KR20210096893A - Camera module - Google Patents

Abstract

According to an embodiment, provided is a camera module for increasing reliability of electrical connection between terminal units and a liquid lens comprising: a substrate; a lens holder disposed on the substrate; a lens barrel coupled to the lens holder; a holder disposed in the lens barrel; a liquid lens disposed within the holder and including an electrode; a first current carrying unit disposed on the lens holder; a first terminal unit disposed in the holder and coupled to the first current carrying unit; and a second terminal unit connecting the first terminal unit and the electrode of the liquid lens. The second terminal unit comprises: a first part coupled to the electrode of the liquid lens; a second part coupled to the first terminal unit; and a third part connecting the first part and the second part. The third part includes at least one curved portion or bent portion.

Description

Camera Module {CAMERA MODULE}

The embodiment relates to a camera module and an optical device including the same.

High resolution, small size, and various photographing functions may be required for a camera module or optical device of a portable device. For example, the various shooting functions include at least one of an optical zoom function (zoom-in/zoom-out), an auto-focusing (AF: Auto-Focusing) function, or an image stabilization or image stabilization (OIS: Optical Image Stabilizer) function. can mean

The camera module or optical device may include a liquid lens unit to implement various photographing functions. The liquid lens unit may perform autofocus and image stabilization functions by electrically controlling the curvature of the interface between the two liquids.

The embodiment provides a camera module capable of improving the reliability of the electrical connection between the terminal part and the electrode of the liquid lens, and improving the reliability of the electrical connection between the terminal part and the energized part of the lens holder, and an optical device including the same .

A camera module according to an embodiment includes a substrate; a lens holder disposed on the substrate; a lens barrel coupled to the lens holder; a holder disposed on the lens barrel; a liquid lens disposed within the holder and comprising an electrode; a first conducting part disposed on the lens holder; a first terminal portion disposed on the holder and coupled to the first conducting portion; and a second terminal part connecting the first terminal part and the electrode of the liquid lens, wherein the second terminal part comprises: a first part coupled to the electrode of the liquid lens; a second part coupled to the first terminal part; and a third part connecting the first part and the second part, wherein the third part includes at least one curved part or a bent part.

The camera module may include a first conductive adhesive member disposed between the first portion of the second terminal part and the electrode of the liquid lens.

The second portion of the second terminal part may include a hole, and a second conductive adhesive member disposed in the hole to couple the first terminal part and the second terminal part.

The hole may include an opening, and the opening of the hole may be open to a second side opposite to a first side of the second portion of the second terminal portion, the first side being the second terminal portion It may be any one side of the second part connected to the third part.

The first terminal portion includes a first portion coupled to the second terminal portion; and a second portion protruding from a side surface of the holder.

The camera module may include a third conductive adhesive member disposed between the second part of the first terminal part and the first conducting part.

A groove may be formed in a side surface of the second portion of the first terminal part, and the second conductive adhesive member may contact the groove.

The camera module may include a second conducting unit spaced apart from the first conducting unit and disposed on the lens holder; and a thermistor including an electrode coupled to the second conducting part.

At least one groove may be formed in at least one of the first and second side surfaces of the second conducting part opposite to each other.

The camera module includes a top plate, a side plate, and a cover including an opening formed in the top plate, the lens holder and the sensor base are disposed in the cover, and the top plate of the cover has a first surface and a second surface , and a first inclined portion connecting the first surface and the second surface, wherein a second inclined portion corresponding to the first inclined portion may be formed on an upper portion of the lens barrel.

The embodiment may improve the reliability of the electrical connection between the terminal part and the electrode of the liquid lens, and may improve the reliability of the electrical connection between the terminal part and the energized part of the lens holder.

