JP2003298103A - Optically coupled device and method of manufacturing the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an optically coupled device where components such as a photodetector, a light emitting element, a slit unit, a lens unit, and the like can be built at a low cost with high accuracy. <P>SOLUTION: The light emitting element (light emitting chip) 1 serving as the essential part of the optically coupled device and a shading plate 8 equipped with the slit unit 7 which is provided to the lens body 10 as buried in it are provided on the same frame 3. The shading plate 8 where the slit unit 7 is provided is buried into the lens body 10 in a process of sealing up the light emitting element 1 with a light transmitting resin. Then, the joint 3c of the frame 3 is bent so as to arrange and fit the lens body 10 to the light projecting surface side of a light emission side sealed body 2. Thereafter, a light emission side optical component composed of the light emission side sealed body 2 and the lens body 10 is contained in a case 6 together with a light reception-side sealed body 5 composed of the photodetector 4 and its lead unit sealed up with a light transmitting resin. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical coupling device and a method for manufacturing the same, and more specifically,
The present invention relates to an optical coupling device for sensing an object to be detected by receiving light emitted from a light emitting element with a light receiving element, and a method for manufacturing such an optical coupling device.

[0002]

2. Description of the Related Art Conventionally, as this type of optical coupling device, an optical coupling device (first conventional example) described in Japanese Utility Model Laid-Open No. 2-41461 is known.

In this optical coupling device, as described in "Claims for utility model registration", the light emitting side mold body formed by coating the light emitting element mounted on the lead frame is separated from the lead frame. A light-receiving side mold body formed by coating a light-receiving element mounted on the lead frame, and a case for accommodating the light-emitting side mold body and the light-receiving side mold body respectively, and a light-emitting surface and a light-receiving surface of the mold body. At least one of them is provided with a light shielding plate having a narrow slit, and the light shielding plate is integrally formed with the lead frame.

That is, in the optical coupling device of the first conventional example,
In order to limit the detection width of the light receiving element, a light blocking plate having a slit is arranged on the front surface of the light receiving side mold body, and the light blocking plate is housed in the case of the optical coupling device.

Further, this light-shielding plate having a slit is
It is formed integrally with the lead frame on which the light receiving element is mounted.

According to the optical coupling device of the first conventional example as described above, a narrow slit can be accurately arranged on the front surface of the light receiving element, and a light receiving optical system component with high detection resolution can be provided. become.

Another conventional optical coupling device different from this is shown in FIG. 5 as a second conventional example. FIG. 5A is a plan view of a second conventional optical coupling device. FIG. 5B is a vertical sectional view taken along the line AA. FIG. 5C is an exploded perspective view showing the configuration of the light emitting side optical system component which is the main part thereof.

In such an optical coupling device of the second conventional example,
In order to limit the irradiation light of the light emitting element 21, a shielding plate 28 having a slit 27 is arranged on the front surface of the light emitting side mold 22, and a condenser lens 50 for collecting the light narrowed down by the slit 27 is further combined. It is housed in a case 26 of the optical coupling device in a bent shape.

The shield plate 28 having the slits 27 and the condenser lens 50 constituting the light emitting side optical system component in the optical coupling device of the second conventional example are components molded by different molds. It is used.

Generally, an optical coupling device has high accuracy (high resolution).
Therefore, a configuration for limiting the optical path like the first conventional example and the second conventional example is required, and a narrow aperture (slit) or lens is often incorporated in the optical coupling device.

[0011]

However, these two conventional examples have some problems.

In the structure for obtaining high resolution like these optical coupling devices, the number of optical system parts increases,
The product is expensive. In addition, the relative positional relationship between individual element parts (light receiving element, light emitting element, slit, lens, etc.) is required to be highly accurate, so the cost of assembly is also a factor that increases the price of the device. There is.

Further, the first conventional example is inexpensive and effective for increasing the resolution of the light receiving optical system component, but in the irradiation light from the light emitting side, the light emission width is narrowed by the slit portion in the same manner. Also, since it is not possible to control such as collecting the light that has passed through the slit part, it is essentially a detection system in which the object to be detected must be brought close to the light receiving side,
There is a great risk that the degree of freedom in use will decrease.

