KR20230052376A - Apparatus for tilting the nozzle and method thereof - Google Patents

Abstract

A nozzle tilting adjustment device according to a preferred embodiment of the present invention includes: a nozzle unit installed on the movement path of an electrode sheet material and spraying insulating liquid onto the electrode sheet material; and a tilt adjustment unit coupled to the nozzle unit to adjust the tilting angle of the nozzle unit in the width direction of the electrode sheet material.

Description

Nozzle tilting control device and nozzle tilting control method {Apparatus for tilting the nozzle and method thereof}

The present invention relates to a nozzle tilting control device and a nozzle tilting control method, and more particularly, to a nozzle tilting control device and a nozzle tilting control method capable of adjusting the tilting angle of a nozzle unit in the width direction of an electrode sheet material.

A lithium ion battery or a fuel cell includes a long conductive sheet material (for example, aluminum or copper) having a predetermined width as a sheet material core material, and while continuously conveying the sheet material core material, the front and rear surfaces of the sheet material are called active materials. It is constituted by including, as an electrode sheet material, a coating solution for overall formation applied and dried.

The electrode sheet materials are stacked in layers with porous sheets called separators interposed therebetween, and the laminated cathode and anode electrodes and separators are inserted into an envelope made of an exterior film, and an electrolyte solution is injected.

Because of short-circuit protection, the size of the positive electrode in the battery configuration is larger than the size of the negative electrode, and in order to further improve safety, an electrolyte solution is injected into the separator after the positive electrode is laminated. In recent years, in order to further enhance the insulating effect, there has been a growing demand to apply an insulating material to both ends of the active material.

Conventional insulating liquid coating devices can adjust the tilting only in the moving direction of the electrode sheet material, so there is a limit to adjusting the insulating liquid coating conditions.

Japanese Patent Publication JP 2009-202141 discloses a slit die and a slit die coater.

An object of the present invention is to provide a nozzle tilt control device and a nozzle tilt control method capable of adjusting the tilt angle of a nozzle unit in the width direction of an electrode sheet material.

An object of the present invention is to provide a nozzle tilting control device and a nozzle tilting control method capable of confirming the tilting direction and tilting angle of a nozzle unit in units of 1 degree through a scale for visual inspection.

A nozzle tilting control device according to a preferred embodiment of the present invention includes a nozzle unit installed on a moving path of an electrode sheet material and spraying an insulating liquid to the electrode sheet material; and a tilt control unit that is coupled to the nozzle unit and adjusts a tilt angle of the nozzle unit in the width direction of the electrode sheet material.

In a preferred embodiment of the present invention, the tilting control unit includes a tilting bracket spaced apart from the top of the electrode sheet material; It is installed on the tilting bracket and displays graduations according to the tilting angle; an operating lever installed on the tilting bracket to be movable within the scale range of the visual scale unit and coupled to the nozzle unit; and a tilting control member fixed to the tilting bracket, coupled to the operating lever, and adjusting the position of the operating lever so that the operating lever is positioned at a scale corresponding to the tilting angle.

In a preferred embodiment of the present invention, a plurality of scales are displayed in units of 1 degree symmetrically up and down the reference scale based on the reference scale when the tilting angle is 0 on the visual scale unit, and the plurality of scale ranges are It is characterized in that within the tilting angle range of the nozzle unit.

In a preferred embodiment of the present invention, it is characterized in that the plurality of scales are displayed in multiple stages so that the distance from the reference scale increases as the scale unit goes up.

In a preferred embodiment of the present invention, the nozzle unit is characterized in that the tilting direction is adjusted as the operating lever is rotated clockwise when moving to the top of the reference scale and rotates left when moving to the bottom of the reference scale.

The nozzle part is characterized in that the tilting angle is adjusted in units of 1 degree whenever the operation lever is moved in units of 1 degree based on the reference scale.

In a preferred embodiment of the present invention, the operating lever is provided with a guide hole corresponding to the scale range of the visual scale unit, and the tilting control unit penetrates the guide hole and is installed in the operating lever, so that the operating lever has a scale corresponding to the tilting angle. When positioned at, characterized in that it further comprises a lever limiting member for limiting the movement of the operating lever.

