KR102233133B1 - Lens cover for camera module using silicon and manufacturing method thereof - Google Patents

Abstract

The present invention is a lens cover for a camera module that covers the lens (l) so that foreign substances do not get stuck in the lens (l) mounted on the camera module (m), a first made of PET material disposed to face the lens (l). 1 base layer 100; A cushion layer 200 made of a silicone material, wherein an upper surface is attached to the first base layer 100 and a lower surface is attached to the camera module m; As a PET material, the second base layer 300 attached to the upper surface of the first base layer 100; And a first adhesive layer 400 that mediates bonding between the first base layer 100 and the second base layer 300 as an acrylic adhesive. And it characterized in that it further comprises a second adhesive layer 208 of a silicon-based.

Description

TECHNICAL FIELD The lens cover for camera module using silicon and manufacturing method thereof

The present invention relates to a lens cover for a camera module using silicon and a method of manufacturing the same, and more particularly, to a lens cover for a camera module using silicon to cover the lens so that foreign substances do not get stuck in the lens mounted on the camera module, and a manufacturing method thereof. It's about the method.

Camera modules include smart phones, notebook computers, tablet computers, personal digital assistance (PDA), portable multimedia players (PMA), and digital cameras. It is mounted on a portable mobile device and is a part for photographing a subject.

The camera module projects an image onto an image sensor and photographs it, and the image acquired by the camera module is converted into an electrical signal and then recorded in a digital storage medium such as a memory card installed in a mobile device.

The camera module is supported by a cushion on the mobile device, and the cushion protects the camera module from vibration or shock.

A manufacturer of a mobile device or a camera module attaches a separate lens cover to the camera module to block a lens hole formed in the camera module before carrying out a camera module or performing a performance test.

A related technology is disclosed in Korean Patent Publication No. 10-1627511 ('Lens Cover Cushion Array for Camera Modules').

The conventional'lens cover cushion array for a camera module' includes a carrier tape 2, a lens cover 10, a cushion 20, and a release film 30, as shown on the left side of FIG. 4.

Among them, because the cushion 20 in close contact with the camera module is made of high-density polyurethane foam (also called poron) with many foreign substances in the raw material itself, the phenomenon that the lens is contaminated with the foreign substances frequently occurs. There was a problem.

In addition, the conventional'lens cover cushion array for camera module' has a structure in which the lens cover 10 and the cushion 20, and between the cushion 20 and the release film 30 are adhered by double-sided tape. The double-sided tape is a tape in which an adhesive material is applied on both sides, and the conventional'lens cover cushion array for camera module' has a problem that there are a total of 4 adhesive layers made of an adhesive material, and that there are relatively many layers. The more the adhesive layer is, the higher the occurrence rate of the separation of the adhesive surface during the process and transport, and the possibility of lens contamination by foreign substances contained in the adhesive material increases, and a phenomenon in which a part of the adhesive layer protrudes to the side (even if the side steam flow). Soak) also increases, and the defect rate increases, such as a phenomenon in which residues appear on the adherend surface or a phenomenon in which desorption is difficult due to an increase in adhesive strength.

In addition, in the conventional'lens cover cushion array for camera module', since the lens cover 10 is manufactured differently from the appearance of the camera module, there is a problem that interference occurs during process progress and transport.

Republic of Korea Patent Publication No. 10-1627511 (registered on June 7, 2016, title of invention: lens cover cushion array for camera module)

Accordingly, the problem to be solved by the present invention is that the possibility of contamination of the lens by foreign matter is small, the number of adhesive layers is relatively small, the defect rate during process progress and transport can be minimized, and the LSR that can be easily and simply and quickly manufactured. To provide a lens cover for camera module and its manufacturing method using (Liquid Silicone Rubber).

In order to achieve the above object, the lens cover for a camera module using silicon of the present invention is a lens for a camera module that covers the lens (l) so that foreign substances do not get caught in the lens (l) mounted on the camera module (m). As a cover, the first base layer 100 made of PET material disposed to face the lens (l); A cushion layer 200 made of a silicone material, wherein an upper surface is attached to the first base layer 100 and a lower surface is attached to the camera module m; As a PET material, the second base layer 300 attached to the upper surface of the first base layer 100; An acrylic adhesive, comprising: a first adhesive layer 400 for mediating bonding between the first base layer 100 and the second base layer 300; And a second adhesive layer 208 applied to a lower surface of the cushion layer 200 to mediate bonding with the camera module m as a silicone-based adhesive.