Further, in the second conventional example, since the stop is arranged on the front surface of the light-emitting body, and thereafter, optical treatment such as focusing by the lens portion is performed, the control of the light emitted on the light-emitting side is highly controlled. Precise things are possible. However, the number of component parts increases, the structure for obtaining the relative positional relationship becomes complicated at the same time, and it takes time at the time of assembling.
An increase in product price due to these factors is considered to be a disadvantage.

The present invention has been made in view of the above circumstances, and an object thereof is to achieve high precision of components such as a light receiving element, a light emitting element, a slit portion, and a lens portion for forming an optical system component. Another object of the present invention is to provide an optical coupling device incorporated at low cost and a manufacturing method thereof.

[0016]

According to one aspect of the present invention, a light emitting side molded body formed by molding a light emitting element and its lead portion with a transparent resin, and for limiting light from the light emitting element. And a lens body in which a lens portion for guiding the light limited by the slit portion to the light receiving element is integrated, and a light receiving side mold formed by molding the light receiving element and its lead portion with a transparent resin. Body and
A case for accommodating the light emitting side mold body, the lens body and the light receiving side mold body, and for arranging the light emitting element, the slit portion, the lens portion and the light receiving element on one optical line is provided. The lens body is provided on one frame that is bent in a substantially U shape so that the light emitting element and the slit portion face each other and are arranged on the optical line. A device is provided.

The light-emitting side mold body and the light-receiving side mold body are obtained by molding the light-emitting element and the light-receiving element with a transparent resin.

The light emitting side mold body is provided with a slit portion for limiting light from the light emitting element molded in the light emitting side mold body, and a lens body for guiding the light limited by the slit portion to the light receiving element. In addition, they are arranged on one frame. Also, the lens body is usually
It is arranged so as to cover the slit portion.

According to such an optical coupling device, since the light emitting side mold body and the lens body are provided on one frame, a light emitting element, a slit portion, a lens portion, etc. for constituting an optical system component. It is possible to obtain an optical coupling device in which the components of (1) are incorporated with high accuracy and at low cost.

In this optical coupling device, it is further preferable that the light receiving side mold body is disposed on the lead frame. In the case of such a configuration, it is not necessary to prepare two lead frames, so that a cheaper optical coupling device can be obtained more easily.

In this optical coupling device, the frame is preferably a lead frame which also serves as a lead portion of the light emitting element. When the frame is such a lead frame, it is not necessary to separately provide the lead portion of the light emitting element.

In this optical coupling device, it is more preferable that the slit portion is embedded inside the lens body. With such a configuration, it is possible to maintain the positional relationship between the slit portion and the lens body with higher accuracy.

It is more preferable that the optical coupling device further includes fitting portions for fitting the light emitting side mold body and the lens body to each other so as to hold each other in an opposed manner. These fitting portions are formed, for example, such that one is convex and the other is concave, or vice versa.

In the case where such a fitting portion is formed, by fitting these fitting portions to each other when manufacturing the optical coupling device, the light emitting side mold body and the lens body can be easily and surely. Can be integrated into.

It is more preferable that these fitting portions are formed outside the viewing angle range of the light emitting element molded in the light emitting side molding body.

When the fitting portions are configured in this way, it is possible to effectively prevent the light from the light emitting element from being partly blocked by these fitting portions.

In this optical coupling device, a convex portion is formed on the front peripheral edge of the lens body so as to project forward from the lens portion and prevent engagement between the other component and the lens portion when engaged with the other component. Is more preferable.

When such a convex portion is formed, for example, when the lens body is housed in a case together with other components, the convex portion engages the lens portion with the inner surface of the case. This can be prevented, and the lens part can be surely protected.

According to another aspect of the present invention, there is provided a method of manufacturing the optical coupling device according to one aspect of the present invention,
A light emitting element and a slit portion for limiting light from the light emitting element are arranged on one frame, and then the light emitting element is molded with a light-transmissive resin to form a light emitting side molded body, and the slit is formed. Forming a lens body including a lens portion by molding the portion with a transparent resin, arranging a light receiving element on a frame different from the frame, and then molding the light receiving element with a transparent resin. A step of forming a light-receiving side mold body, a step of bending the frame into a substantially U shape so that the light-emitting side mold body formed on the one frame and the lens body face each other; The step of fitting the lens body so as to face each other, and the light emitting side mold body and the lens body and the light receiving side mold body, which are fitted with each other, face each other through a predetermined gap. And housed in a case as, light emitting element, the slit portion, a method of manufacturing an optical coupling device which characterized by including the step of placing the lens portion and the light receiving element to one optical line on is provided.

