KR20130107595A - Coating unit of mirror outline justice just layer coating system - Google Patents

Abstract

PURPOSE: A coating unit uniformly coats the edge of a mirror with a coating layer for preventing corrosion without overlapping. CONSTITUTION: A coating unit (10) of a mirror edge coating device transfers and fixes a mirror by a transferring/fixing unit in a main body frame, in order to form a coating layer for preventing corrosion, and spreads the coating liquid while transferred along the fixed edge of the mirror. The coating unit is transferred by an X-axis transferring part and a Y-axis transferring part from the upper part of the main body frame along the fixed edge of the mirror and spreads the coating liquid onto the edge of the mirror by a rolling.

Description

[0001] The present invention relates to a coating unit of a mirror-

The present invention relates to a coating unit of a coating layer coating apparatus of a mirror frame, and more particularly, to a coating unit of a coating unit coating apparatus for coating a coating layer for preventing corrosion on the edge of a mirror, To a coating unit of a coating layer coating apparatus of a mirror frame.

Generally, a mirror is manufactured by depositing a reflective film on a surface of a glass having a flatness by a conventional deposition method and forming a coating layer on the surface of the deposited reflective film to protect the reflective film. The workpiece is machined by a conventional polishing method to make the part smooth, and the finished product is manufactured.

However, in the mirror thus manufactured, a gap is generated in the portion processed by polishing in order to smooth the side of the rim. That is, a minute gap is formed between the glass and the reflective film and the coating layer due to the polishing process And corrosion or the like occurs due to penetration of cleaning agents, medicines, or moisture used in cleaning or washing through the fine gaps, thereby causing a problem that the use of the mirror is eventually lost.

In order to solve this problem, the present applicant filed a patent application No. 2008-125918 entitled " Mirror with Corrosion-Resistant Portion on the Rim "(filed on December 11, 2008, hereinafter referred to as Patent Document 1) Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

7 is an abraded portion of a frame in which the glass 110 of the mirror 100 and the reflective film 120 and the coating layer 130 are formed and the conventional ultraviolet ray is irradiated to the side of the glass 110 from the edge- Coating layer 140 coated with a coating liquid such as a liquid or oil-based paint is formed to prevent corrosion.

Accordingly, the gap formed between the glass and the reflection film and the coating layer due to the polishing of the rim of the mirror is filled with the coating layer, so that corrosion due to penetration of the cleaning agent, medicines, moisture, or the like can be prevented.

The conventional method of coating the coating layer on the rim of the mirror as described above is usually performed by the manual operation of the operator. However, in this case, the thickness of the coating layer is not uniform and the operation time is considerably long, .

For this reason, in order to form a coating layer on the rim of the mirror, a method of printing a coating layer by using a conventional printing technique has been used. However, in the method using the printing technique as described above, There is a problem that corner portions of the rim can be coated so as to overlap with each other during the coating process.

In other words, when one side of the mirror is coated by the printing technique, the coating starts from one edge and ends at the other edge. When coating the other side, the coating starts from one edge and ends at the other edge Accordingly, there is a problem in that the coating layer coated on the edge portion is coated in a double layer so that the edge portion may become thicker than the other side due to the double coating when the coating of the coating layer is completed.

Further, when the mirror having the coating layer formed in this manner is stacked for storage, the mirror and the mirror are not closely adhered to each other by the double coating portion formed thickly at the edge portion of the frame, The mirror is easily broken even in the event of a small impact, and even when the mirror with the coating layer is formed, since a thick part coated with a double part at the corner of the frame has a space separated from the mounting surface, There is a problem that the mirror installed even in a small impact can be easily broken.

Korean Patent Application No. 10-2008-125918 (filed on December 11, 2008)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method of coating a coating layer on a rim of a mirror to prevent corrosion, To provide a coating unit of a coating layer coating apparatus of a mirror frame.

In addition, the coating unit of the coating layer coating apparatus of the mirror frame which can conveniently and rapidly coat the coating layer on the mirror frame by setting the size of the mirror in advance, without needing to separately detect the edge region of the mirror, .

It is another object of the present invention to provide a coating unit of a coating layer coating apparatus of a mirror frame capable of coating a coating layer on a mirror frame with a uniform thickness with a simple structure.

It is another object of the present invention to provide a coating unit of a coating layer coating apparatus of a mirror frame capable of precisely and uniformly and stably coating the coating layer.

Further, it is an object of the present invention to provide a coating unit of a coating layer coating apparatus of a mirror frame, in which the width of the coating liquid coated on the rim of the mirror can be adjusted by a simple operation without necessitating a separate structural change even if the size of the mirror is changed.