In the lens cover for a camera module using silicone according to the present invention, the cushion layer 200 is made of an LSR material, and the second adhesive layer 208 is a special silicone adhesive that does not leave a residue, so that the cushion layer 200 ) Can be applied.

In order to achieve the above object, the method of manufacturing a lens cover for a camera module using silicon of the present invention is a laminated film by attaching a first base layer 100 made of PET material and a cushion layer 200 made of silicon material into one. Step (S1); While unwinding the wound first base layer 100 and the cushion layer 200 again, among the entire areas of the first base layer 100 and the cushion layer 200, facing the lens (l) A first pressing step (S2) of perforating the receiving area to form a first receiving space (A1); An adhesive layer application step (S3) of applying the first adhesive layer 400 by applying an acrylic adhesive to a surface of the first base layer 100 that is not perforated; A second substrate layer attaching step (S4) of attaching a second substrate layer 300 made of a PET material to the first substrate layer 100 via the first adhesive layer 400; Of the entire area of the second base layer 300, the receiving area facing the lens 1 is drilled to form a second receiving space A2, and the first base layer 100 and the cushion layer ( 200) and a second pressing step (S5) of perforating an outer line corresponding to the outer shape of the camera module m among the entire area of the second base layer 300; And a lens cover obtaining step (S6) of obtaining a plurality of unit lens covers C by separating the perforated unit lens cover C corresponding to the outer shape of the camera module m.

In the method of manufacturing a lens cover for a camera module using silicone according to the present invention, in the laminating step (S1), the cushion layer 200 is made of an LSR material coated with a special silicone adhesive 208 that does not leave a residue. Can be configured.

According to the lens cover for a camera module using silicone of the present invention and a method of manufacturing the same, the LSR coated with a second adhesive layer composed of a special silicone adhesive that does not generate residue and does not leave a residue is used as the material of the cushion layer, so that the lens becomes foreign matter. It is possible to obtain the effect of minimizing the phenomenon of contamination with.

In particular, in the present invention, the number of adhesive layers is reduced to less than half compared to the previous one, and thus the occurrence rate of the layering phenomenon, the possibility of contamination of the lens, the phenomenon that a part of the adhesive layer protrudes to the side, the phenomenon that the residue appears on the adherend, or the detachment is difficult due to an increase in adhesive force. The phenomenon is reduced, and through this, it is possible to obtain the effect of minimizing the product defect rate in the process progress and transport.

In addition, the present invention is a manufacturing process in which two tapes are laminated in a roll-to-roll method and then the first and second perforations are continuously performed, and there is an advantage in that a lens cover for a camera module can be manufactured easily, simply and quickly, and the second pressing In the step, since the lens cover is perforated to be the same as the outer shape of the camera module, interference problems occurring during process progress and transport can be minimized.

In addition, according to the present invention, since the cushion layer is made of an LSR material, it is possible to obtain an effect of smoothly winding and unwinding the roll.

1 is a bottom perspective view of a lens cover for a camera module using silicon according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of a lens cover for a camera module using the silicon of Figure 1;
Figure 3 is a state of use of the lens cover for the camera module using the silicon of Figure 1;
4 is a view showing a lens cover for a camera module using silicon of FIG. 1 compared to a conventional lens cover.
5 is a flow chart for a method of manufacturing a lens cover for a camera module using silicon according to an embodiment of the present invention.
6A and 6B are process diagrams sequentially showing a method of manufacturing a lens cover for a camera module using silicon of FIG. 5.

Hereinafter, embodiments of a lens cover for a camera module using silicon according to the present invention will be described in detail with reference to the accompanying drawings. When it is determined that a description of a known technology in connection with the present invention may obscure the subject matter of the present invention, a detailed description of the known technology will be omitted.

1 is a bottom perspective view of a lens cover for a camera module using silicon according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of the lens cover for a camera module using silicon of FIG. 1, and FIG. It is a state diagram of the use of the lens cover for the camera module used, and FIG. 4 is a view showing the lens cover for the camera module using silicon of FIG. 1 compared to the conventional lens cover.

Referring to FIG. 1, a lens cover for a camera module using silicon according to an embodiment of the present invention is a component used to cover a lens so that foreign substances do not get caught in a lens mounted on the camera module, and a first base layer 100 ), a cushion layer 200, a second base layer 300, a first adhesive layer 400, and a second adhesive layer 208.

As shown in FIGS. 2 and 3, the first base layer 100 is a layer made of PET material disposed to face the lens 1 mounted on the camera module m.

The cushion layer 200 is made of a silicon material, the upper surface is attached to the first base layer 100, and the lower surface is a layer attached to the camera module (m).