By these indispensable steps, the light emitting side molded body in which the light emitting element is molded and the lens body in which the slit portion is molded are formed on one frame,
On the other frame, a light-receiving side molding body in which the light-receiving element is molded is formed. Then, an optical coupling device is manufactured from these two frames, the light emitting side mold body, the lens body, and the light receiving side mold body.

By the step of bending the frame, the light emitting side mold body and the lens body are placed in a positional relationship such that they face each other. In this step, the frame is usually folded at two points, each at approximately a right angle.

Next, the light emitting side mold body and the lens body are fitted to each other. At this time, when the fitting portion is formed, the light emitting side mold body and the lens body can be integrated easily and reliably.

Thereafter, the light emitting side mold body and the lens body and the light receiving side mold body, which are fitted with each other, are housed in a case so as to face each other with a predetermined gap, and the light emitting element, the slit portion, the lens portion and the light receiving side are received. The elements are arranged on one optical line. Here, the predetermined gap is a gap through which the object to be detected can pass. Further, as a method of housing and arranging in the case, there are methods such as press-fitting into the case and molding with the case.

According to such a manufacturing method for an optical coupling device, a highly accurate and low cost optical coupling device can be easily manufactured, and the slit portion is molded inside the lens body. This makes it possible to maintain the positional relationship between the slit portion and the lens body with higher accuracy.

According to still another aspect of the present invention, there is provided a method of manufacturing the optical coupling device according to one aspect of the present invention, wherein a light emitting element and light from the light emitting element are restricted on one frame. And a light receiving element are arranged, and then the light emitting element and the light receiving element are molded with a light-transmissive resin to form a light emitting side molded body and a light receiving side molded body, respectively, and the slit section is transparent. A step of molding with a resin to form a lens body including a lens portion, a step of separating the light-receiving side molded body from the light-emitting side molded body, the lens body and the light-receiving side molded body formed on one frame, The frame portion is bent into a substantially U shape so that the light emitting side molded body formed on the remaining separated frame portion and the lens body face each other. Step, the step of fitting the light-emitting-side molding member and the lens body so as to face each other,
Further, the light emitting side mold body and the lens body, which are fitted to each other, and the light receiving side mold body separated from each other are housed in a case so as to face each other with a predetermined gap, and the light emitting element, the slit portion, the lens portion, and the light receiving element. Is provided on one optical line, and a method for manufacturing an optical coupling device is provided.

By these indispensable steps, the light emitting side molded body in which the light emitting element is molded, the lens body in which the slit portion is molded, and the light receiving side molded body in which the light receiving element is molded are formed on one frame. Then, an optical coupling device is manufactured from these one frame, the light emitting side mold body, the lens body, and the light receiving side mold body.

In this method of manufacturing an optical coupling device, before the step of bending the frame, the light-receiving side of the light-emitting side molded body, the lens body having the slits embedded therein, and the light-receiving side molded body formed in one frame. There is a step of separating the molded body from the others.

By separating the light-receiving side mold body from the other, one frame is separated into two. The subsequent manufacturing procedure is the same as described above.

According to such a method of manufacturing an optical coupling device, a highly accurate and low cost optical coupling device can be easily manufactured, and the slit portion is molded inside the lens body. Thus, the positional relationship between the slit portion and the lens body can be maintained with higher accuracy.

[0040]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Some embodiments of the present invention will be described in detail below with reference to the drawings. In addition,
The present invention is not limited to these.

1 (a) to 1 (d) are schematic views for explaining a manufacturing process of a light emitting side optical system component which is a main constituent element of the optical coupling device according to the present invention.

FIG. 1A is a schematic view showing a light emitting side frame (lead frame which also serves as a lead portion of a light emitting element) 3 of an optical coupling device. In FIG. 1B, a light emitting element molded body (light emitting element resin body) 2 made of a translucent resin is applied to a lead frame 3.
FIG. 3 is a schematic view showing a state in which a lens body 10 is formed.

