blocking member and high pressure air to smoothly move the blocking member to the inside or the outside of the air knife to maximize blocking efficiency of the high pressure air. In addition, the present invention smoothly winds or unwinds the blocking member to smoothly adjust a spray range of the high pressure air. Specifically, the present invention accurately measures a moving position of the blocking member to adjust the spray range of the high pressure air of the air knife.

Description

[0001] The present invention relates to a device for adjusting the width of an air knife,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a device for varying the width of an air knife having a high operating efficiency, and more particularly, The present invention relates to an apparatus for varying the width of an air knife.

Generally, the device for varying the width of an air knife uses various types of blocking members for adjusting the injection range of a high-pressure gas injected through an air knife.

However, in the case of the conventional shielding member having an antenna shape, a step is formed in a portion where a plurality of circular tubes are in contact with each other, so that vibration occurs due to collision of the high pressure gas, and a plurality of circular tube diameters are different from each other. I have a serious problem that I can not.

In addition, in the case of a conventional plate member having a plate shape, resistance and vortex are generated while high pressure gas naturally collides without passing through the surface, resulting in severe vibration and piercing noise.

Recently, a blocking member having an elasticity having a circular cross section has been used. However, when the valve is moved inward or outward in the course of injecting a high-pressure gas, the smooth movement is restricted by the resistance generated by colliding with the high-pressure gas, Can not be precisely controlled.

Korean Patent No. 10-0613893 (2006.08.22) Japanese Unexamined Patent Publication No. 2006-274381 (October 12, 2006) Korean Patent Laid-Open No. 10-2012-0067146 (Jun. 25, 2012) Korean Patent Publication No. 10-2013-0063591 (June 17, 2013) Korean Patent No. 10-1483432 (Feb. 21, 2015)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

An object of the present invention is to provide a device for varying the width of an air knife having an excellent operation efficiency that can smoothly control the injection range of a high-pressure gas by minimizing the resistance generated when the blocking member collides with the high-pressure gas during the movement.

It is another object of the present invention to provide a device for varying the width of an air knife, which is capable of smoothly moving the blocking member outwardly or inwardly along the longitudinal direction of the air knife.

In order to achieve the above object, there is provided an apparatus for varying the width of an air knife,

A driving member 100 installed on both sides of the air knife 10; And a blocking member 200 for adjusting the blocking range of the injection hole 11 while moving in the longitudinal direction of the air knife 10 by the operation of the driving member 100. [ As a result,

When the air knife 10 is viewed in a planar state, the blocking member 200 fixes one end of the tip end portion 210 to the outside of the air knife 10, And the rear end 220 is connected to the driving member 100 by circulating the air knife 10 outward from the other end of the distal end portion 210 .

When the air knife 10 is viewed in a cross-sectional state, the blocking member 200 closely contacts the inside of the spray hole 11 to block the high pressure gas, and the rear end 220 is in contact with the spray hole 11, (11), so that collision with the high-pressure gas can be minimized.

At this time, a supporting jaw 13 having a predetermined height is formed at the rear of the injection hole 11 so as to be in contact with the rear end 220 and to allow the high-pressure gas to pass without colliding with the rear end 220 .

In particular, an insertion groove 14 is formed at one side of the support jaw 13 so that the rear end 220 can be inserted therein.

The driving member 100 includes a body 110 installed at one side of the air knife 10; A drum 120 rotatably mounted on a central shaft 121 formed at an intermediate portion of the body 110, the drum 120 having an outer diameter for winding the blocking member 200; A spring 130 formed on one side of the drum 120; A rotating member 140 formed at a front side of the body 110 to pull or push the blocking member 200; And a positioning member 150 formed at a rear side of the body 110 to set an initial position for winding or unscrewing the blocking member 200.

A support 131 is provided on the other side of the body 110 and a first support 132 is formed on the outer side of the support 131 to support the outer side of the first 130, And a second support portion 133 for supporting the inside of the support base 131 in contact with the inner side surface of the spring 130 is formed.

The rotation member 140 includes a driving motor 141 formed at a front side of the body 110; A driving gear 142 mounted on a rotating shaft of the driving motor 141; At least one first rotary gear (143) installed on the other side of the body (110) so as to be rotatable in engagement with the driving gear (142); A first moving pulley 144 formed at one side of the first rotating gear 143 and contacting the surface of the blocking member 200; At least one second rotary gear 145 for engaging with and rotating with the first rotary gear 143; And a second moving pulley 146 formed at one side of the second rotating gear 145 so as to be in contact with the surface of the blocking member 200.