1 is a perspective view of a camera module according to an embodiment.
FIG. 2 is an exploded view of the camera module of FIG. 1 .
FIG. 3 is a cross-sectional view taken in the AB direction of the camera module of FIG. 1 .
4 is an exploded view of the first lens unit.
5 is a bottom view of the liquid lens.
6 is an upper perspective view of a holder of a first lens unit, a liquid lens, and a first terminal unit;
7A is a perspective view of a 1-1 terminal of the first terminal part;
7B is a perspective view of a 1-2 terminal of the first terminal part;
8A is a perspective view of a holder, a liquid lens, and a first terminal portion and a second terminal portion;
FIG. 8B illustrates a first conductive adhesive member bonding the first terminal part and the second terminal part of FIG. 8A .
9A is a lower perspective view of a holder of a first lens unit, a liquid lens, and a first terminal unit;
9B is a bottom perspective view of a holder of a first lens unit, a liquid lens, a first terminal unit, and a 2-2 terminal unit;
10 is a perspective view of a 2-1 terminal unit;
11 is an enlarged view of some terminals of a 2-1 terminal unit;
12 is a perspective view of a second terminal part 2-2;
13A to 13D are second terminal parts according to other exemplary embodiments.
14 is a perspective view of the first lens unit, the conducting member, and the lens holder accommodated in the lens barrel;
Fig. 15 is a perspective view of the energizing member and the lens holder;
16A is a cross-sectional view in the CD direction of the first lens unit and the lens holder of FIG. 14 .
FIG. 16B is a cross-sectional view in the EF direction of the first lens unit and the lens holder of FIG. 14 .
FIG. 16C is a cross-sectional view in the GH direction of the first lens unit and the lens holder of FIG. 14 .
17A is a front perspective view of the lens barrel;
17B is a rear side view of the lens barrel;
18 is a perspective view of energized portions of the energized member.
19A is a perspective view of a liquid lens unit and a conducting member accommodated in the lens barrel;
19B is a perspective view of the liquid lens unit, the conducting member, and the thermistor accommodated in the lens barrel.
20A is a top view of a first conductive part, a 1-1 terminal, and a conductive adhesive member;
FIG. 20B is an IJ cross-sectional view of the first conducting part, the 1-1 terminal, and the conductive adhesive member of FIG. 20A .
21 illustrates second portions of sixth and seventh conducting parts according to another exemplary embodiment.
22 is a perspective view of a portable terminal according to an embodiment.
23 is a block diagram of the portable terminal shown in FIG.

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

However, the technical spirit of the present invention is not limited to some of the embodiments described, but may be implemented in various different forms, and within the scope of the technical spirit of the present invention, one or more of the components may be selected between the embodiments. It can be combined and substituted for use.

In addition, the terms (including technical and scientific terms) used in the embodiments of the present invention have meanings that can be generally understood by those of ordinary skill in the art to which the present invention belongs, unless specifically defined and described explicitly. may be interpreted, and the meanings of commonly used terms such as predefined terms may be interpreted in consideration of the contextual meaning of the related art.

In addition, the terms used in the embodiments of the present invention are for describing the embodiments and are not intended to limit the present invention. In the present specification, the singular form may also include the plural form unless otherwise specified in the phrase, and when it is described as "at least one (or one or more) of A and (and) B, C", it can be combined with A, B, and C. It may include one or more of all possible combinations.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the component from other components, and are not limited to the essence, order, or order of the component by the term.

And, when it is described that a component is 'connected', 'coupled' or 'connected' to another component, the component is not only directly connected, coupled or connected to the other component, but also with the component It may also include a case of 'connected', 'coupled' or 'connected' due to another element between the other elements. In addition, when it is described as being formed or disposed on "above (above) or below (below)" of each component, the top (above) or bottom (below) is one as well as when two components are in direct contact with each other. Also includes a case in which another component as described above is formed or disposed between two components. In addition, when expressed as “upper (upper) or lower (lower)”, a meaning of not only an upper direction but also a lower direction based on one component may be included.

Hereinafter, a lens driving apparatus according to an embodiment, a camera module and an optical device including the same will be described with reference to the accompanying drawings. For convenience of description, description will be made using a Cartesian coordinate system (x, y, z), but may also be described using other coordinate systems, and the embodiment is not limited thereto. In each figure, the x-axis and y-axis mean a direction perpendicular to the z-axis, which is the optical axis direction, the z-axis direction, which is the optical axis direction, is called a 'first direction', and the x-axis direction is called a 'second direction', and y The axial direction may be referred to as a 'third direction'. For example, the optical axis direction may be parallel to the optical axis OA.

The camera module according to an embodiment may perform an 'auto-focusing function'. Here, the auto-focusing function refers to automatically focusing the image of the subject on the image sensor surface.

