KR20190053378A - Tray for flexible substrate - Google Patents

Abstract

The present invention relates to a tray for a flexible board and, more specifically, relates to a tray for a flexible board, capable of safely transferring a semidried flexible board loaded on a tray during a semidried product transfer process including an exposure process used for a photo solder resist (PSR) process to manufacture a flexible sheet-like board. In particular, to load a semidried flexible board on a tray as a slit, at least two edges are supported with respect to the loaded flexible board to prevent the flexible board from being bent by an external shock or inertia caused by the movement and stoppage of the tray, so exposure ink can be prevented from contacting an adjacent flexible board. Therefore, the present invention is capable of improving the reliability and competitiveness in a mask-less exposure technology field using LDI and a PCB circuit process field, a PSR process field, a flexible board manufacture field, a flexible PCB transfer tray field using the same, and other similar and relevant fields.

Description

{Tray for flexible substrate}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flexible substrate tray, and more particularly, to a flexible substrate tray, which comprises an exposure process used in a PSR (Photo Solder Resist) process or the like during the manufacture of a flexible substrate of a flexible material, So that the semi-dry flexible substrate loaded on the tray can be safely transported during the transportation of the product.

More particularly, the present invention relates to a flexible substrate which is semi-dried in the form of a slit, which is supported on at least two edges of the flexible substrate, The present invention relates to a flexible substrate tray capable of preventing the substrate from bending and preventing deformation or damage of the exposure ink due to contact between adjacent flexible substrates.

In recent years, as our living environment has entered the ubiquitous era, mobile devices such as smart phones and various electronic products have been made into a small quantity and a variety of products. In order to manufacture a high-density circuit due to high functionality, A technology capable of realizing the above-mentioned technology is required.

Accordingly, new exposure methods have been developed to realize ultra-fine line widths on printed circuit boards (PCBs), and maskless methods using LDI (Laser Direct Imaging) have been developed.

LDI is used in a PCB printing process and a photo solder resist (PSR) process by directly exposing a substrate to a pattern without using a photomask. Since LDI uses light, it forms a circuit of an ultra-fine line width It is possible to realize a variety of circuits by merely changing the exposure pattern, so that it is possible to make a variety of products possible.

As a result, it is possible to form a pattern requiring high resolution, and it is a technology capable of flexibly coping with a mass production system as well as a small quantity production of a variety of products.

In addition, since LDI is a technique for forming a PCB circuit or a solder resist layer through an exposure process for irradiating light, the position of the substrate from the origin where light is emitted and the distance from the substrate must be maintained constant, And the thickness of the exposure ink must be kept constant to perform accurate exposure, thereby producing a product of sufficient quality.

On the other hand, in the PCB printing process and the PSR process, the semi-finished product after each process is moved to the next process using the tray.

An example of such a tray is disclosed in Korean Patent Registration No. 10-1580901 entitled " Prior Art ", which is hereinafter referred to as " Prior Art ".

However, it can be easily seen that the prior art trays are more suitable for transporting certain standard products, such as wafers or semiconductor devices, and are not suitable for transporting different products produced in small quantities in a single line.

In particular, recently produced substrates use mainly a flexible sheet-type flexible substrate, and since such a sheet-shaped flexible substrate is not suitable for using a tray of the same type as the prior art, Or horizontally stacked horizontal trays.

At this time, when the exposure ink semi-cured on both sides of the sheet-like flexible substrate is applied, deformation may occur in the exposure ink on one side when the horizontal tray is used, so that most vertical type trays are used.

Briefly, a currently used vertical tray is configured such that slits are formed on both sides of a frame forming an outer shape, and both side edges of the sheet-like flexible substrate are inserted into slits.

In the case of such a vertical type tray, since the both side edges of the flexible substrate are inserted into the slit in a state of having fluidity, contact with the adjacent flexible substrate may occur due to inertia due to movement and stop during transportation.

When the contact with the adjacent flexible substrate occurs in this way, the semi-dry exposure ink having the two flexible substrates formed thereon comes into contact with each other, which may cause deformation or damage to the exposed ink.

Particularly, when a large-area flexible substrate is manufactured for the purpose of improving productivity, such a contact phenomenon is more frequently generated.

Korean Patent Publication No. 10-1580901 'Electronic Device Loading Tray'

In order to solve the above-mentioned problems, the present invention provides a method of manufacturing a sheet-type flexible substrate by carrying a semi-dried product including an exposure process used in a PSR (Photo Solder Resist) Which is capable of safely transporting a semi-dry flexible substrate mounted on a tray in a process of manufacturing a flexible substrate.