The auxiliary body 147 is provided at one side of the auxiliary body 147 so that the auxiliary body 147 can be rotated in the left and right direction around the pivot shaft 147a formed at the other side of the body 110, 145 and a second moving pulley 146. The other end of the auxiliary body 147 abuts against a support 149 formed on the other side of the body 110 to support the auxiliary body 147 And a control valve 148 for controlling the opening / closing valve.

The positioning member 150 includes a moving body 151 formed with a long hole 151a at one side thereof and installed to be movable in a lateral direction at a rear side of the body 110; And a rotation shaft 152 formed on the other side of the moving body 151 so as to be rotatable around the rotation shaft 152. The rotation shaft 152 is engaged with a center gear 123 provided at an intermediate portion of the center shaft 121, (153); And a sensor 154 formed on one side of the moving body 151 for measuring the number of revolutions of the interlocking gear 153.

The present invention minimizes the impact resistance between the blocking member and the high-pressure gas, thereby moving the blocking member smoothly to the inside or outside of the air knife, thereby maximizing the blocking efficiency of the high-pressure gas.

Further, the present invention has the effect of smoothly controlling the injection range of the high-pressure gas by smoothly winding or loosening the blocking member.

Particularly, the present invention has the effect of accurately measuring the moving position of the blocking member and adjusting the high-pressure gas injection range of the air knife.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view for showing a structure of a device for varying the width of an air knife having an excellent operating efficiency according to the present invention; FIG.
2 is a sectional view taken along the line AA in Fig.
FIGS. 3 and 4 are cross-sectional views illustrating an operating state of the blocking member in the present invention. FIG.
5 is a perspective view showing a structure of a driving member according to the present invention;
6 is a front view for showing a structure of a driving member in the present invention.
7 is a rear view showing the structure of a driving member in the present invention.
8 is a reference diagram for illustrating a structure of a positioning member in the present invention.

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

FIG. 2 is a cross-sectional view taken along the line AA of FIG. 1, and FIGS. 3 and 4 are views for explaining the operation state of the shutoff member in the present invention FIG. 5 is a perspective view showing a structure of a driving member in the present invention, FIG. 6 is a front view showing a structure of a driving member in the present invention, and FIG. 7 is a front view FIG. 8 is a reference view showing the structure of the positioning member in the present invention. FIG.

The present invention relates to an air knife (10), comprising: a driving member (100) installed on both sides of an air knife (10); And a blocking member 200 for adjusting the blocking range of the injection hole 11 while moving in the longitudinal direction of the air knife 10 by the operation of the driving member 100. [ As a result,

When the air knife 10 is viewed in a planar state, the blocking member 200 fixes one end of the tip end portion 210 to the outside of the air knife 10, And the rear end 220 is connected to the driving member 100 by circulating the air knife 10 at the other end of the front end 210 in the outer direction of the air knife 10.

In the present invention, when the blocking member moves inward or outward from the inside of the injection hole 11 as in the conventional art, the blocking member 200 collides with the high-pressure gas to increase the resistance and can not smoothly move, In order to solve this problem,

And particularly plays a very important role for smoothly moving the inside of the injection hole 11 to the inside or outside and smoothly controlling the shutoff range of the high-pressure gas while minimizing the resistance caused by collision with the high-pressure gas.

2, the blocking member 200 includes a front end portion 210 for blocking the injection hole 11 and an operation portion 210 for operating the driving member 100 in a state of being connected to the front end portion 210. [ The rear end 220 for adjusting the cut-off range of the high-pressure gas by pushing or pulling the front end 210 is formed in a "⊂" shape as a whole.

3, when the air knife 10 is viewed in a cross-sectional view, the distal end portion 210 abuts against the injection hole 11 to block the high-pressure gas, and the rear end portion 220 blocks the injection hole 11 so as to smoothly move the tip end portion 210 inward or outward in the longitudinal direction of the injection hole 11 while minimizing collision with the high pressure gas to adjust the cutoff range of the high pressure gas.

The front end portion 210 and the rear end portion 220 are integrally formed so as to be bent in the form of a ⊂, and a blocking member or spring disposed in front of the front end portion 210 and the rear end portion 220 according to the blocking range of the injection hole 11, 200 are divided into a front end portion 210 and a rear end portion 220. The blocking member 200 moves rearward without colliding with the high pressure gas in a folded state.

At this time, the distal end portion 210 is fixed to the outer side of the air knife 10 using a fastener 12 such as a bolt and a clamp.