In addition, the camera module according to the embodiment may perform a 'hand shake correction function'. Here, the hand shake correction function refers to a function capable of preventing a clear outline of a photographed image from being formed due to vibration caused by a user's hand shake during photographing of a still image.

Also, the term “terminal” may be replaced with a pad, an electrode, a conductive layer, or a bonding part.

1 is a perspective view of a camera module 100 according to an embodiment, FIG. 2 is an exploded view of the camera module 100 of FIG. 1 , and FIG. 3 is a cross-sectional view taken in the AB direction of the camera module 100 of FIG. 1 .

1 to 3 , the camera module 100 includes a lens barrel 110 and a lens assembly 120 disposed or mounted on the lens barrel 110, and the camera module 100 includes a lens barrel ( It may include a lens holder 140 for accommodating the 110 , and a conducting member 90 disposed on the lens holder 140 .

Also, the camera module 100 may include an image sensor 160 disposed under the lens barrel 110 .

The camera module 100 may further include a thermistor 45 .

The lens holder 140 may be expressed by replacing it with "base".

The lens holder 140 may be disposed on the substrate 190 , and the lens barrel 110 may be coupled to the lens holder 140 .

The camera module 100 may further include a filter 150 .

The camera module 100 may further include a sensor base 180 for disposing or mounting the filter 150 . The sensor base 180 may be expressed by replacing it with a “holder”.

The camera module 100 may further include a substrate 190 .

In addition, the camera module 100 may further include a circuit element 170 disposed or mounted on the substrate 190 .

In addition, the camera module 100 may further include a cover 300 .

The substrate 190 may be a printed circuit board (PCB).

The substrate 190 is disposed under the sensor base 180 , and includes a first substrate 191 , a second substrate 192 connected to the first substrate 191 , and a third substrate connected to the second substrate 192 . It may include a connector 194 connected to the board 193 and the third board 193 .

For example, the circuit device 170 may be disposed or mounted on the first substrate 191 . Also, the substrate 190 may include at least one terminal 195 disposed or formed on the first substrate 191 . For example, the number of terminals 195 of the substrate 190 may be plural, and the plurality of terminals 195 of the substrate 190 may correspond to, face, or overlap with the conducting member 90 in the optical axis direction. , may be electrically connected to the conducting member 90 through solder or the like.

A sensor base 180 and an image sensor 160 may be disposed on the first substrate 191 . For example, the first substrate 191 and the third substrate 192 may be a rigid printed circuit board, and the second substrate 192 may include the first substrate 191 and the third substrate 193 . It may be a flexible printed circuit board (Flexible Printed Circuit Board) for electrically connecting . In another embodiment, the first to third substrates may be one substrate implemented integrally.

The image sensor 160 may be disposed or mounted on the substrate 190 . For example, the image sensor 160 may be disposed or mounted on the upper surface of the first substrate 191 , and may be electrically connected to the substrate 190 .

The optical axis of the image sensor 160 and the optical axis of the lens assembly 120 may be aligned. The image sensor 160 may include an effective image region (or active region), convert light irradiated to the effective image region (or active region) into an electrical signal, and output the converted electrical signal.

The circuit element 170 may be electrically connected to the first substrate 191 , and may constitute a controller for controlling the image sensor 160 and the first lens unit 130 . For example, the circuit element 170 may include at least one of at least one capacitor, a memory, a controller, a sensor, and an integrated circuit (IC).

The camera module 100 may further include a cover 175 disposed on the first substrate 191 to protect the circuit element 170 and covering the circuit element 170 .

The sensor base 180 may be disposed on the substrate 190 . For example, the sensor base 180 may be disposed on the upper surface of the first substrate 191 , and may be attached or coupled to the upper surface of the first substrate 191 . For example, the sensor base 180 may be disposed between the substrate 190 and the lens holder 140 .

The camera module 100 is disposed between the sensor base 180 and the substrate 190 and may include an adhesive (not shown) for attaching or fixing the sensor base 180 to the upper surface of the substrate 190 .

The sensor base 180 surrounds the image sensor 160 and protects the image sensor 160 from external foreign substances or impact, and the sensor base 180 is an effective image area (or active area) of the image sensor 160 . It may include an opening 181 exposing the . For example, the opening 181 may be a through hole passing through the sensor base 180 in the optical axis OA direction.