Here, the guide hole is a curved opening having a predetermined curvature, and is characterized in that it is a passage for guiding the movement of the lever limiting member.

The guide hole is an opening having an arc-shaped cross section, and is characterized in that it is a passage for guiding the movement of the lever limiting member.

The lever limiting member is characterized in that one end passes through the guide hole and comes into contact with the scale for viewing, and the other end is bolted so as to be caught by the operating lever.

In a preferred embodiment of the present invention, the tilting control unit is fixed to the tilting bracket at a position spaced apart from the tilting control member, and is coupled to the operation lever, characterized in that it further includes a support for guiding the movement of the operation lever.

In a preferred embodiment of the present invention, the operating lever includes a lever operating shaft installed on a tilting bracket; a lever body rotatably installed on the lever operating shaft at a predetermined angle and coupled to the nozzle unit; and an operating bar provided to protrude toward one side of the lever body and movably coupled to the support and the tilt control member.

Here, the operation bar is provided with a support through-hole in which a support unit is installed and a tilting through-hole in which a tilting member is installed, and the operation bar is movably coupled to the tilt control member and the support unit.

In a preferred embodiment of the present invention, the support portion, doedoe fixed to the tilting bracket, the support shaft coupled to the operating lever through the support through-hole; a support bump provided at a lower end of the support shaft to prevent separation of the operating lever from the support shaft; and an elastic member installed to surround an outer circumferential surface of the support shaft between the tilting bracket and the operating lever.

In a preferred embodiment of the present invention, the tilting control member is coupled to the tilting bracket, coupled to the operating lever through the tilting through hole, the tilting shaft having a screw thread on the outer circumferential surface; and at least two tilting control nuts coupled to the tilting shaft so as to be position-adjustable along the thread of the tilting shaft with the operation bar interposed therebetween, and limiting the movement of the operation lever.

The tilting control member may further include a tilting barrier provided at a lower end of the tilting shaft to prevent the tilting control nut from being separated from the tilting shaft.

In a preferred embodiment of the present invention, it is characterized in that it further includes a linear guide installed in the width direction of the electrode sheet material on top of the electrode sheet material and guiding movement of the nozzle unit and the tilting control unit in the width direction.

A nozzle tilting control device according to an embodiment of the present invention includes: a linear guide installed in the width direction of an electrode sheet material on a moving path of the electrode sheet material; at least one nozzle unit installed on the linear guide to be movable in the width direction of the electrode sheet material and spraying an insulating liquid to the electrode sheet material; and at least one tilt control unit coupled to each nozzle unit and adjusting a tilt angle of each nozzle unit.

On the other hand, the nozzle tilting control method according to a preferred embodiment of the present invention is characterized by adjusting the tilting angle of the nozzle for applying the insulating liquid to the electrode sheet material by using the nozzle tilting control device.

In the present invention, the tilting angle of the nozzle unit can be adjusted in the width direction of the electrode sheet material.

In the present invention, the tilting direction and tilting angle of the nozzle unit can be checked in units of 1 degree through the visual scale, so that the correlation between the insulation quality of the electrode sheet material and the visual scale according to the application of the insulating liquid can be digitized and managed, thereby improving work efficiency can improve

In addition, the present invention can check the nozzle tilting angle in the width direction of the electrode sheet material as the position of the operating lever when the insulating liquid nozzle part is horizontally distorted due to long-time use, thereby improving the operator's calibration efficiency. there is.

1 and 2 are diagrams for explaining an installation state in which a nozzle tilting control device according to an embodiment of the present invention is installed in a transport path of an electrode sheet material.
3 schematically illustrates a front view of a nozzle tilting control device according to an embodiment of the present invention.
4 and 5 are views for explaining an operating state of the tilting controller according to an embodiment of the present invention.
6 is a view for explaining an operating state of a nozzle part according to an operation of an angle adjuster in one embodiment of the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments are illustrated and described in the drawings.