In this embodiment, the cushion layer 200 is made of LSR (Liquid Silicone Rubber) material, and the first base layer 100 is adhered to each other by its own viscosity and high temperature melting without using an adhesive. Keep.

LSR (Liquid Silicone Rubber) is a special silicone material with excellent ductility that shows shock absorption rate, has excellent mutual adhesion coefficient with PET material, and has no residue.

In the first base layer 100 and the cushion layer 200, a space for accommodating the lens 1 is punched out by a press process. Among the entire areas of the first base layer 100 and the cushion layer 200, The receiving area facing the lens 1 is perforated, and the perforated space is defined as the first receiving space A1.

The second base layer 300 is a transparent PET material, and is a layer that is attached to the upper surface of the first base layer 100 to prevent foreign matter from entering the lens.

The first adhesive layer 400 is an acrylic adhesive, and is a layer that mediates the bonding between the first base layer 100 and the second base layer 300.

The second adhesive layer 208 is a silicone-based adhesive, and is a layer for attaching the cushion layer 200 to the camera module m, and a PE liner film 205 having a predetermined softness on the lower surface of the second adhesive layer 208 ) Is preferably attached, and the manufactured lens cover is removed before being attached to the camera module (m).

Of the entire area of the second base layer 300, a receiving area facing the lens 1 is perforated, and the perforated space is defined as a second accommodating space A2. If necessary, a transparent film (not shown) may be attached to the second base layer 300 to shield the second accommodation space A2 from the outside.

In the conventional'lens cover cushion array for camera module', as shown on the left side of FIG. 4, the cushion 20 in close contact with the camera module is a high-density polyurethane foam in which foreign substances can leak out to the outside. Also referred to as this), there is a problem in that the lens is contaminated with foreign substances frequently.

In addition, the conventional'lens cover cushion array for camera module' is a structure in which the lens cover 10 and the cushion 20, and between the cushion 20 and the release film 30 are adhered by double-sided tape, respectively. There was a problem that there were relatively many. The more the adhesive layer is, the higher the occurrence rate of the separation of the adhesive surface during the process and transport, and the possibility of lens contamination by foreign substances contained in the adhesive material increases, and a phenomenon in which a part of the adhesive layer protrudes to the side (even if the side steam flow). Soak) also increases, and the defect rate increases, such as a phenomenon in which residues appear on the adherend surface or a phenomenon in which desorption is difficult due to an increase in adhesive strength.

On the other hand, the present invention has the effect of minimizing the phenomenon that the lens is contaminated with foreign substances by thinly applying and using a silicon-based adhesive with little residue generation as the second adhesive layer 208 as shown on the right side of FIG. 4. Can be obtained.

In addition, as shown in the right side of FIG. 4, the number of adhesive layers is reduced by half (4 → 2) compared to the previous one, so that the incidence of the splitting phenomenon, the possibility of contamination of the lens, and a phenomenon in which a part of the adhesive layer protrudes to the side. , A phenomenon in which residue appears on the adherend surface or a phenomenon in which desorption is difficult due to an increase in adhesion is reduced, and through this, the effect of minimizing the product defect rate in the process progress and transfer can be obtained.

Hereinafter, a method of manufacturing a lens cover for a camera module using silicon according to an embodiment of the present invention will be described.

5 is a flowchart illustrating a method of manufacturing a lens cover for a camera module using silicon according to an embodiment of the present invention, and FIGS. 6A and 6B are sequentially illustrating a method of manufacturing a lens cover for a camera module using silicon of FIG. 5. This is the process diagram shown.

5, a method of manufacturing a lens cover for a camera module using silicon according to an embodiment of the present invention includes a laminating step (S1), a first pressing step (S2), an adhesive layer applying step (S3), and a second substrate. It includes a layer attaching step (S4), a second pressing step (S5) and a lens cover acquisition step (S6).

The laminating step (S1) is a step of attaching the first base layer 100 made of PET material and the cushion layer 200 made of silicone material to one as shown in FIG. 6A(a).

In the laminating step (S1), the cushion layer 200 is made of LSR (Liquid Silicone Rubber). Conventionally, double-sided tapes (including thin-film PET films) were attached to both sides of the cushion layer made of poron (high density polyurethane foam), so there were difficulties in the process of winding or unwinding the tape in a roll-to-roll method. On the other hand, in the present invention, the cushion layer 200 is made of an LSR material, and the double-sided tape is excluded due to the self-adhesive surface of the LSR material, so that roll winding and roll unwinding can be obtained smoothly. .