In addition, a seating portion 182 for seating the filter 150 may be provided on the upper surface of the sensor base 180 . The seating part 182 may have a step difference with the upper surface of the sensor base 180 in the optical axis direction, and may be formed to surround the opening 181 . For example, the seating part 182 may be in the form of a groove recessed from the upper surface of the sensor base 180 , but is not limited thereto. In another embodiment, the seating part may be in the form of a protrusion protruding from the upper surface of the sensor base 180 .

A portion of the lower surface of the sensor base 180 may be depressed to form a space or a seating groove (not shown) in which the image sensor 160 is disposed.

In addition, the sensor base 180 may be disposed on the first substrate 191 to be spaced apart from the circuit element 170 so as not to overlap in the optical axis direction. In another embodiment, the sensor base 180 may be omitted.

The filter 150 may be disposed on the sensor base 180 . For example, the filter 150 may be disposed on the seating portion 182 of the sensor base 180 , and may be located on the effective image area (or active area) of the image sensor 160 .

The filter 150 may be disposed between the lens assembly 120 and the image sensor 160 , and may filter light corresponding to a specific wavelength range with respect to the light passing through the lens assembly 120 . For example, the filter 150 may be an infrared (IR) blocking filter that blocks infrared rays or an ultraviolet (UV) blocking filter that blocks ultraviolet rays, but the embodiment is not limited thereto. For example, the filter 150 may include at least one of an infrared cut filter and an ultraviolet cut filter.

The lens holder 140 may be disposed on the substrate 190 .

For example, the lens holder 140 may be disposed on the sensor base 180 . For example, the lower surface of the lens holder 140 may be coupled to the upper surface of the sensor base 180 .

The lens holder 140 may be disposed in the cover 300 . Also, the sensor base 180 may be disposed in the cover.

The lens holder 140 may be formed of an insulating material.

The lens holder 140 may be disposed between the lens assembly 120 and the substrate 190 . For example, the lens holder 140 may be disposed between the first lens unit 130 and the first substrate 191 .

A conducting member 90 may be disposed in the lens holder 140 , and driving signals (eg, a driving voltage) provided from the substrate 190 through the conducting member 90 are transmitted to the first lens unit 130 . may be transmitted, and a temperature sensing signal output from the thermistor 45 may be transmitted to the substrate 190 .

An adhesive (not shown) may be disposed between the sensor base 180 and the lens holder 140 , and the adhesive may bond the two.

For example, the adhesive may be disposed between the upper surface of the sensor base 180 and the lower surface of the lens holder 140 , and may couple or attach both. Also, for example, an adhesive may be disposed between the side of the sensor base 180 and the lens holder 140 . For example, the adhesive may seal between the sensor base 180 and the lens holder 140 .

In addition to the adhesive, the camera module 100 according to the embodiment includes an adhesive for bonding the lens barrel 110 and the lens holder 140 , and an adhesive for bonding the holder 80 and the lens holder 140 of the first lens unit 130 . An adhesive or the like may be additionally provided.

The lens assembly 120 may be mounted or disposed on the lens barrel 110 . The lens assembly 120 may be replaced with a “lens module”. In another embodiment, the lens module may include a lens barrel 110 and a lens assembly 120 .

The lens assembly 120 may include a first lens unit 130 including a liquid lens. For example, the lens assembly 120 may include a first lens unit 130 , a second lens unit 112 , and a third lens unit 113 .

The first lens unit 130 may include an optical unit, and the optical unit may include at least one lens. can

For example, the first lens unit 130 may include a variable lens. The variable lens may be a variable focus lens. Also, the variable lens may be a lens whose focus is controlled.

The variable lens may be at least one of a liquid lens, a polymer lens, a liquid crystal lens, a voice coil motor (VCM) type, and a shape memory alloy (SMA) type.

In this case, the liquid lens may include a liquid lens containing one liquid and a liquid lens containing two liquids. A liquid lens including one liquid may change the focus by adjusting a membrane disposed at a position corresponding to the liquid, for example, by pressing the membrane by electromagnetic force of a magnet and a coil to change the focus. A liquid lens including two liquids may control the interface formed between the conductive liquid and the non-conductive liquid by using a voltage applied to the liquid lens including the conductive liquid and the non-conductive liquid.