However, this is not intended to limit the present application to specific embodiments,

It should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present application. In describing the present application, if it is determined that a detailed description of related known technologies may obscure the gist of the present application, the detailed description will be omitted.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present application. Singular expressions include plural expressions unless the context clearly dictates otherwise.

In this application, terms such as "comprise" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Therefore, since the configurations shown in the embodiments described in this specification are only one of the most preferred embodiments of the present application and do not represent all of the technical ideas of the present application, various equivalents that can replace them at the time of the present application and variations may exist.

In addition, it should be understood that the accompanying drawings in this application are enlarged or reduced for convenience of description.

Hereinafter, a nozzle tilting control device and a nozzle tilting control method according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

The nozzle tilting control device 100 according to an embodiment of the present invention includes a linear guide 110, at least one nozzle unit 120, and at least one tilting control unit 130.

The present invention is conventionally installed in a device for adjusting the tilting angle of the nozzle unit in the moving direction (MD, machine direction) of the electrode sheet material, and also adjusts the tilting angle of the nozzle unit in the transverse direction (TD) of the electrode sheet material. am.

As shown in FIGS. 1 and 2 , the linear guide 110 is installed in the transverse direction (TD) of the electrode sheet material on the moving path of the electrode sheet material 20 . At least one nozzle unit 120 and at least one tilt control unit 130 are movably installed in the linear guide 110 .

The nozzle unit 120 is a device that is installed on the linear guide 110 so as to be movable in the width direction (TD) of the electrode sheet material and sprays the insulating liquid to the electrode sheet material 20 . The nozzle unit 120 is coupled to the tilting control unit 130 by a bearing 121.

The tilting angle of the nozzle unit 120 in the width direction (TD) of the electrode sheet material is adjusted by the tilting control unit 130 . The nozzle part 120 is angled toward the coating part 21 of the electrode sheet material 20 . The electrode sheet material 20 is divided into a coated portion 21 coated with a material and a non-coated portion 22 that is not coated.

The tilting direction of the nozzle unit 120 is adjusted as the operation lever 133, which will be described later, is rotated in the right direction when moving to the top of the reference scale and rotated in the left direction when moving to the bottom of the reference scale. The tilting angle of the nozzle unit 120 is adjusted by 1 degree whenever the operating lever 133 moves by 1 degree based on the reference scale.

The tilt control unit 130 is a device that is coupled to the nozzle unit 120 and adjusts the tilt angle of the nozzle unit 120 . The tilting control unit 130 includes a tilting bracket 131, a scale for viewing 132, an operation lever 133, a tilting control member 134, a support unit 135, and a lever limiting member 137.

The tilting bracket 131 is movably installed along with the nozzle unit 120 on the linear guide 110 . The tilting bracket 131 is a bracket that supports the scale unit 132 for viewing, the operation lever 133, the tilting adjusting member 134, and the support unit 135.

The scale part 132 for viewing is installed on the tilting bracket 131. Graduation according to the angle is displayed on the scale part 132 for visual viewing. The visual scale unit 132 displays scales in units of 1 degree based on the reference scale. Here, the tilting angle of the nozzle unit 120 is 0 as the reference scale.

On the scale part 132 for visual viewing, a plurality of scales are displayed in units of 1 degree in a symmetrical manner up and down the reference scale based on the reference scale. The plurality of scale ranges are within the tilt angle range of the nozzle unit 120 .

As shown in FIG. 4 , the plurality of scales are displayed in multiple stages in increments of 1 degree, so that the interval from the reference scale increases as the scale unit increases. Accordingly, when the operator adjusts the tilting angle of the nozzle unit 120 using the operation lever 133, the operator can more easily check the tilting angle of the nozzle unit 120 through the visual scale 132.

The operating lever 133 is coupled to the nozzle unit 120 and is used to manipulate the tilting angle of the nozzle unit 120 while moving within the scale range of the scale unit 132 for visual viewing. The operator may manually adjust the tilting angle of the nozzle unit 120 by manipulating the position of the operating lever 133 .

3 to 5, the operating lever 133 is composed of a lever operating shaft (not shown), a lever body 133a and an operating bar 133b.