In order to achieve the above object, according to the present invention, in order to coat a coating liquid so as to form a coating layer for preventing corrosion on the rim of a mirror, a mirror is transferred and fixed by a conveying / And the coating unit is transported to the transporting / fixing means and is transported along the rim of the fixed mirror to the X-axis transporting portion and the X-axis transporting portion at the upper portion of the main body frame, And the coating liquid is coated on the rim of the mirror by the rolling motion.

Here, the coating unit is provided to be spaced or accessible from a mirror fixed to the main frame and transferred to the conveying / fixing unit, and is conveyed along the frame of the mirror by the X-axis conveying unit and the Y- A driving unit configured to be driven; And an application roller connected to the driving unit and rotated to rotate along the rim of the mirror by the rotational driving of the driving unit to apply the coating liquid.

The coating unit may further include an electric roller interposed between the driving unit and the applying roller to transmit the rotational driving force of the driving unit to the applying roller.

Wherein the coating unit comprises: a driving unit having a gear belt structure between the driving unit and the rolling roller, and between the rolling roller and the applying roller; A mounting portion coupled to the driving portion to mount the rolling roller; And a gap adjusting unit provided on the mounting unit to adjust the gap between the roller and the application roller so that the width of the coating liquid coated on the edge of the mirror can be adjusted.

The coating unit is preferably transported in a state inclined from the X-axis and the Y-axis when the coating unit is transported along the rim of the mirror by the X-axis transporting unit and the Y-axis transporting unit.

According to the present invention, when the coating unit of the coating unit coating apparatus of the mirror frame is transported along the rim of the mirror by the X-axis transporting unit and the Y-axis transporting unit, the coating unit is transported while being inclined from the X- and Y- In order to prevent corrosion, the coating layer can be uniformly coated on the corner of the edge without overlapping.

In addition, by coating the coating solution on the edge of the mirror by the rolling motion of the coating unit of the coating layer coating apparatus of the mirror frame, it is possible to conveniently and quickly set the size of the mirror in advance, without needing to separately detect the edge region of the mirror, The coating layer can be coated on the edge of the mirror.

The coating unit of the coat layer coating apparatus of the mirror frame is connected to the driving unit and the driving unit and is rotated by the driving unit to rotate along the rim of the mirror and is coated with the coating liquid. The coating layer can be coated on the mirror edge with a uniform thickness.

In addition, since the rotational driving force of the driving unit of the coating unit of the coating layer coating apparatus of the mirror frame is transmitted to the application roller by the rolling roller interposed between the driving unit and the application roller, The coating can be precisely and uniformly and stably performed.

Further, even if the size of the mirror is changed by adjusting the distance between the roller and the application roller by the gap adjusting unit of the coating layer coating unit of the mirror frame, the structure of the coating liquid coated on the edge of the mirror The width can be adjusted.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a main part of a coating layer coating apparatus of a mirror frame equipped with a coating unit according to the present invention;
Fig. 2 is a plan view of the main part of the coating layer coating apparatus of the mirror frame of Fig. 1,
Figure 3 is a side view of the coating unit according to Figure 1,
4 is a perspective view showing a coating unit of a coating layer coating apparatus of a mirror frame according to the present invention,
5 is a schematic view schematically showing a state in which a coating layer is coated by the coating unit of the present invention,
Figure 6 is a control block diagram of a coating unit of the present invention,
FIG. 7 is a plan view of a state where a coating film layer for preventing corrosion is formed on a rim of a conventional mirror.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1, a coating unit 10 of a coating apparatus 1 for coating a coating liquid such as ultraviolet ray liquid or oil paint to form a coating layer for preventing corrosion on the rim of a mirror according to the present invention, Is applied to a coating apparatus (1) in which a mirror is transferred and fixed by a conveying / fixing means (5) provided in a main body frame (2) for coating a coating liquid while being conveyed along a rim of a fixed mirror, 2, the coating unit 10 is conveyed to the conveying / fixing means 5 and is conveyed along the frame of the fixed mirror to the X-axis conveying portion 11 and the Y-axis conveying portion 13) and the coating liquid is coated on the rim of the mirror by a rolling motion.

Accordingly, the coating unit 10 of the coating unit coating apparatus of the mirror frame coating the coating liquid on the rim of the mirror by the rolling motion does not need to separately detect the edge area of the mirror, 50), it is possible to coat the coating layer on the mirror frame with a uniform thickness in a convenient and quick manner.

