KR102303142B1 - Sensor assembly and camera module using this - Google Patents

Abstract

The present invention relates to a sensor assembly for implementing a function of a dual camera by delivering one single incident beam inputted through one single lens assembly to two image sensors of different types, and a camera module including the same. To achieve the purpose, the sensor assembly includes: a sensor housing into which an incident beam is inputted; a first image sensor provided on a first side among sides vertical to a plane of incidence into which the incident beam is inputted in the sensor housing, and converting the incident beam into a first signal; a second image sensor provided on a second side opposed to the first side, among the sides, and converting the incident beam into a second signal; an optical path conversion member embedded in the sensor housing to be rotatable and reflecting the incident beam to the first or second image sensor; and a conversion driving member normally or reversely rotating the optical path conversion member.

Description

A sensor assembly and a camera module having it {SENSOR ASSEMBLY AND CAMERA MODULE USING THIS}

The present invention relates to a sensor assembly and a camera module having the same, and more specifically, a sensor for realizing the function of a dual camera by transmitting one incident light incident through one lens assembly to two different types of image sensors It relates to an assembly and a camera module having the same.

Electronic devices, which have recently gained popularity in the market, tend to be miniaturized and lightweight, and accordingly, parts mounted on the electronic devices are also trending to be miniaturized and lightweight.

Such electronic devices include mobile communication terminals such as smart phones, tablet PCs, and laptops. A camera module that performs a function of taking an image is basically employed in an electronic device. Such a camera module is mounted on one electronic device in the form of a camera module having various different functions.

In addition, recently, a dual camera equipped with two lens modules has been disclosed, and such a dual camera is designed only in a form in which two independent camera modules are simply assembled in parallel.

This method is vulnerable to subsequent deformation, and there is a problem in that additional reinforcement is required through a reinforcing material. In addition, since two independent camera modules are simply assembled in parallel, there is a risk that the optical axis of each camera module is shifted during the assembly process, and there is a limit in reducing the overall size of the dual camera.

Republic of Korea Patent Publication No. 10-2019-0137657 (Title of the invention: dual camera module, published on December 11, 2019)

An object of the present invention is to solve the problems of the prior art, and a sensor assembly for realizing a function of a dual camera by transmitting a single incident light incident through one lens assembly to two different types of image sensors, and a sensor assembly having the same To provide a camera module.

According to a preferred embodiment for achieving the object of the present invention described above, the sensor assembly according to the present invention includes a sensor housing into which incident light is incident; a first image sensor provided on a first surface of the side surfaces perpendicular to the incident surface on which the incident light is incident in the sensor housing and converting the incident light into a first signal; a second image sensor provided on a second surface of the side surfaces facing the first surface and converting the incident light into a second signal; an optical path conversion member rotatably mounted in the sensor housing and reflecting the incident light to the first image sensor or the second image sensor; and a conversion driving member that rotates the optical path conversion member forward and reverse.

Here, the image generated by the second signal coincides with an image in which a part of the image generated by the first signal is enlarged by a preset magnification.

Here, the sensor housing may include: a sensor body having a conversion space formed therein, the first surface, the second surface, and the incident surface being opened; a first sealing member sealing the first surface and having the first image sensor; a second sealing member sealing the second surface and having the second image sensor; an optical filter member sealing the incident surface and filtering the incident light; and a light path support member for properly positioning the light path converting member according to the forward and reverse rotation of the light path converting member.

A camera module according to the present invention includes a lens assembly for generating one incident light corresponding to a subject; and converting the optical path of the incident light in a first direction perpendicular to the incident light or in a second direction opposite to the first direction to convert the incident light traveling in the first direction into a first signal, and a sensor assembly that converts incident light traveling along the direction into a second signal.

The camera module according to the present invention further includes a reflective member for reflecting the light transmitted from the subject to the lens assembly.

According to the sensor assembly and the camera module having the same according to the present invention, a function of a dual camera can be realized by transmitting one incident light incident through one lens assembly to two different types of image sensors.

Also, according to the present invention, a normal image and an enlarged image can be acquired through two different types of image sensors.