More specifically, the present invention can easily support the edge of the semi-dried soft substrate by simple operation when the tray of the flexible substrate is loaded, and can stably maintain the semi-dry soft substrate when the tray is moved It is an object of the present invention to provide a tray for a flexible substrate.

To this end, in the present invention, when a semi-dried flexible substrate is loaded on a tray in a slit shape, at least two edges are supported on the stacked flexible substrate, It is an object of the present invention to provide a flexible substrate tray capable of preventing the flexible substrate from being bent and preventing deformation or damage of the exposure ink due to contact between adjacent flexible substrates.

In order to achieve the above object, a flexible substrate tray according to the present invention includes: a base frame forming an outer shape; An upper support rail fixed to the upper portion of the base frame and having an upper portion of the flexible substrate fixedly supported; And a lower support rail fixed to a lower portion of the base frame and having a lower portion of the flexible substrate inserted and supported in a sliding manner.

The upper support rail may include: a stationary rail fixed to an upper portion of the base frame; And a movable rail coupled to the fixed rail so as to be reciprocally movable in the longitudinal direction.

The upper support rail is configured such that the upper end of the flexible substrate is fixed to the movable rail after the movable rail is moved to protrude from the side surface of the base frame, The lower portion of the flexible substrate may be inserted and supported in a sliding manner in a process of moving the movable rail fixed to the base frame to the inside of the base frame.

The upper support rail may further include a support hook coupled to be moved in a longitudinal direction along one side surface.

The upper support rail may further include a one way clip, the flexible substrate being inserted in one direction and being supported in the opposite direction, and being separated in the other direction.

The one-way clip further includes: a main body having a fitting groove into which the flexible substrate is inserted; And a support configured to support the flexible substrate inside the main body.

In addition, the main body may include: an inclined portion formed to be inclined in one direction in which the flexible substrate is inserted; And a friction pad formed on an inner surface of the inclined portion.

Further, the present invention may further include a fixed side support bar fixedly mounted on a side surface of the base frame and having a side surface of the flexible substrate inserted and supported.

And a rotation side support bar configured to be rotatable on one side of the upper support rail and supporting the side surface of the flexible substrate when the flexible substrate is fixedly supported on the upper support rail based on the upper support rail can do.

The lower support rail may include: a stationary guide bar for guiding slide insertion of the flexible substrate; And a locking bar configured to be rotatable on the fixed guide bar and configured to include a resilient supporting piece for pressing the side surface of the flexible substrate toward the fixed guide bar.

According to the above-mentioned solution, the present invention provides a method of manufacturing a sheet-type flexible substrate, which comprises a step of carrying out a semi-dried product including an exposure process used in a PSR (Photo Solder Resist) It is an object of the present invention to provide a tray for a flexible substrate which can safely carry a semi-dry flexible substrate loaded on a tray.

More particularly, the present invention relates to a method of loading a flexible substrate semi-dried on a tray in the form of a slit, by stably supporting the flexible substrate by supporting at least two edges of the stacked flexible substrate, It is possible to prevent the flexible substrate from being bent due to inertia or external impact.

Accordingly, the present invention has an advantage in that deformation or damage of the exposure ink due to contact between adjacent flexible substrates can be prevented, and the semi-dry substrate coated with the exposure ink semi-cured by the semi-drying process can be safely transported.

Particularly, the present invention is advantageous in that a semi-dried flexible substrate can be mounted and its edge can be easily supported by a simple operation when a tray of a flexible substrate is loaded.

Accordingly, the present invention not only improves convenience in loading and transporting a flexible substrate, but also has an advantage that a semi-drying flexible substrate can be stably maintained when the tray is moved.

As a result, the present invention prevents the deformation and damage of the semi-dried exposed ink in a process of transporting the semi-dried product to expose, and by carrying the semi-dried substrate safely, the defect rate of the product, It is effective to improve the competitiveness of products by improving productivity.

Therefore, the maskless exposure technique using LDI and the PCB circuit process using it, the PSR process field, the flexible substrate manufacturing field, the flexible PCB transporting tray field, as well as the reliability and competitiveness in the similar or related fields .