More specifically, in the case where the coating liquid is coated on the edge of the mirror through the supply nozzle 41 to be described later and the four corner portions of the mirror are detected to detect the zero point position, when the width of the edge region of the mirror is narrow However, according to the present invention, the coating unit 10 coating the coating liquid on the rim of the mirror by the rolling motion makes it possible to detect the edge region of the mirror in advance without needing to separately detect the edge region of the mirror, It is possible to conveniently and quickly coat the coating layer on the mirror frame with a simple operation of setting the size of the coating layer through the input unit 50.

As shown in FIGS. 1 and 2, the conveying / fixing means 5 is provided with a driving member (not shown) such as a power transmission member such as a belt, a chain, or the like when the mirror is lifted to coat the coating liquid. A conveying unit 7 for conveying the raised mirror through a plurality of conveying rolls 6 rotated by the conveying unit 7 and a conveying roll 6 conveyed by the conveying unit 7, And a fixing part 8 for fixing the mirror which is lifted up by suction and then raised.

As shown in Fig. 2, the fixing unit 8 includes a plurality of suction holes 9a connected to a normal suction unit between the feed rolls 6 by a lifting member (not shown) such as a normal cylinder It is preferable that the plurality of adsorption bars 9 formed are formed in the form of a frame and move up and down. That is, when the transfer of the mirror is completed by the transferring unit 7, the suctioning bar 9 of the fixing unit 8 is raised higher than the transferring roll 6 by the lifting and lowering member, The coating unit 10 is fixed so that the mirror does not move when the coating liquid is coated to form a coating layer by the suction force of the hole 9a.

4, the coating unit 10 is provided to the transfer / fixing means 5 at the upper portion of the main body frame 2 so as to be spaced apart or accessible from the fixed mirror, And a Y-axis transfer unit 13 for transferring the coating liquid on the periphery of the mirror, and a driving unit 20 connected to the driving unit 20 and rotated along the rim of the mirror by the rotation driving of the driving unit 20, (Not shown).

Accordingly, the coating unit 10 of the coat layer coating apparatus of the mirror frame is connected to the driving unit 20 and the driving unit 20 so as to rotate along the rim of the mirror by the rotation driving of the driving unit 20, The coating layer can be coated on the edge of the mirror with a simple and convenient thickness by a simple structure.

In addition, even when the supply nozzle 41 is provided as a consumable material, the application roller 21 can be used semi-permanently, so that the operation cost of the coating layer coating apparatus 1 of the mirror frame can be reduced.

The X-axis transfer unit 11 and the Y-axis transfer unit 13 of the coating unit 10 are mounted on an upper portion of the main body frame 2, as shown in Figs. 1 to 3, The sphere is reciprocated or reciprocated on a guide shaft by a reciprocating member such as a cylinder.

4 to 6, the driving unit 20 is transported along the rim of the mirror by the X-axis transfer unit 11 and the Y-axis transfer unit 13, and is transferred to the control command of the control unit 60 Therefore, a rotation driving member such as a conventional motor is provided to rotate the application roller 21 and to apply the coating liquid to the rim of the mirror, thereby providing a rotational driving force to the application roller 21. [ It goes without saying that the driving unit 20 is naturally operated by a power source connected to a power source unit (not shown) and applied from a power source unit.

4, the coating unit 10 according to the present invention is interposed between the driving unit 20 and the application roller 21 to transmit the rotational driving force of the driving unit 20 to the application roller 21 And an electric roller (23).

The rotational driving force of the driving unit 20 of the coating unit 10 of the coating layer coating apparatus of the mirror frame is applied to the coating roller 21 by the rolling roller 23 interposed between the driving unit 20 and the application roller 21. [ So that the coating of the coating layer can be precisely and uniformly and stably performed without the loss of the rotational driving force.

4, the electric roller 23 is provided on one side of the driving unit 20, and the application roller 21 is disposed adjacent to the lower portion of the electric roller 23 as shown in FIG. 4 desirable.

Thus, when the rotational driving force is transmitted from the driving unit 20 to the electric roller 23, the electric roller 23 is rotated. When the electric roller 23 is rotated, the electric power is supplied to the application roller 21 The coating liquid is supplied through the supply nozzle 41 connected to the supply tank 40 to be described later between the roller 23 and the application roller 21 so that the coating roller 21 contacts the edge of the mirror The coating liquid can be applied.

At this time, the coating line width of the coating liquid deposited on the outer circumferential surface of the application roller 21 is determined according to the spaced distance between the roller 23 and the application roller 21, so that the coating width of the coating liquid applied to the edge of the mirror is determined .