In addition, the present invention prevents light leakage by darkening the conversion space of the sensor body through the detailed configuration and coupling relationship of the sensor housing, and it is possible to arrange two image sensors facing each other in parallel and to reduce the noise of incident light. can be removed

In addition, the present invention can prevent the flow of the light path conversion member by fixing the light path conversion member in place when the forward and reverse rotation of the light path conversion member is completed through the detailed structure of the light path support member, and the reflection angle of the incident light can be kept clearly.

In addition, according to the present invention, the sensor assembly is modularized to design it compactly, and the replacement and maintenance of consumables can be simplified.

In addition, the present invention allows the support protrusion to protrude vertically from the center portion of the support surface based on the support surface facing the incident surface, and the inclined surface of the first inclined protrusion and the inclined surface of the second inclined protrusion are respectively from the ends of the support protrusion. Since it is provided to be inclined at 45 degrees, the forward and reverse rotation of the optical path converting member can be stabilized, the rotational axis of the converting driving member can be stably supported, and the optical path converting member can be stably supported on each inclined surface.

In addition, the present invention can reduce the thickness of the product in which the camera module is installed through the additional configuration of the reflective member, and obtain a clear image by sufficiently securing the optical path of the incident light.

In addition, the present invention can significantly reduce the number of parts and reduce the volume and price of the camera module compared to the conventional dual camera.

1 is a diagram schematically illustrating a camera module according to an embodiment of the present invention.
2 is a diagram schematically illustrating an exploded state of a sensor assembly in a camera module according to an embodiment of the present invention.
3 is a diagram schematically illustrating a cross-sectional state of a sensor assembly in a camera module according to an embodiment of the present invention.
4 is a diagram schematically illustrating a state in which incident light is transmitted to a first image sensor in a camera module according to an embodiment of the present invention.
5 is a diagram schematically illustrating a state in which incident light is transmitted to a second image sensor in the camera module according to an embodiment of the present invention.

Hereinafter, an embodiment of a sensor assembly and a camera module having the same according to the present invention will be described with reference to the accompanying drawings. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of well-known functions or configurations may be omitted in order to clarify the gist of the present invention.

1 to 5 , a camera module according to an embodiment of the present invention includes a lens assembly 1 and a sensor assembly 2 .

The lens assembly 1 generates one incident light corresponding to the subject.

The lens assembly 1 may include two or more lenses arranged to correspond to the path of light transmitted from the subject, and a lens body supporting the two or more lenses at the same time.

The lens assembly 1 has a variety of known structures, and as is known, two or more lenses may be arranged on the lens body to fit the product.

The sensor assembly 2 converts the optical path of the incident light in a first direction perpendicular to the incident light or a second direction opposite to the first direction, so that the incident light traveling in the first direction is converted into a first signal, and the second Incident light traveling along the direction is converted into a second signal.

The sensor assembly 2 includes a sensor housing 21 on which incident light is incident, and a first image sensor 22 provided on a first surface of the side surfaces perpendicular to the incident surface on which the incident light is incident from the sensor housing 21, and the incident light. A second image sensor 23 provided on a second surface facing the first surface among the sides perpendicular to the incident surface, and a light path converting member 24 rotatably built into the sensor housing 21 and , it may include a conversion driving member 25 for rotating the optical path conversion member 24 forward and reverse.

In an embodiment of the present invention, the sensor housing 21 is illustrated as having a hexahedral shape, but the present invention is not limited thereto, and the external shape may be changed according to a corresponding product.

The sensor housing 21 forms an exterior. The surface on which the incident light is incident on the sensor housing 21 is referred to as the incident surface, the surface on which the first image sensor 22 is installed among the sides perpendicular to the incident surface is referred to as the first surface, and the second surface of the side perpendicular to the incident surface is referred to as the first surface. A surface on which the second image sensor 23 is installed is referred to as a second surface, and a surface facing the incident surface is referred to as a support surface. Here, the first surface and the second surface are in a state facing each other and are substantially parallel to each other. In addition, the incident surface and the support surface are in a state facing each other, and to be substantially parallel to each other.

The sensor housing 21 may include a sensor body 211 , a first sealing member 212 , a second sealing member 213 , an optical filter member 214 , and an optical path support member 215 . have.

The sensor body 211 typically has a rectangular frame shape. Since the conversion space 201 is formed inside the sensor body 211, the conversion space 201 can be utilized as a space in which the light path conversion member 24 is rotated forward and reverse and a space in which the light path support member 215 is installed. have.