It is preferable that a flexible PE liner film 205 is attached to the back surface of the cushion layer 200 that is not adhered to the first base layer 100 by a second adhesive 208. Therefore, as shown, the PET material is configured to be smoothly wound on a roller while the liner film 205 is stretched in a state in which the first base layer 100 is located on the inside and the liner film 205 is located on the outside. In the case of using a double-sided adhesive made of PET material in the manner of, such a winding is not possible, so that it is not possible to supply the material in the form of a roll.

After the laminating step (S1), as shown in (b) of FIG. 6A, the PET protective film 102 is removed and the first pressing step (S2) is performed.

In the first pressing step (S2), the first base layer 100 and the cushion layer 200 are rolled back, and among the entire regions of the first base layer 100 and the cushion layer 200, the lens 1 In this step, a first receiving space A1 is formed by drilling the receiving area facing the with the pressing blade 55.

In the present invention, the double-sided tape is excluded by the self-adhesiveness of the cushion layer 200, so that the number of adhesive layers is significantly reduced compared to the previous one. When the pressing blade penetrates, the frame process is less disturbed by the adhesive layer. The effect of performing more smoothly can be obtained. In addition, in the case of the second adhesive layer 208 applied to one side of the cushion layer 200, as a silicone-based adhesive, there is little occurrence of foreign matter due to the movement of the blade, and there is no adhesive between the cushion layer 200 and the first substrate layer. Since it is not used, there is an effect that almost no foreign matter occurs.

It is preferable that the scrap work of removing the perforated part in the first pressing step (S2) and trimming the removed inner surface is further performed.

Thereafter, as shown in (c) of FIG. 6A, the step of applying the adhesive layer (S3) is performed.

The adhesive layer application step (S3) is a step of applying the first adhesive layer 400 by applying an acrylic adhesive to the unperforated surface of the first substrate layer 100.

After the adhesive layer applying step (S3), as shown in (d) of FIG. 6A, the second substrate layer attaching step (S4) is performed.

The second substrate layer attaching step (S4) is a step of attaching the second substrate layer 300 made of PET material to the first substrate layer 100 via the first adhesive layer 400.

A protective film 305 for surface protection is attached to the second base layer 300.

In the second pressing step (S5) performed afterwards, as shown in (e) and (f) of FIG. 6B, among the entire area of the second base layer 300, the receiving area facing the lens (l) is After drilling with a pressing blade 55 to form a second accommodation space (A2), as shown in (g) of FIG. 6B, the first base layer 100, the cushion layer 200, and the second base layer This is a step of drilling the outer line N to correspond to the outer shape of the camera module m among the entire area of 300.

In the second pressing step (S5), it is preferable to perform a scrap operation of removing the perforated portion and trimming the removed inner surface.

Finally, in the lens cover acquisition step (S6), as shown in (h) of FIG. 6B, the unit lens cover C drilled to correspond to the outer shape of the camera module m is separated individually to obtain a plurality of unit lenses. This is the step of obtaining the cover (C).

In this embodiment, the lens cover acquisition step (S6) is based on the outer line (N) corresponding to the outer shape of the camera module (m), the dummy layer (900) existing on the outside is discarded, and left inside. This is a step of acquiring a plurality of unit lens covers C.

In this embodiment, a unit lens cover C is obtained by pressing all portions other than the protective film 305 attached to the second base layer 300.

As described above, a method of manufacturing a lens cover for a camera module using silicon according to an embodiment of the present invention is a manufacturing process in which two tapes are laminated in a roll-to-roll method and then the first and second perforations are continuously performed. There is an advantage of being able to manufacture a lens cover easily, simply and quickly.

In addition, in the conventional'lens cover cushion array for camera module', since the lens cover 10 is manufactured differently from the external shape of the camera module, there is a problem that interference occurs during process progress and transport, whereas the present invention is a secondary In the pressing step, the outer line of the lens cover is perforated to correspond to the outer shape of the camera module, thereby minimizing interference problems that occur during process progress and transport.

In the lens cover for a camera module and a method of manufacturing the same using silicon of the present invention configured as described above, since silicon is used as a material for the cushion layer, it is possible to obtain an effect of minimizing the phenomenon that the lens is contaminated with foreign substances.

In particular, in the present invention, since the number of adhesive layers is reduced to less than half compared to the previous one, the incidence of the separation phenomenon, the possibility of contamination of the lens, the phenomenon that a part of the adhesive layer protrudes to the side, the phenomenon that the residue appears on the adherend, or the detachment is difficult due to the increase of adhesive force. The phenomenon is reduced, and through this, it is possible to obtain the effect of minimizing the product defect rate in the process progress and transport.