1A and 1B, a light emitting element (light emitting chip) 1 which is a main part of an optical coupling device and a light shielding plate 8 having a slit portion 7 embedded in a lens body 10 are shown. It is arranged on one lead frame 3.

The light-shielding plate 8 provided with the slit portion 7 is embedded in the lens body 10 by the same mold at the time of molding the light-emitting element 1 with the light-transmitting resin. Therefore, the relative positional relationship between the slit portion 7 and the lens body 10 is arranged with high accuracy by the molding die positioning pin and the positioning holes 3d and 3d of the cradle 3a and 3b in the lead frame 3. Become.

FIG. 1C shows a state in which the cradle 3a on one side of the lead frame 3 in FIG. 1B is cut and removed after the molding step. Figure 1
(D) shows a state in which the joint 3c portion of the lead frame 3 is bent, and then the lens body 10 is fitted and arranged on the light projecting surface side of the light emitting element mold body 2.

In FIGS. 1C and 1D, the positional relationship in the mutual fitting of the light emitting element mold body 2 and the lens body 10 is such that the light emitting element provided outside the viewing angle range of the light emitting element 1. It is determined by the convex portion 2a of the mold body 2 and the concave portion 10b of the lens body 10 with which the convex portion 2a is fitted.

FIG. 2 is a sectional view of the optical coupling device according to the first embodiment of the present invention. The light-emission-side optical system component of this optical coupling device is configured by stacking the light-emitting element mold body 2 and the lens body 10 in a mutually fitting shape.

This light-emitting side optical system component is housed in the case 6 of the optical coupling device together with the light-receiving element 4 and the light-receiving side molded body 5 obtained by molding the lead portion of the light-receiving element 4 with a light-transmitting resin. The main body of the lens body 10 is protected by the convex portion 10a provided on the outer peripheral portion (outside the viewing angle range) of the lens body 10, and the inner surface of the case 6 is butted. It will be fixed.

3 (a) and 3 (b) respectively show a schematic view of the manufacturing process of the optical coupling device according to the second embodiment of the present invention and a sectional view of the product.

According to FIG. 3A, one of the optical coupling devices is shown.
In the manufacturing process, the light emitting element mold body 2 and the lens body 1
A light-shielding resin for forming the light-emitting side optical system component formed by superimposing 0 and 0 together with the light-receiving element mold body 5 formed of a light-transmitting resin, and the light-shielding mold body 11 forming the outline of the optical coupling device. Encapsulating molds 12a, 12b, 12c,
It is arranged in the internal space of 12d.

Fixing of the light emitting side optical system component and the light receiving element mold body 5 in the molds 12a, 12b, 12c and 12d is performed by abutting pins 12e of the two molds 12b and 12d.
"Abutting operation" on the block mold 12a by 12e
Done by. By this operation, the light emitting side optical system component is fixed because the convex portion 10a of the lens body 10 hits the mold block 12a.

Then, the mold 12 shown in FIG.
A light-shielding resin is injected into a, 12b, 12c, and 12d, and an optical coupling device as a product as shown in FIG. 3B is manufactured.

As shown in FIGS. 3 (a) and 3 (b), the light irradiation path (lens) portion of the lens body 10 which is a part of the light emitting side optical system component is formed by the convex portion of the lens body 10. Since the light-shielding resin does not go around at the time of resin injection, an optical path is secured in this light irradiation path (lens) portion. Then, in the light-shielding mold body 11, holes 11a and 11a which are marks of the abutting pins 12e and 12e used in the "abutting operation",
It is formed on the back surface side of the light receiving surface and on the back surface side of the light emitting surface.

FIGS. 4 (a) to 4 (d) are schematic views of the manufacturing process of the light receiving side optical system component and the light emitting side optical system component which are the main components of the optical coupling device according to the third embodiment of the present invention. Is.

As shown in FIG. 4 (a), light-shielding provided with a light-emitting chip (light-emitting element) 1, a light-receiving chip (light-receiving element) 4, and a slit portion 7 embedded in the lens body 10, which are essential parts of the invention The plate 8 and the lead frame 3 are arranged on the lead frame 3.