In addition, in this case, the polymer lens may change the focus of the polymer material through a driving unit such as a piezo.

In addition, the liquid crystal lens may change the focus by controlling the liquid crystal by electromagnetic force.

In addition, the VCM type can change the focus by adjusting a solid lens or a lens assembly including a solid lens through electromagnetic force between a magnet and a coil.

In addition, the SMA type can change the focus by controlling a solid lens or a lens assembly including a solid lens using a shape memory alloy.

Also, the “optical unit” may include a filter that transmits a specific wavelength region. For example, a filter that transmits a specific wavelength region may include an IR pass filter. In addition, the optical unit may include an optical plate. For example, in this case, the optical plate may be a light transmissive plate.

The controller of the camera module 100 or the controller 830 of the optical device 200A may control the variable lens of the optical unit to shift the input light signal by a predetermined moving distance on the image sensor. The control unit may shift the optical path of the input optical signal by using the variable lens of the optical unit.

Alternatively, for example, in the lens assembly 120, the first lens unit 130 may be expressed by replacing the “liquid lens unit”, and the second lens unit 112 may be expressed by replacing the “first solid lens unit”. Also, the third lens unit 113 may be replaced with a “second solid lens unit”.

In another embodiment, at least one of the second and third lens units 111 and 112 may be omitted from the lens assembly. Also, in another embodiment, the lens assembly 120 may include the lens barrel 110 of FIG. 2 .

The first lens unit 130 may include a liquid lens 50 .

4 is an exploded view of the first lens unit 130 , FIG. 5 is a bottom view of the liquid lens 50 , and FIG. 6 is a holder 80 of the first lens unit 130 , the liquid lens 50 , and It is a top perspective view of the first terminal part 40 , FIG. 7A is a perspective view of the 1-1 terminal 4A of the first terminal part 40 , and FIG. 7B is a first-second terminal 4G of the first terminal part 40 . ), FIG. 8A is a perspective view of the holder 80 , the liquid lens 50 , and the first terminal part 40 , and the second terminal part 60 , and FIG. 8B is the first terminal part 40 of FIG. 8A . and the first conductive adhesive member 68A for bonding the second terminal part 60 to the holder 80 of the first lens part 130 , the liquid lens 50 , and the first terminal part 40 in FIG. 9A . is a lower perspective view of, FIG. 9B is a lower perspective view of the holder 80, the liquid lens 50, the first terminal part 40, and the third terminal part 70 of the first lens part 130, and FIG. A perspective view of the 2-1 terminal unit 60 , FIG. 11 is an enlarged view of some terminals of the 2-1 terminal unit 60 , and FIG. 12 is a perspective view of the 2-2 terminal unit 70 .

4 to 12 , the first lens unit 130 may include a liquid lens 50 , terminals 40 , 60 , 70 , and a holder 80 . In another embodiment, the holder 80 may be a separate configuration that is not included in the first lens unit.

The liquid lens 50 may be disposed between the lens of the second lens unit 112 and the lens of the third lens unit 113 , and between the lens of the second lens unit 112 and the third lens unit 113 . The lenses may be spaced apart from each other in the optical axis direction.

The liquid lens 50 may include a liquid lens region containing different types of liquids, a first electrode 51 , and a second electrode 52 . The first electrode 51 may be expressed by replacing the “upper electrode” and the second electrode 52 may be expressed by replacing the “lower electrode”.

The liquid lens region may include a first liquid having conductivity and a second liquid having non-conductivity, and an interface may be formed between the first liquid and the second liquid.

The liquid lens 50 may include at least one heater that generates heat in response to a driving signal (or a control signal). The heater may be implemented in the form of a resistor capable of generating heat in response to a driving signal (or a control signal), but is not limited thereto.

The first electrode 51 may be disposed on a first surface (eg, an upper surface) of the liquid lens 50 , and the second electrode 52 has a second surface opposite to the first surface of the liquid lens 50 . (eg, the lower surface) may be disposed. For example, the first electrode 51 and the second electrode 52 may be separated from each other or may be independent electrodes.