1 is a perspective view showing an embodiment of a flexible substrate tray according to the present invention.
FIG. 2 is a view showing a specific embodiment of the upper support rail of FIG. 1. FIG.
3 is a view showing another specific embodiment of the upper support rail of FIG.
FIG. 4 is a diagram for explaining a function of a one way clip shown in FIG. 3. FIG.
Fig. 5 is a view showing a specific embodiment of the lower support rail of Fig. 1. Fig.
6 is a view for explaining the operation of Fig.
Fig. 7 is a view showing another embodiment of Fig. 1. Fig.
FIG. 8 is a view showing another embodiment of FIG. 1. FIG.

The examples of the flexible substrate tray according to the present invention can be variously applied, and the most preferred embodiments will be described below with reference to the accompanying drawings.

1 is a perspective view showing an embodiment of a flexible substrate tray according to the present invention.

Referring to FIG. 1, a flexible substrate tray A includes a base frame 100, an upper support rail 200, and a lower support rail 300.

The base frame 100 is an outer shape of the flexible substrate tray A. The base frame 100 may be configured as a rectangular parallelepiped framework as shown in FIG. 1, and includes upper and lower support rails 200 and lower support rails 300 can be fixedly installed.

As shown in FIG. 1, the base frame 100 is not limited to the shape of a rectangular parallelepiped skeleton (a corner portion of a rectangular parallelepiped), and may be modified into various shapes corresponding to the needs and processes of the person skilled in the art.

The upper support rail 200 is fixed to a support frame 110 formed on the upper part of the base frame 100 and is fixedly supported on an upper portion of a flexible substrate fs and includes a fixed rail 210 and a movable rail 220 < / RTI >

The fixed rail 210 is fixed to the upper portion of the face frame 100, and more specifically, at least a part of the fixed rail 210 may be fixed to the support frame 110.

The movable rail 220 is coupled to the fixed rail 210 so as to be longitudinally reciprocally movable. More specifically, the movable rail 220 is slidably moved in the lateral direction of the base frame 100 Lt; / RTI >

The worker moves the movable rail 220 out of the upper support rail 200 so as to protrude in the lateral direction of the base frame 100 and supports the upper portion of the flexible substrate fs on the movable rail 220 .

The operator moves the movable rail 220 supporting the flexible substrate fs to the inside of the base frame 100 so that the lower portion of the flexible substrate fs is smoothly inserted into the lower support rail 300 while sliding And when the inside movement is completed, the lower support rail 300 can be used to support the lower portion of the flexible substrate fs.

The lower support rail 300 is fixed to the lower portion of the base frame 100 and can be fixed to the support frame 110 formed at the lower portion of the base frame 100. As described above, The lower portion of the flexible substrate fs can be inserted and supported in a sliding manner by the movement of the flexible substrate fs. Hereinafter, how the lower support rail 300 supports the lower portion of the flexible substrate fs will be described with reference to a specific embodiment.

As a result, the upper and lower portions of the flexible substrate fs can be fixed to the tray and stably supported by a simple operation using the flexible substrate tray A shown in FIG. 1, (fs) can be safely transported.

FIG. 2 is a view showing a specific embodiment of the upper support rail of FIG. 1. FIG.

First, most of the flexible substrates fs are formed with a plurality of holes (not shown) at the edge portions for various reasons such as alignment and support of the flexible substrate fs in the process of passing through each process.

In other words, the holes formed in the edge portions (portions irrelevant to the pattern formation) of the flexible substrate fs are indispensably formed in the process of manufacturing the flexible substrate fs. When such holes are used, the flexible substrate fs It is not necessary to add a separate process for mounting the wafer.

Referring to FIG. 2, the upper support rail 200 may further include a support hook 230 coupled to a hole formed in the upper edge of the flexible substrate fs.

The support hook 230 is formed on the movable rail 220 of the upper support rail 200 and can be coupled to move along the one side of the movable rail 220 in the longitudinal direction.

In other words, the support hook 230 can adjust the distance and position between the support hooks 230 while moving the support hooks 230 in the longitudinal direction of the upper support rail 200, corresponding to the positions of the holes formed in the flexible substrate fs.

Here, the structure in which the support hook 230 is movably coupled to the movement rail 220 can be applied to various forms such as a groove and a rail, and can be modified according to a demand of a person skilled in the art. Do not.

FIG. 3 is a view showing another embodiment of the upper support rail of FIG. 1, and FIG. 4 is a view for explaining a function of a one way clip shown in FIG.

3, the upper support rail 200 of the present invention can form a one way clip 240 on the movable rail 220 to support the upper portion of the flexible sheet fs.

The one way clip 240 is configured so that the direction in which the flexible substrate fs is sandwiched and the direction in which the flexible substrate fs is pulled out are different from each other. The flexible substrate fs is sandwiched in one direction (upward direction in FIG. 3) 3), and can be separated in the other one direction (the lower right direction in Fig. 3).