As shown in FIG. 4B, the light emitting element mold body 2, the light receiving element mold body 5, and the lens body 10 are formed on the lead frame 3 with a light-transmitting resin.

The light shielding plate 8 provided with the slit portion 7 is embedded in the lens body 10 by the same mold during the molding process of the light emitting element 1 and the light receiving element 4.

Therefore, the relative positional relationship between the slit portion 7 and the lens body 10 is as follows:
Due to the positioning holes 3d and 3d of the cradle 3a and 3b in the lead frame 3, they are arranged with high accuracy.

FIG. 4C shows a state in which the light emitting side optical system components (the light emitting element mold body 2 and the lens body 10) and the light receiving element mold body 5 are cut from the lead frame 3 and divided after the molding step. It represents. Figure 4 (d)
Shows a state in which the lens body 10 is fitted and arranged on the light projecting surface side of the light emitting element mold body 2 by bending the joint 3c portion of the lead frame 3 on the light emitting side.

4C and 4D, the positional relationship in the mutual fitting of the light emitting element mold body 2 and the lens body 10 is such that the light emitting element mold provided outside the viewing angle range of the light emitting element. It is determined by the convex portion 2a of the body 2 and the concave portion 10b of the lens body 10 with which the convex portion 2a is fitted.

It goes without saying that the light emitting optical system component and the light receiving element mold produced in the third embodiment are configured in the same manner as in the first and second embodiments.

[0062]

According to the optical coupling device of one aspect of the present invention, since the light emitting side mold body, the slit portion, and the lens body are formed on one frame, the optical system component is constructed. It is possible to obtain the optical coupling device in which the components such as the light emitting element, the slit portion, and the lens portion are incorporated with high accuracy and at low cost.

According to the method of manufacturing the optical coupling device in accordance with another aspect of the present invention, the light emitting side molded body in which the light emitting element is molded and the lens body in which the slit portion is molded are formed on one frame. , A light receiving side molded body in which a light receiving element is molded is formed on another frame, and an optical coupling device is manufactured from these two frames, the light emitting side molded body, the lens body, and the light receiving side molded body.
It is possible to easily manufacture a high-precision and low-cost optical coupling device, and since the slit part is molded inside the lens body, the positional relationship between the slit part and the lens body can be made more accurate. It becomes possible to maintain.

According to the method of manufacturing an optical coupling device of still another aspect of the present invention, a light emitting side molded body in which a light emitting element is molded, a lens body in which a slit portion is molded, and a light receiving element are formed on one frame. And a light-receiving side mold body, which is molded, and an optical coupling device is manufactured from these one frame, the light-emitting side mold body, the lens body, and the light-receiving side mold body. Since it can be easily manufactured, the slit portion is embedded in the lens body, so that the positional relationship between the slit portion and the lens body can be maintained with higher accuracy.

[Brief description of drawings]

FIG. 1 is a schematic view showing a manufacturing process of a light emitting side optical system part which is a main part of an optical coupling device according to the present invention. FIG. 1A is a view showing a form of a light emitting side frame (lead frame which also serves as a lead portion of a light emitting element). FIG. 1B is a view showing a state where the frame is molded. FIG.1 (c) is a figure which shows the state which cut the one side cradle of the same frame. Figure 1 (d)
FIG. 8 is a diagram showing a state in which the light emitting side mold body and the lens body having the slit portion embedded therein are fitted to each other after the frame is bent.

FIG. 2 is a sectional view of an optical coupling device according to a first embodiment of the present invention.

FIG. 3 is a sectional view of an optical coupling device according to a second embodiment of the present invention. FIG. 3A is a cross-sectional view showing a state in which constituent parts are arranged in a mold for forming this optical coupling device. FIG. 3B is a sectional view of the optical coupling device formed by the mold.

FIG. 4 is a schematic diagram showing a manufacturing process of a light emitting / receiving optical system part which is a main part of an optical coupling device according to a third embodiment of the present invention. FIG. 4A is a diagram showing a form of a light emitting side frame (lead frame which also serves as a lead portion of a light emitting element). FIG. 4B is a view showing a state where the frame is molded. FIG.4 (c) is a figure which shows the state which cut the same frame into two. Figure 4
(D) is a diagram showing a state in which the light emitting side mold body and the lens body in which the slit portion is embedded are fitted to each other after bending the remaining cut frame portion.