The protective member 230 may be connected between the outer side of the air knife 10 and the driving member 100 and the blocking member 200 may be inserted into the protective pipe 230 to prevent damage.

As shown in FIG. 3, a support protrusion 13 having a predetermined height may be formed behind the injection hole 11, which is in contact with the rear end 220, and a high- So as to pass without colliding with the end portion 220.

At this time, as shown in FIG. 4, the insertion groove 14 may be formed at one side of the support jaw 13 so that the rear end 220 is inserted therein and does not move.

The driving member 100 also serves to move the blocking member 200 inward or outward in the longitudinal direction of the air knife 10.

As shown in FIG. 5, the driving member 100 for this purpose includes a body 110 installed at one side of the air knife 10; A drum 120 rotatably mounted on a central shaft 121 formed at an intermediate portion of the body 110, the drum 120 having an outer diameter for winding the blocking member 200; A spring 130 formed on one side of the drum 120; A rotating member 140 formed at a front side of the body 110 to pull or push the blocking member 200; And a positioning member 150 formed at a rear side of the body 110 to set an initial position for winding or unscrewing the blocking member 200.

A support 131 is provided on the other side of the body 110 and a first support 132 is formed on the outer side of the support 131 to support the outer side of the first 130, A second support portion 133 for supporting the inner side of the spring 130 is formed inside the support 131 so that the spring 130 rotating simultaneously with the drum 120 is wound or unfolded It can be supported so as not to be further outwardly or inwardly in the process.

An encoder 122 may be installed at one side of the central shaft 121 to measure the rotational speed of the drum 120 to check the moving distance of the blocking member 200.

Particularly, the spring 130 secures an elastic force to prevent the drum 120 from idling, so that the blocking member 200 can be reliably unwound or wound.

Meanwhile, the rotary member 140 includes a driving motor 141 formed at a front side of the body 110; A driving gear 142 mounted on a rotating shaft of the driving motor 141; At least one first rotary gear (143) installed on the other side of the body (110) so as to be rotatable in engagement with the driving gear (142); A first moving pulley 144 formed at one side of the first rotating gear 143 and contacting the surface of the blocking member 200; At least one second rotary gear 145 for engaging with and rotating with the first rotary gear 143; And a second moving pulley 146 formed at one side of the second rotating gear 145 and contacting the surface of the blocking member 200.

The first moving pulley 144 and the second moving pulley 146 may be made of a synthetic resin material so as to smoothly move the first moving pulley 144 and the second moving pulley 146 by increasing adhesion with the blocking member 200, can do.

The driving gear 142 is rotated by the operation of the driving motor 141 and at the same time the rotating force is transmitted to the first rotating gear 143 and the second rotating gear 145, The first moving pulley 144 and the second moving pulley 146, which are formed so as to abut the surface, rotate, and as a result, the blocking member 200 can be pulled or pushed.

In particular, as shown in FIG. 7, an auxiliary body 147 is provided so as to be rotatable in the left-right direction about a pivot shaft 147a formed on the other side of the body 110, The second rotating gear 145 and the second moving pulley 146 are installed on one side and the other side of the auxiliary body 147 is abutted against a support 149 formed on the other side of the body 110, An adjuster 148 for supporting the auxiliary body 147 may be provided.

That is, when the second rotating gear 145 and the second moving pulley 146 are repaired or exchanged, the auxiliary body 147 is rotated so that the first rotating gear 143 and the second rotating gear 145 They can be separated so as not to be engaged with each other.

At this time, the adjuster 148 uses a bolt or the like to adjust an interval between the auxiliary body 147 and the support 149 so that the auxiliary body 147 does not rotate further backward.

The positioning member 150 is used to set an initial position for winding or unwinding according to the size of the air knife 10 and the length of the blocking member 200.

The positioning member 150 includes a movable body 151 formed with a long hole 151a at one side thereof and installed at a rear side of the body 110 in a lateral direction; And a rotation shaft 152 formed on the other side of the moving body 151 so as to be rotatable around the rotation shaft 152. The rotation shaft 152 is engaged with a center gear 123 provided at an intermediate portion of the center shaft 121, (153); And a sensor 154 formed at one side of the moving body 151 for measuring the number of revolutions of the interlocking gear 153.

Therefore, the operator grips the moving body 151 and moves it to the inside so as to guide the center gear 123 and the interlocking gear 153 to mesh with each other, so that the distance of the interlocking gear 153, The worker grips the moving body 151 and moves the outer body so that the center gear 123 and the interlocking gear 153 mesh with each other, .