A lever operating shaft (not shown) is installed on the tilting bracket 131. The lever body 133a is rotatably installed at a predetermined angle to a lever operating shaft (not shown). The nozzle unit 120 is coupled to the lever body 133a.

The operating bar 133b protrudes to one side of the lever body 133a. A support through hole 133c, a tilting through hole 133d, and a guide hole 133e are provided in the operating bar 133b. The operation bar 133b is movably coupled to the support part 135 through the support through hole 133c. Also, the operating bar 133b is movably coupled to the tilting control member 134 through the tilting through hole 133d. Finally, a lever limiting member 137 is installed in the guide hole 133e of the operating bar 133b.

The tilting control member 134 is fixed to the tilting bracket 131, is coupled to the operating lever 133, guides the movement of the operating lever 133, and when setting the tilting angle of the nozzle unit 120, the operating lever ( 133) to limit movement. The tilting adjusting member 134 is composed of a tilting shaft 134a, a tilting barrier 134b and at least two tilting adjusting nuts 134c and 134d.

The tilting shaft 134a is coupled to the tilting bracket 131 and is coupled to the operating lever 133 through a tilting through hole 133d provided in the operating lever 133 . The tilting shaft 134a is provided with a screw thread on an outer circumferential surface.

At least two tilting adjusting nuts 134c and 134d are installed on the tilting shaft 134a. At least two tilting adjusting nuts 134c and 134d are coupled to the tilting shaft 134a with the operating bar 133b interposed therebetween to limit the movement of the operating lever 133 to fix the position of the operating lever 133 do.

Specifically, one of the at least two tilting adjusting nuts 134c and 134d is positioned to come into contact with the upper surface of the operating bar 133b, and the other tilting adjusting nut 134d is operated. The position is adjusted to come into contact with the lower surface of the bar 133b, and the movement of the operating bar 133b is restricted while tightening the operating bar 133b up and down.

In addition, a tilting prevention bump 134b is provided at the lower end of the tilting shaft 134a. The tilting barrier 134b prevents the tilting adjusting nuts 134c and 134d from being separated from the tilting shaft 134a. The tilting prevention jaw 134b is provided with a larger diameter than the inner diameter of the tilting adjustment nuts 134c and 134d.

The support part 135 is installed on the tilting bracket 131 at a position spaced apart from the tilting adjusting member 134 with the visual viewing scale 132 interposed therebetween. The support portion 135 passes through the support through-hole 133c of the operating lever and is connected to the operating lever 133 . The support portion 135 guides the movement of the operating lever 133 so that the operating lever 133 is movable within the scale range of the scale portion 132 for visual inspection.

The support part 135 is composed of a support shaft 135a, a support bump 135b and an elastic member 135c.

The support shaft 135a is spaced apart from the above-described tilting shaft 134a and is installed in the tilting bracket 131 parallel to the tilting shaft 134a. The support shaft 135a passes through the support through-hole 133c provided in the operation lever 133 and is coupled to the operation lever 133 .

A support bump 135b is provided at the lower end of the support shaft 135a. The support bump 135b is for preventing the operation lever 133 from being separated from the support shaft 135a.

The elastic member 135c is installed between the tilting bracket 131 and the operating lever 133 to surround the outer circumferential surface of the support shaft 135a. When the operating lever 133 is moved to the top of the reference scale, the elastic member 135c is elastically compressed by the pushing force of the operating lever.

And, when the operation lever 133 is moved to the lower part of the reference scale, the elastic member 135c releases compression and provides restoring force to the operation lever 133. Accordingly, the operator can move the operation lever 133 to the lower part of the reference scale even with a small force.

The lever limiting member 137 is installed in the guide hole 133e of the operating lever 133. Specifically, one end of the lever limiting member 137 passes through the guide hole 133e and comes into contact with the scale part 132 for viewing, and the other end is bolted so as to be caught by the operating lever 133. A bolt may be used as the lever limiting member 137 .

The lever limiting member 137 guides the movement of the operating lever 133 so that the operating lever 133 is movable within a scale range when adjusting the tilting angle of the operating lever 133 . And, the lever limiting member 137 limits the movement of the operating lever so that the operating lever is positioned at the scale corresponding to the tilting angle.