FIG. 5 is a diagram showing a conventional optical coupling device. FIG. 5A is a plan view of the optical coupling device. Figure 5
FIG. 5B is a vertical sectional view taken along the line AA of FIG. Figure 5
(C) is an exploded perspective view showing a configuration of a light emitting side optical system component which is a main part of the optical coupling device.

[Explanation of symbols]

1 Light emitting element (chip) 2 Light emitting side molded body 2a Fitting part 3 Lead frame (frame) 3a Cradle part 3b Cradle part 3c Joint part 3d positioning hole 4 Light receiving element (chip) 5 Light-receiving side mold 6 cases 7 slit part 8 light shield 10 Lens body (mold body) 10a convex part 10b fitting part 11 Light-shielding resin body 11a hole

Claims (8)

[Claims] 1. A light emitting side molded body formed by molding a light emitting element and its lead portion with a light-transmissive resin, a slit portion for limiting light from the light emitting element, and a light limited by the slit portion. A lens body in which a lens portion for guiding to an element is integrated, a light-receiving side molded body formed by molding a light-receiving element and its lead portion with a translucent resin, a light-emitting side molded body, a lens body and a light-receiving side mold And a case for accommodating the body and arranging the light emitting element, the slit portion, the lens portion, and the light receiving element on one optical line. The light emitting side mold body, the lens body, and the light emitting element and the slit portion Is provided on one frame that is bent in a substantially U shape so as to be arranged on the optical line so as to face each other. 2. The optical coupling device according to claim 1, wherein the frame is a lead frame that also serves as a lead portion of the light emitting element. 3. The optical coupling device according to claim 1, wherein the slit portion is embedded inside the lens body. 4. The light-emitting side mold body and the lens body are respectively provided with fitting portions that are fitted to each other and hold each other in an opposed manner. The optical coupling device described in 1. 5. The optical coupling device according to claim 4, wherein the fitting portion is formed outside a viewing angle range of the light emitting element molded in the light emitting side molding body. 6. A convex portion is formed on a peripheral edge portion of the front surface of the lens body, the convex portion projecting forward of the lens portion and preventing engagement between the lens portion and the other component at the time of engagement with the other component. The optical coupling device according to any one of claims 1 to 5, which is characterized. 7. The method for manufacturing an optical coupling device according to claim 1, wherein a light emitting element and a slit portion for limiting light from the light emitting element are arranged on one frame, and then, A step of molding the light emitting element with a light-transmissive resin to form a light-emitting side molding body and molding the slit portion with a light-transmissive resin to form a lens body including a lens portion, a frame different from the frame A step of arranging a light receiving element on the top, and then molding the light receiving element with a light-transmitting resin to form a light receiving side mold body; the light emitting side mold body and the lens body formed on the one frame are opposed to each other So that the frame is bent into a substantially U shape, the light emitting side mold body and the lens body are fitted so as to face each other, and the light emitting side mold fitted to each other. And a step of housing the lens body and the light-receiving side mold body in a case so as to face each other with a predetermined gap therebetween, and disposing the light-emitting element, the slit portion, the lens portion and the light-receiving element on one optical line. A method for manufacturing an optical coupling device, comprising: 8. The method for manufacturing an optical coupling device according to claim 1, wherein a light emitting element, a slit portion for limiting light from the light emitting element, and a light receiving element are arranged on one frame. Then, the light emitting element and the light receiving element are molded with a translucent resin to form a light emitting side molded body and a light receiving side molded body, respectively, and a slit body is molded with the translucent resin to include a lens section. A step of forming, a light emitting side molding body formed on one frame,
The step of separating the light receiving side mold body from the other of the lens body and the light receiving side mold body, the frame portion is substantially U so that the light emitting side mold body formed in the remaining frame portion and the lens body face each other. A step of bending into a letter shape, a step of fitting the light emitting side mold body and the lens body so as to face each other, and a light receiving side mold body separated from the light emitting side mold body and the lens body fitted with each other. Stored in a case so as to face each other with a predetermined gap, the light emitting element, the slit portion,
A method of manufacturing an optical coupling device, comprising a step of disposing a lens unit and a light receiving element on one optical line.