4, the coating unit 10 is provided between the driving unit 20 and the roller 23 and between the roller 23 and the roller 21, as shown in FIG. A mounting portion 30 which is coupled to the driving portion 20 and to which the electric roller 23 is mounted; and a mounting portion 30 which is capable of adjusting the width of the coating liquid coated on the rim of the mirror And a gap adjusting unit 31 provided in the mounting part 30 to adjust the interval between the roller 23 and the roller 21.

Accordingly, even if the size of the mirror is changed by adjusting the interval between the roller 23 and the roller 21 by the interval adjusting unit 31 of the coating layer coating unit 10 of the mirror frame, The width of the coating liquid coated on the rim of the mirror can be adjusted by a simple operation without necessity.

4, the driving portion 25 is preferably provided with a timing gear and a timing belt, and the mounting portion 30 is provided with a supply nozzle 40 connected to the supply tank 40, It is preferable that the fixing block 41 is provided with a mounting block in which the supply nozzle 41 is received and mounted so as to extend to the gap formed between the roller 23 and the roller 21 or at least the outer circumferential surface of the roller 23 The interval adjusting portion 31 is provided with a mounting portion 30 capable of adjusting the distance between the rolling roller 23 and the applying roller 21 by pushing or pulling the roller 23 from the applying roller 21 by a rotation operation, A micrometer structure such as a vernier callipers provided in the microprocessor.

Accordingly, the gap between the roller 23 and the roller 21 can be precisely adjusted by the gap adjusting portion 31 so that the coating thickness of the coating liquid applied to the rim of the mirror can be precisely controlled.

2 to 4, a coating liquid such as the ultraviolet ray liquid or the oil paint is received in the mounting portion 30 of the coating layer coating unit 10 of the mirror frame according to the present invention, And a supply nozzle 41 connected to the supply tank 40 for supplying the coating liquid by supplying the coating liquid from the supply tank 40 is coated with the rim of the mirror to form a coating layer.

The driving unit 20 includes a mounting part 30 mounted to be vertically movable up and down by a lifting member such as a conventional cylinder or the like, Can also be ascended and descended together.

5, when the coating unit 10 is transported along the rim of the mirror by the X-axis transporting unit 11 and the Y-axis transporting unit 13, the coating unit 10 according to the present invention is moved from the X- It is preferable that the transfer is performed in an inclined state.

Thereby, when the coating unit 10 of the coating layer coating apparatus 1 of the mirror frame is transported along the rim of the mirror by the X-axis transfer section 11 and the Y-axis transfer section 13, When the coating layer is coated on the edge of the mirror in order to prevent corrosion, the coating can be uniformly applied to the edge of the frame without being overlapped with each other.

In an embodiment of the present invention, as shown in Fig. 5, it is preferable that the angle of inclination of the coating unit 10 from the X axis and the Y axis is within about 45 degrees.

Thus, while the driving unit 20 of the coating unit 10 is transported along the Y axis by the Y axis transport unit 13 and then transported along the X axis by the X axis transport unit 11 at the edge corner of the mirror, If the driving unit 20 rotates the applying roller 21 so that the application roller 21 is rotated and the coating liquid is applied, even if the conveying path of the driving unit 20 is bent by 90 °, the area coated at the edge of the mirror is diagonally The coating layer is formed so that the coating layer formed on the edge portion is not formed to be overlapped with the double coating layer but the coating layer coated with the single layer can be formed.

6, the coating unit 10 according to the present invention includes an input unit 50 for inputting information such as the size, shape, and thickness of a mirror to be coated with a coating layer, It is preferable to further include a control unit 60 connected to the input unit 50 and controlling the X axis transfer unit 11, the Y axis transfer unit 13 and the driving unit 20 according to the size of the mirror input through the input unit 50 Do.

Accordingly, the transporting / fixing means 5 and the coating unit 10 can be controlled by the control unit 60 so as to be interlocked with each other.

4, the coating unit 10 is provided in the driving unit 20 and controls the amount of the coating liquid supplied to the application roller 21 through the supply nozzle 41 (Not shown). The sensing unit 70 may further include a function of detecting whether a mirror is present under the application roller 21. [ Accordingly, if a detection is made by the sensing unit 70 that a mirror exists under the application roller 21, that is, if only the mirror reaches the application roller 21, the drive unit 20 is moved along the X axis or Y axis The control unit 60 controls the X axis transfer unit 11, the Y axis transfer unit 13 and the driving unit 20 so that the application roller is rotated to drive the application of the coating liquid so that the coating layer is coated on the edge of the mirror. You can start.

In an embodiment of the present invention, the sensing unit 70 may be a conventional optical proximity sensor. However, as another embodiment of the present invention, the sensing unit 70 may be provided as a contact sensing sensor, An illumination means for a clear image of a camera and a camera, such as a known vision system, may be provided.