Here, the guide hole 133e is a passage for guiding the movement of the lever limiting member 137. The guide hole 133e is a curved opening having a predetermined curvature. Alternatively, the guide hole 133e is an opening having an arc-shaped cross section.

With the tilting control unit 130 having the above structure, the nozzle unit 120 can adjust the tilting angle along the width direction of the electrode sheet material 20 .

Referring to FIG. 6 (a), the nozzle unit 120 is initially set at a tilt angle of 0 degrees. When the operating lever 133 is positioned on the reference scale, the tilting angle of the nozzle unit 120 is 0 degrees.

6(b) to 6(f) , whenever the operation lever 133 goes down by 1 degree to the lower part of the reference scale of the scale part 132 for visual inspection, the nozzle unit 120 moves the operation lever 133 ), it is operated to rotate to the left by 1 degree.

For example, to tilt the nozzle unit 120 to the right by 5 degrees, the operator adjusts the position of the operating lever 133 as follows. Referring to FIG. 4, the operator releases the tightening of the lever limiting member 137, and moves the at least two tilting adjusting nuts 134c and 134d away from the operating bar 133b to adjust the positions of the tilting adjusting nuts 134c and 134d. move the

When the operation lever 133 is movable along the tilting shaft 134a by this operation, the operator lifts the operation bar 133b of the operation lever 133 to the top of the reference scale. At this time, the operator can adjust the position of the operation bar 133b while checking the scale through the visual scale 132 .

After placing the operating bar 133b on the upper scale 5 of the standard scale, the operator limits the position of the operating bar 133b using the lever limiting member 137. Subsequently, the operator moves at least two tilting adjusting nuts 134c and 134d to the position of the operating bar 133b to limit the movement of the operating bar 133b. In this simple manner, the operator can adjust the tilting angle of the nozzle unit 120 in the width direction of the electrode sheet material 20 .

In the present invention, the tilting direction and tilting angle of the nozzle unit 120 can be confirmed in units of 1 degree through the visual scale 132, so that the insulation quality of the electrode sheet material 20 according to the application of the insulating liquid and the visual scale can be confirmed. Correlations can be quantified and managed, so work efficiency can be improved.

In addition, according to the present invention, when the insulating liquid nozzle unit 120 is horizontally distorted due to long-time use, the tilting angle of the nozzle in the width direction (TD) of the electrode sheet material can be confirmed by the position of the operating lever 133, so that the operator can improve the calibration efficiency.

The present invention will be described in detail through the following examples. However, the scope of the present invention is not limited by the following examples. Preferred embodiments of the present invention described above have been disclosed for illustrative purposes, and those skilled in the art having ordinary knowledge of the present invention will be able to make various modifications, changes, and additions within the spirit and scope of the present invention, and such modifications and changes and additions should be viewed as falling within the scope of the following claims.

100: nozzle tilting control device
110: linear guide 120: nozzle part
130: tilting control unit 131: tilting bracket
132: scale for viewing 133: operating lever
133a: lever body 133b: operating bar
133c: support through-hole 133d: tilting through-hole
133e: guide hole 134: tilting control member
134a: tilting shaft 134b: tilting bump
134c, 134d: tilting adjustment nut 135: support
135a: support shaft 135b: support bump
135c: elastic member 137: lever limiting member

Claims (19)