At least the first surface, the second surface, and the incident surface of the sensor body 211 are opened. Here, the opening of the incident surface is referred to as an incident opening 202 , the opening of the first surface is referred to as a first opening, and the opening of the second surface is referred to as a second opening.

The first sealing member 212 seals the first opening formed on the first surface. The first sealing member 212 is provided with a first image sensor 22 .

The second sealing member 213 seals the second opening formed on the second surface. The second sealing member 213 is provided with a second image sensor 23 .

The optical filter member 214 seals the incident opening 202 formed on the incident surface. The optical filter member 214 filters the incident light to remove noise from the incident light.

The light path support member 215 positions the light path converting member 24 in accordance with the forward and reverse rotation of the light path converting member 24 . The light path support member 215 includes a support protrusion 2125-1 protruding from the center portion of the support surface, and a first inclination downward toward the support surface at the end of the support protrusion 2125-1 spaced apart from the support surface. It may include an inclined protrusion 215-3 and a second inclined protrusion 215-5 forming a downward inclination toward the support surface at the end of the support protrusion 2125-1 spaced apart from the support surface. At this time, the support protrusion 2125-1 protrudes vertically with respect to the support surface, and the inclined surface of the first inclined protrusion 215-3 and the inclined surface of the second inclined protrusion 215-5 are each inclined at 45 degrees. .

One or two or more of the first inclined protrusion 215-3 and the second inclined protrusion 215-5 may be formed, respectively.

Here, a first space portion 215-4 is formed between one side or both sides of one first inclined protrusion 215-3 or between two mutually adjacent first inclined protrusions 215-3, so that the sensor body 211 is formed. ) can exhibit an internal heat dissipation effect.

In addition, a second space portion 215-6 is formed between one side or both sides of one second inclined protrusion 215-5 or between two mutually adjacent second inclined protrusions 215-5, so that the sensor body 211 is formed. ) can exhibit an internal heat dissipation effect.

The first image sensor 22 converts the incident light into a first signal.

The second image sensor 23 converts the incident light into a second signal.

Then, since the image generated by the second signal coincides with an image obtained by magnifying a part of the image generated by the first signal by a preset magnification, one lens assembly 1 and the sensor according to an embodiment of the present invention The dual camera function is implemented by the assembly (2).

The optical path changing member 24 reflects the incident light to the first image sensor 22 or the second image sensor 23 .

In an embodiment of the present invention, the optical path changing member 24 may represent a prism structure having an incident part, a reflection part, and an output part. In this case, the incident part and the emitting part are substantially perpendicular, and the emitting part may be formed at a 45 degree angle with respect to the incident part and the emitting part to minimize reflection loss of the incident light.

Although not shown, the optical path changing member 24 may represent a reflective mirror structure.

The conversion driving member 25 is fixed to the center of the reflective part in the optical path converting member 24 having a prism structure or a rotation shaft fixed to the center of the optical path converting member 24 having a reflective mirror structure, and the side surface of the sensor body 211 . It may include a forward and reverse motor for generating a rotational force for forward and reverse rotation of the rotating shaft.

The camera module according to an embodiment of the present invention may further include a reflective member (3).

The reflective member 3 reflects the light transmitted from the subject to the lens assembly 1 .

Then, the light transmitted from the subject forms one incident light while passing through the lens assembly 1 .

Here, when the light path converting member 24 is rotated forward and the reflective portion of the light path converting member 24 is supported by the first inclined protrusion 215-3 as shown in FIG. 4 , the incident light is transmitted to the light path converting member ( 24) is reflected from the reflection unit and irradiated to the first image sensor 22, so that the first image sensor 22 may convert the incident light into a first signal.

In addition, when the light path converting member 24 is reversely rotated and the reflective portion of the light path converting member 24 is supported by the second inclined protrusion 215-5 as shown in FIG. 5, the incident light is transmitted to the light path converting member ( 24) and is reflected by the second image sensor 23, so that the second image sensor 23 may convert the incident light into a second signal.

According to the above-described sensor assembly and the camera module having the same, a single incident light incident through one lens assembly 1 can be transmitted to two different types of image sensors 22 and 23 to realize the function of a dual camera. have.