In addition, the present invention is a manufacturing process in which two tapes are laminated in a roll-to-roll method and then the first and second perforations are continuously performed, and there is an advantage in that a lens cover for a camera module can be manufactured easily, simply and quickly, and the second pressing In the step, since the lens cover is perforated to be the same as the outer shape of the camera module, interference problems occurring during process progress and transport can be minimized.

In addition, according to the present invention, since the cushion layer is made of silicone, and furthermore, an LSR material, it is possible to obtain an effect of smoothly winding and unwinding a roll.

The scope of the present invention is not limited to the above-described embodiments and modifications, but may be implemented in various forms within the scope of the appended claims. Anyone of ordinary skill in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims is considered to be within the scope of the description of the claims of the present invention to various ranges that can be modified.

100: first base layer
200: cushion layer
300: second base layer
400: adhesive layer

Claims (4)

In the lens cover for a camera module that covers the lens (l) so that foreign matters are not caught in the lens (l) mounted on the camera module (m),
As a silicone material made of LSR (Liquid Silicone Rubber), the first accommodation space (A1) for accommodating the lens (l) is punched out by a press process, and a cushion layer ( 200);
As a PET material, the first base layer 100 attached to the upper surface of the cushion layer 200 and having a hollow corresponding to the hollow of the cushion layer 200;
As a transparent PET material, the second base layer 300 for protecting the lens (L) is attached to the upper surface of the first base layer 100;
An acrylic adhesive, comprising: a first adhesive layer 400 applied to an upper surface of the first substrate layer 100 to mediate bonding between the second substrate layers 300; And
A second adhesive layer 208 for minimizing a phenomenon in which the lens 1 is contaminated with foreign substances by thinly applying a silicone-based adhesive to the lower surface of the cushion layer 200 and intervening with the camera module m;
A PE liner film 205 attached to a lower surface of the second adhesive layer 208 to have a predetermined softness; Including,
Double-sided tape is excluded by the self-adhesiveness of the cushion layer 200, so that the number of adhesive layers is reduced by half, resulting in a multilayer phenomenon, possibility of lens contamination, part of the adhesive layer protruding to the side, and residues on the adherend. A lens cover for camera module using silicon, characterized in that the phenomenon that appears and the phenomenon that the detachment is difficult due to the increase of adhesion is reduced, thereby minimizing the product defect rate in the process progress and transfer.
delete A laminating step (S1) in which the first base layer 100 made of PET material and the cushion layer 200 made of silicone material made of LSR (Liquid Silicone Rubber) are glued together and wound;
While unwinding the wound first base layer 100 and the cushion layer 200 again, accommodating the entire area of the first base layer 100 and the cushion layer 200 facing the lens l A first pressing step (S2) of perforating the area and removing the perforated portion, and performing a scrap operation of trimming the removed inner surface to form a first accommodation space (A1);
An adhesive layer application step (S3) of applying an acrylic adhesive to a non-perforated surface of the first base layer 100 to apply the first adhesive layer 400;
A second substrate layer attaching step (S4) of attaching a second substrate layer 300 made of a PET material to the first substrate layer 100 via the first adhesive layer 400;
Of the entire area of the second base layer 300, the receiving area facing the lens 1 is drilled with a pressing blade 55 to form a second accommodating space A2, and the first base layer 100 ), of the entire area of the cushion layer 200 and the second base layer 300, the outer line is perforated to correspond to the outer shape of the camera module m, and the perforated portion is removed, and then the removed inner surface is scraped. A second pressing step (S5) to proceed with the operation; And
And a lens cover acquisition step (S6) of separating the perforated unit lens cover (C) to correspond to the outer shape of the camera module (m) to obtain a plurality of unit lens covers (C); and
In the laminating step (S1), the double-sided tape is excluded by the self-adhesiveness of the cushion layer 200, so that the number of adhesive layers is reduced by half, so that when the pressing blade 55 penetrates, it is less disturbed by the adhesive layer, The incidence of separation, the possibility of contamination of the lens, part of the adhesive layer protruding to the side, the appearance of residues on the adherend, and the phenomenon that the adhesion is difficult to detach due to the increase in adhesion are reduced, minimizing the rate of product defects during the process and transportation
In the lens cover acquisition step (S6), based on the outer line N corresponding to the outer shape of the camera module m, the dummy layer 900 existing on the outside is discarded, and a plurality of lens covers left inside. Method of manufacturing a lens cover for a camera module using silicon, characterized in that obtaining (C). delete

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