a nozzle unit installed on a moving path of the electrode sheet material to spray an insulating liquid to the electrode sheet material; and
and a tilt control unit coupled to the nozzle unit to adjust a tilt angle of the nozzle unit in the width direction of the electrode sheet material. The method of claim 1, wherein the tilting control unit,
a tilting bracket spaced apart from the top of the electrode sheet material;
a scale for visual viewing installed on the tilting bracket and displaying a scale according to the tilting angle;
an operating lever installed on the tilting bracket so as to be movable within the scale range of the scale for visual viewing and coupled to the nozzle; and
A nozzle tilting control comprising a tilting control member fixed to the tilting bracket and coupled to the operating lever to adjust the position of the operating lever so that the operating lever is positioned at a scale corresponding to the tilting angle. Device. According to claim 2,
Based on the reference scale when the tilting angle is 0, a plurality of scales are displayed in symmetrical increments of 1 degree on the scale part for visual viewing,
The plurality of scale ranges are nozzle tilting control devices, characterized in that within the tilting angle range of the nozzle unit. According to claim 3,
The nozzle tilting control device, characterized in that the plurality of scales are displayed in multiple stages so that the distance from the reference scale increases as the scale unit goes up. According to claim 3,
The nozzle tilting control device, characterized in that the tilting direction of the nozzle part is adjusted by rotating the operating lever in a rightward direction when moving to the upper part of the reference scale and rotating in a leftward direction when moving to a lower part of the reference scale. According to claim 5,
The nozzle tilting control device, characterized in that the tilting angle of the nozzle unit is adjusted by 1 degree unit whenever the operating lever moves by 1 degree unit based on the reference scale. According to claim 2,
A guide hole is provided in the operating lever to correspond to the scale range of the visual scale unit,
The tilt control unit is installed on the operating lever through the guide hole, and when the operating lever is located at a scale corresponding to the tilting angle, the lever limiting member for limiting the movement of the operating lever Characterized in that it further includes nozzle tilting control device. According to claim 7,
The guide hole is a curved opening having a predetermined curvature and is a passage for guiding the movement of the lever limiting member. According to claim 7,
The guide hole is an opening having an arc-shaped cross section and is a passage for guiding the movement of the lever limiting member. According to claim 7,
The nozzle tilting control device according to claim 1 , wherein one end of the lever limiting member passes through the guide hole and contacts the scale for visual viewing, and the other end is bolted so as to be caught by the operation lever. The method of claim 2, wherein the tilting control unit,
The nozzle tilting control device further comprises a support part fixed to the tilting bracket at a position spaced apart from the tilting control member and coupled to the operation lever to guide movement of the operation lever. The method of claim 11, wherein the operating lever,
a lever operating shaft installed on the tilting bracket;
a lever body rotatably installed on the lever operating shaft at a predetermined angle and coupled to the nozzle unit; and
The nozzle tilting control device comprising an operating bar provided to protrude to one side of the lever body and movably coupled to the support and the tilting control member. According to claim 12,
The operation bar is provided with a support through-hole in which the support part is installed and a tilting through-hole in which the tilting member is installed,
The operating bar is a nozzle tilting control device, characterized in that movably coupled to the tilting control member and the support. The method of claim 12, wherein the support,
a support shaft fixed to the tilting bracket and coupled to the operating lever through the support through-hole;
a support bump provided at a lower end of the support shaft to prevent separation of the operation lever from the support shaft; and
and an elastic member installed between the tilting bracket and the operating lever to surround an outer circumferential surface of the support shaft. The method of claim 12, wherein the tilting control member,
a tilting shaft coupled to the tilting bracket, coupled to the operation lever through the tilting through-hole, and having a screw thread on an outer circumferential surface thereof; and
A nozzle tilting control device comprising at least two tilting adjusting nuts coupled to the tilting shaft so as to be position-adjustable along the thread of the tilting shaft with the operation bar interposed therebetween, and limiting the movement of the operation lever. . According to claim 15,
The tilting control member may further include a tilting barrier provided at a lower end of the tilting shaft to prevent the tilting control nut from being separated from the tilting shaft. According to claim 2,
The nozzle tilting control device further comprises a linear guide installed in the width direction of the electrode sheet material above the electrode sheet material and guiding movement of the nozzle part and the tilt control part in the width direction. a linear guide installed in the width direction of the electrode sheet material on the moving path of the electrode sheet material;
at least one nozzle unit installed on the linear guide to be movable in the width direction of the electrode sheet material and spraying an insulating liquid to the electrode sheet material; and
The nozzle tilting control device comprising at least one tilt control unit coupled to each of the nozzle units and adjusting a tilt angle of each of the nozzle units. A nozzle tilting control method comprising adjusting a tilting angle of a nozzle for applying an insulating liquid to an electrode sheet material by using the nozzle tilting control device according to any one of claims 1 to 18.

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