Although the embodiments of the present invention have been described above in detail, it is to be understood that the scope of the present invention is not limited to the above embodiments and that various changes and modifications may be made without departing from the scope of the present invention. Of course.

10: air knife 11: spray gun
12: fastener 13: support jaw
14: Insert groove
100: driving member 110: body
120: drum 121: center axis
122: Encoder
130: Hand winding 131: Support
132: first support portion 133: second support portion
140: rotating member 141: driving motor
142: driving gear 143: first rotating gear
144: first shifting pulley 145: second rotating gear
146: second moving pulley 147: auxiliary body
147a: Pivot shaft 148:
149: Support
150: positioning member 151: moving body
151a: Long hole 152:
153: Interlocking gear 154: Sensor
200: blocking member 210: distal end
220: rear end portion 230: protective pipe

Claims (9)

A driving member 100 installed on both sides of the air knife 10; The air knife 10 is moved inward or outward in the longitudinal direction of the air knife 10 by the operation of the driving member 100 to adjust the blocking range of the injection hole 11, In a device for varying the width of a knife,
The blocking member (200) has a tip (210) located on one side in the longitudinal direction; The outer side of the tip portion 210 is fixed to the outside of the air knife 10 and the other side is fixed to the side of the spray hole 11 And the outer side of the rear end portion 220 is connected to the driving member 100 to adjust the blocking range of the driving member 100. [ The front end portion 210 of the air knife 10 is formed in a shape of a circle in the vertical direction when the air knife 10 is viewed in the vertical cross-sectional state, The rear end portion 220 is positioned behind the injection hole 11 so as to fall further rearward than the position of the distal end portion 210 to minimize collision with the high pressure gas, Formable Operating efficiency that the width of the variable length excellent air knife, characterized by delete 2. The apparatus according to claim 1, wherein a rear end of the spray hole (11) is in contact with the rear end (220), and a supporting jaw having a predetermined height to allow a high pressure gas to pass without colliding with the rear end 13. The air knife width variable device according to claim 1, The air knife according to claim 3, wherein an insertion groove (14) is formed at one side of the support step (13) so that the rear end (220) can be inserted therein. . [2] The apparatus according to claim 1, wherein the driving member (100) comprises: a body (110) installed at one side of the air knife (10); A drum 120 rotatably mounted on a central shaft 121 formed at an intermediate portion of the body 110, the drum 120 having an outer diameter for winding the blocking member 200; A spring 130 formed on one side of the drum 120; A rotating member 140 formed at a front side of the body 110 to pull or push the blocking member 200; And a positioning member (150) formed at a rear side of the body (110) to set an initial position for winding or unscrewing the blocking member (200) Device. And a first supporting part 132 for supporting the outer side of the spring 130 on the outer side of the supporting part 131. The first supporting part 131 may be provided on the other side of the body 110, And a second support portion 133 for supporting the inside of the support base 131 in contact with the inner side surface of the manual winder 130 is formed on the inside of the support base 131. [ . [5] The apparatus of claim 5, wherein the rotation member (140) comprises: a driving motor (141) formed at a front side of the body (110); A driving gear 142 mounted on a rotating shaft of the driving motor 141; At least one first rotary gear (143) installed on the other side of the body (110) so as to be rotatable in engagement with the driving gear (142); A first moving pulley 144 formed at one side of the first rotating gear 143 and contacting the surface of the blocking member 200; At least one second rotary gear 145 for engaging with and rotating with the first rotary gear 143; And a second moving pulley (146) formed on one side of the second rotating gear (145) and contacting the surface of the blocking member (200). The portable electronic device according to claim 7, further comprising an auxiliary body (147) rotatable about a pivot axis (147a) formed on the other side of the body (110) in the left and right direction, A second rotating gear 145 and a second moving pulley 146 are provided on the other side of the main body 110. The other side of the auxiliary body 147 abuts against a support 149 formed on the other side of the body 110, 147) for adjusting the width of the air knife. [6] The positioning device according to claim 5, wherein the positioning member comprises: a moving body for forming a long hole at one side of the positioning member so as to be movable laterally at a rear side of the body; And a rotation shaft 152 formed on the other side of the moving body 151 so as to be rotatable around the rotation shaft 152. The rotation shaft 152 is engaged with a center gear 123 provided at an intermediate portion of the center shaft 121, (153); And a sensor (154) formed on one side of the moving body (151) for measuring the number of revolutions of the interlocking gear (153).

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