As described above, according to the present invention, when the coating liquid is coated to prevent corrosion on the rim of the mirror, the process of coating and transporting the mirror and coating the coating liquid is smoothly performed by the coating unit, In addition to the conditions that can maximize the height of the mirror, it is possible to coat the corners of the mirror frame with a single layer without overlapping with the double layer by rotation. Therefore, after the coating layer is formed, There is no space between the mirror and the mirror or between the mirror and the mounting surface, so that the condition of the mirror can be minimized.

1 to 6, a process of coating a coating layer on a mirror edge by the coating unit 10 of the coating layer coating apparatus 1 of a mirror frame according to the present invention will be described as follows .

First, a mirror for coating a coat layer is transferred and fixed on the rim by the conveying / fixing means 5 provided in the main frame 2.

When the sensing unit 70 senses that the mirror is in contact with the lower portion of the application roller 21 without sensing the four corners of the mirror so as to detect the zero point, the controller 60 controls the application roller 21, The control unit controls the driving unit 20 to apply the coating liquid supplied through the supply nozzle 41 to the edge of the mirror while rotating the X axis transport unit 11 so that the driving unit 20 is transported along the X axis, The Y-axis transfer unit 13 is controlled so that the driving unit 20 is rotated along the Y axis at the corner of the mirror frame so that the driving unit 20 rotates one wheel along the edge of the mirror to apply the coating liquid to the edge of the mirror The control unit 60 controls the X-axis conveying unit 11, the Y-axis conveying unit 13, and the driving unit 20. [

Thus, according to the present invention, when coating layer is coated on the edge of a mirror to prevent corrosion, the coating unit 10 of the coating layer coating apparatus of the mirror frame can coat the edge of the frame with a uniform thickness And by coating the coating liquid on the rim of the mirror by the rolling motion of the application roller 21 by the coating unit 10, the size of the mirror can be set in advance without separately detecting the edge area of the mirror, The coating layer can be coated on the edge of the mirror with a uniform thickness.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

11: X-axis conveying unit 13: Y-axis conveying unit
20: Driving part 21:
23: electric roller 25:
30: mounting portion 31:

Claims (5)

The mirror is transferred and fixed by the transferring / fixing means 5 provided in the main frame 2 to coat the coating liquid so that a coating film layer for preventing corrosion is formed on the rim of the mirror. The mirror is transferred along the rim of the fixed mirror, A coating unit (10) of a coating layer coating apparatus (1) of a mirror frame coating a coating layer
The coating unit 10 is conveyed by the X-axis conveying unit 11 and the Y-axis conveying unit 13 from the upper part of the main body frame 2 along the rim of the mirror which is conveyed and fixed to the conveying / fixing unit 5, And the coating liquid is coated on the rim of the mirror by the rolling motion. The method according to claim 1,
The coating unit (10) comprises:
The X-axis transporting unit 11 and the Y-axis transporting unit 13 are provided at the upper portion of the body frame 2 to be spaced apart or accessible from the mirror fixed to the transporting / fixing unit 5, A driving unit 20 which is arranged to be moved along the rim of the driving unit 20; And
A coating roller (21) connected to the driving part (20) and rotated to rotate along the rim of the mirror by the rotation of the driving part (20) to apply the coating liquid;
And a coating layer of a coating layer of a mirror frame. 3. The method of claim 2,
The coating unit 10 further includes an electric roller 23 interposed between the driving unit 20 and the application roller 21 to transmit the rotational driving force of the driving unit 20 to the application roller 21 Wherein the coating layer of the coating layer coating device of the mirror frame is characterized in that the coating layer of the coating layer of the coating layer coating device of the mirror frame. The method of claim 3,
The coating unit (10) comprises:
A transmission portion 25 provided between the driving portion 20 and the electric roller 23 and between the electric roller 23 and the application roller 21 in a gear belt structure;
A mounting part (30) coupled to the driving part (20) and to which the electric roller (23) is mounted; And
A gap adjusting unit 31 provided in the mounting part 30 to adjust the gap between the electrostatic roller 23 and the application roller 21 so that the width of the coating liquid coated on the edge of the mirror can be adjusted;
Further comprising: a coating layer coating device for coating the coating layer of the mirror frame. The method according to claim 1,
The coating unit 10 is conveyed while being inclined from the X axis and the Y axis when the coating unit 10 is conveyed along the rim of the mirror by the X axis conveyance unit 11 and the Y axis conveyance unit 13. [ Coating unit of the coat layer coating apparatus of the rim.

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