In other words, the one-way clip 240 can support the flexible substrate fs so that the flexible substrate fs is not detached downward by inserting the flexible substrate fs in the downward direction as shown in FIG.

During the separation, the flexible substrate fs may be configured to be moved in the lateral direction (lower right direction in FIG. 3) to be removed from the one-way clip 240

This one-way clip 240 may include a body 241, a support 242, an inclined portion 243, and a friction pad 244 as shown in FIG.

The main body 241 is formed on one side of the movable rail 220 and includes a fitting groove 241a through which the flexible substrate fs is fitted along the side surface in the lower portion of the main body 241, Can be formed.

The support member 242 is formed inside the main body 241 to support the flexible substrate fs and may be formed of a ball or a cylinder, and its function will be described below.

The inclined portion 243 is formed to be inclined in one side direction (downward direction in FIG. 4) in which the flexible substrate fs is inserted, thereby preventing the support 242 from being separated from the flexible substrate fs, It can serve to prevent separation.

The friction pad 244 is formed on the inner surface of the inclined portion 243 and can serve to provide a frictional force to allow the support 242 to more easily support the flexible substrate fs.

The function of the one-way clip 240 will be described below.

4 (a), when the flexible substrate fs is inserted into the lower portion of the fitting groove 241a formed in the main body 241, the upper portion of the flexible substrate fs is inserted into the main body 241 4 (b), the support plate 242 can smoothly move in the space inside the main body 241, and the flexible substrate fs can be moved in the inner portion of the main body 241 As shown in Fig.

4 (c), when the flexible substrate fs is pulled downward (or the flexible substrate moves downward by gravity), the support 242 is moved by the inclined portion 243 May be generated.

Particularly, while the rotation of the support 242 is restricted by the friction pad 244, the support 242 can generate a supporting force at two supporting points (sp).

In other words, the flexible substrate fs is prevented from being separated in the downward direction of the main body 241 while being supported by the support 242 in which the movement is restricted by the inclined portion 243 and the friction pad 244 can do.

At this time, if the flexible substrate fs is moved in the lateral direction (the lower right direction in FIG. 3), the support member 242 can not generate a specific supporting force with respect to the moving direction of the flexible substrate fs, The flexible substrate fs can be easily separated from the flexible substrate fs.

Therefore, by using the one-way clip 240, the operator can more easily combine and separate the flexible substrate fs.

FIG. 5 is a view showing a specific example of the lower support rail of FIG. 1, and FIG. 6 is a view for explaining the operation of FIG.

Referring to FIG. 5, the lower support rail 300 may include a fixed guide bar 310 and a locking bar 320.

The fixed guide bar 310 guides the slide insertion of the flexible substrate fs as shown in FIG. 6, and can be fixed to the lower support 110 of the base frame 100 as shown in FIG.

The locking bar 320 supports the side of the flexible substrate fs located on the fixed guide bar 310 toward the fixed guide bar 310 to support the flexible substrate fs, So that the elastic supporting piece 321 can be configured to support the side surface of the flexible substrate fs.

At this time, the elastic gripping part 321 may be configured to be able to rotate with the fixed guide bar 310 as well.

5, the pivot shaft 321a formed on both sides of the elastic gripping piece 321 is fitted and coupled to the pivoting groove 311a formed on both sides of the cutout portion 311 of the fixed guide bar 310 At the same time, it can be coupled to be pivotally moved by the locking bar 320 and the turning portion 321b.

6, when the operator turns the turning handle 330, the elastic supporting piece 321 is rotated as the locking bar 320 moves, and the lower portion of the flexible substrate fs is supported by using the elastic force can do.

At this time, a separate locking function may be added to the lower support rail 300 to maintain the state shown in the lower part of FIG. For example, after the rotation handle 330 is installed to penetrate the base frame 100, the rotation handle 330 may be coupled to the base frame 100 such that a part of the rotation handle 330 is maintained at a certain angle have. Of course, it is of course also possible to have the pivoting knob 330 fixed at the position shown in the lower part of Fig. 6 by various structures and methods according to the requirements of those skilled in the art.

The method of supporting the flexible substrate of flexible material using the flexible substrate tray A according to the present invention has been described above. In order to support the flexible substrate of the flexible substrate, the upper and lower portions of the extended substrate fs In addition, we will discuss how to support the sides.

Fig. 7 is a view showing another embodiment of Fig. 1. Fig.