In addition, a normal image and an enlarged image may be acquired through two different types of image sensors 22 and 23 .

In addition, through the detailed configuration and coupling relationship of the sensor housing 21, the conversion space 201 of the sensor body 211 is darkened to prevent light leakage, and the two image sensors 22 and 23 facing each other are aligned in parallel. It can be placed in a position, and noise of incident light can be removed.

In addition, when the forward and reverse rotation of the light path converting member 24 is completed through the detailed structure of the light path supporting member 215, the light path converting member 24 is fixed in place to move the light path converting member 24 can be prevented, and the angle of reflection of incident light can be clearly maintained.

In addition, the sensor assembly 2 can be modularized to design compactly, and to simplify replacement and maintenance of consumables.

In addition, based on the support surface facing the incident surface, the support protrusion 2125-1 is made to protrude vertically from the center portion of the support surface, and the inclined surface of the first inclined protrusion 215-3 and the second inclined protrusion 215 are formed. -5) is provided to be inclined at 45 degrees from the ends of the support protrusions 2125-1, respectively, to stabilize the forward and reverse rotation of the optical path converting member 24, and to stably support the rotational axis of the converting driving member 25. and the optical path changing member 24 may be stably supported on each inclined surface.

In addition, through the additional configuration of the reflective member 3, the thickness of the product on which the camera module is installed can be reduced, and the optical path of the incident light can be sufficiently secured to obtain a clear image.

Although the preferred embodiment of the present invention has been described with reference to the drawings as described above, those skilled in the art may vary the present invention in various ways without departing from the spirit and scope of the present invention as set forth in the following claims. may be modified or changed.

1: lens assembly 2: sensor assembly 3: reflection member
21:; Sensor housing 201: conversion space 202: entrance opening
211: sensor body 212: first sealing member 213: second sealing member
214: optical filter member 215: optical path support member 215-1: support protrusion
215-3: first inclined protrusion 215-4: first space 215-5: second inclined protrusion
215-6: second space 22: first image sensor 23: second image sensor
24: light path conversion member 25: conversion drive member

Claims (5)

a sensor housing into which incident light is incident;
a first image sensor provided on a first surface of the side surfaces perpendicular to the incident surface on which the incident light is incident in the sensor housing and converting the incident light into a first signal;
a second image sensor provided on a second surface of the side surfaces facing the first surface and converting the incident light into a second signal;
an optical path conversion member rotatably mounted in the sensor housing and reflecting the incident light to the first image sensor or the second image sensor; and
Containing; a conversion drive member for rotating the optical path conversion member forward and reverse;
The sensor housing is
a sensor body having a conversion space formed therein, the first surface, the second surface, and the incident surface being opened;
a first sealing member sealing the first surface and having the first image sensor;
a second sealing member sealing the second surface and having the second image sensor; and
Includes; a light path support member for positioning the light path converting member in accordance with the forward and reverse rotation of the light path converting member;
In the optical path support member,
a first inclined protrusion provided at an angle on the supporting surface of the sensor housing and supported by the reflective portion of the optical path converting member when the incident light is transmitted to the first image sensor; and
and a second inclined protrusion provided on the supporting surface of the sensor housing to be inclined, and by which the reflective portion of the optical path changing member is supported when the incident light is transmitted to the second image sensor. According to claim 1,
The image generated by the second signal is
A sensor assembly, characterized in that it coincides with an image magnified by a predetermined magnification of a part of the image generated by the first signal. 3. The method of claim 1 or 2,
In the optical path support member,
a first space portion formed on one side or both sides of one of the first inclined protrusions or between two adjacent first inclined protrusions; and
a second space formed on one side or both sides of one of the second inclined protrusions or between two adjacent second inclined protrusions; At least one of the sensor assembly, characterized in that it further comprises. a lens assembly for generating one incident light corresponding to a subject; and
By converting the optical path of the incident light in a first direction perpendicular to the incident light or a second direction opposite to the first direction, the incident light traveling in the first direction is converted into a first signal, and the second direction Including; a sensor assembly that converts the incident light traveling along the second signal;
The sensor assembly is a camera module, characterized in that according to claim 1 or claim 2 . 5. The method of claim 4,
The camera module further comprising; a reflection member for reflecting the light transmitted from the subject to the lens assembly.

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