Referring to FIG. 7, the flexible substrate tray A of the present invention may further include a fixed side support bar 400.

Specifically, the fixed side support bar 400 is fixed to the side of the base frame 100 (the opposite side of the side where the movable rail protrudes from the upper left side in Fig. 7) to support the side surface of the flexible substrate fs .

In other words, when the flexible substrate fs supported by the movable rail 220 is inserted into the base frame 100, the side surface of the flexible substrate fs can be supported while being inserted into the fixing clip 410.

It goes without saying that the structure of the fixed side support bar 400 may be the same as or similar to the structure of the lower support rail 300 described above.

FIG. 8 is a view showing another embodiment of FIG. 1. FIG.

Referring to FIG. 8, the flexible substrate tray A of the present invention may further include a rotation side support bar 500.

Specifically, the pivotal side support bar 500 can be pivotally coupled to one side of the upper support rail 200, that is, to the end of the movable rail 220.

The operator rotates the pivoting side support bar 500 so that the support clip 510 formed on the pivoting side support bar 500 is pivotally supported on the flexible substrate fs fs, as shown in Fig.

As a result, the operator fixes the upper portion of the flexible substrate fs to the movable rail 220, rotates the pivoting side support bar 500 to support the side surface of the flexible substrate fs, So as to support the other side surface and the lower surface of the flexible substrate fs.

Therefore, by using the flexible substrate tray A of the present invention, the edge of the flexible substrate fs can be supported by a simple operation, and the large-area flexible substrate fs can be stably stacked and transported .

The flexible substrate tray according to the present invention has been described above. It will be understood by those skilled in the art that the technical features of the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

It is to be understood, therefore, that the embodiments described above are in all respects illustrative and not restrictive.

A: Tray for flexible substrate
100: base frame 110: support
200: upper support rail
210: fixed rail 220: movable rail
230: support hook 240: one way clip
241: main body 241a: fitting groove
242: Supporting area 243:
244: Friction pad
300: lower support rail
310: fixed guide bar 311:
320: Locking bar 321:
400: Fixed side support bar 410: Fixing clip
500: rotation side support bar 510: support clip

Claims (10)

A base frame forming an outer shape;
An upper support rail fixed to the upper portion of the base frame and having an upper portion of the flexible substrate fixedly supported; And
And a lower support rail fixed to a lower portion of the base frame, the lower support rail being inserted and supported by a lower portion of the flexible substrate in a sliding manner.
The method according to claim 1,
The upper support rails
A stationary rail fixed to an upper portion of the base frame; And
And a movable rail coupled to the fixed rail so as to be reciprocatable in the longitudinal direction.
3. The method of claim 2,
The upper support rails
The upper portion of the flexible substrate is fixed to the movable rail after the movable rail is moved to protrude from the side surface of the base frame,
Wherein the lower support rail comprises:
Wherein a lower portion of the flexible substrate is inserted and supported in a sliding manner in a process of moving the movable rail, on which the upper portion of the flexible substrate is fixed, to the inside of the base frame.
The method according to claim 2 or 3,
The upper support rails
Further comprising: a support hook coupled to be moved in the longitudinal direction along one side.
The method according to claim 2 or 3,
The upper support rails
Further comprising: a one-way clip, wherein the flexible substrate is inserted in one direction and is supported in the opposite direction, and is separated in the other direction.
6. The method of claim 5,
The one-
A body having a fitting groove into which the flexible substrate is inserted; And
And a support for supporting the flexible substrate in the interior of the main body.
The method according to claim 6,
The main body includes:
An inclined portion formed to be inclined in one direction in which the flexible substrate is inserted; And
And a frictional pad formed on an inner surface of the inclined portion.
4. The method according to any one of claims 1 to 3,
Further comprising a fixed side support bar fixed to a side surface of the base frame and having a side surface of the flexible substrate inserted and supported.
4. The method according to any one of claims 1 to 3,
And a turning side support bar configured to be rotatable on one side of the upper support rail and supporting the side surface of the flexible substrate when the flexible substrate is fixedly supported on the upper support rail based on the upper support rail Wherein the flexible printed circuit board is a flexible printed circuit board.
4. The method according to any one of claims 1 to 3,
Wherein the lower support rail comprises:
A fixed guide bar for guiding slide insertion of the flexible substrate; And
And a locking bar configured to be rotatable with respect to the fixed guide bar, wherein the locking bar comprises an elastic supporting piece for pressing the side surface of the flexible substrate toward the fixed guide bar.

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