The first electrode 51 may include a plurality of first electrodes 51-1 to 51-n, where n>1, for example, n=10, which are disposed to be spaced apart from each other. For example, the first electrode 51 may include 1-1 to 1-10 first electrodes 51-1 to 51-10.

For example, the plurality of first electrodes 51 to 54 may be individual terminals or individual electrodes, but is not limited thereto. In another embodiment, at least two of the plurality of first electrodes may be a common electrode connected to each other.

The plurality of first electrodes 51-1 to 51-10 may be disposed around the liquid lens area. A driving signal for deforming an interface between the first liquid and the second liquid may be provided to the first electrode 51 and the second electrode 52 .

Each of the plurality of first electrodes 51-1 to 51-10 may be exposed from a first surface (eg, an upper surface) of the liquid lens 50 . For example, each of the plurality of first electrodes 51-1 to 51-10 may include a portion exposed from a first surface (eg, an upper surface) of the liquid lens 50 .

For example, each of the plurality of first electrodes 51-1 to 51-10 may be formed to be spaced apart from the outer surface of the liquid lens 50 .

For example, an upper surface of each of the plurality of first electrodes 51-1 to 51-10 and an upper surface of the liquid lens 50 may have a step in the optical axis direction, but is not limited thereto. For example, a height of an upper surface of each of the plurality of first electrodes 51-1 to 51-10 may be lower than a height of an upper surface of the liquid lens 50 .

For example, the first electrodes 51-1 to 51-10 may be electrically or materially separated from each other. Separate driving signals may be provided to at least two or more of the first electrodes 51-1 to 51-10.

For example, a first driving signal (or a first control signal) may be applied between the 1-1 electrode 51-1 and the common electrode. A second driving signal (or a second control signal) may be applied between the 1-2 th electrode 51 - 2 and the common electrode. A third driving signal (or a third control signal) may be applied between the 1-3 th electrode 51-3 and the common electrode. A fourth driving signal (or a fourth control signal) may be applied between the 1-4 th electrodes 51-4 and the common electrode. For example, the common electrode may be the second electrode 52 .

For example, each of the first to fourth driving signals may be in the form of a voltage or a current. At this time, each of the 1-1 to 1-4 electrodes 51-1 to 51-4 may correspond to a separate positive electrode for controlling the liquid lens 50, and the second electrode ( 52 may be a common negative electrode for controlling the liquid lens.

In the liquid lens 50 , the interface formed between the first liquid (eg, conductive liquid) and the second liquid (eg, non-conductive liquid) may be deformed by the first to fourth driving signals, and the modified interface may be deformed. Accordingly, the focal length of the liquid lens 50 may be adjusted. Through this, any one or more of an AF function and an OIS function may be performed with respect to the lens assembly 120 .

In FIG. 4 , the 1-1 to 1-4 electrodes 51-1 to 51-4 are arranged in a line on one side of the liquid lens 50 , but the present invention is not limited thereto. Each of the 1-1 to 1-4 electrodes may be disposed on a corresponding one of the four corner regions of the first surface (eg, the upper surface) of the liquid lens 50 .

The second electrode 52 may include at least one electrode.

For example, the second electrode 52 may include a plurality of second electrodes 52-1 to 52-4. For example, the second electrode 52 may include 2-1 to 2-4 electrodes 52-1 to 52-4. For example, the number of the second electrodes is not limited to four, and may be one or two or more in another embodiment.

The 2-1 to 2-4 electrodes 52-1 to 52-4 may be exposed to the second surface of the liquid lens 50 . For example, each of the 2-1 to 2-4 electrodes 52-1 to 52-4 may include a portion exposed to the second surface of the liquid lens 50 . The second surface may be opposite to the first surface of the liquid lens 50 .

The 2-1 to 2-4 electrodes 52-1 to 52-4 may be formed or disposed at four corners of the second surface (eg, the lower surface) of the liquid lens 50 , but are limited thereto. it's not going to be In another embodiment, the second electrode may be disposed on the side of the second surface of the liquid lens.

Also, for example, any one of the 2-1 to 2-4 electrodes 51-1 to 51-4 (eg, the 2-1 electrode 52-1) is a first-order for controlling the liquid lens. The 1st to 1-4th electrodes 51-1 to 51-4 may be a common electrode, for example, a common negative electrode. For example, a ground voltage may be provided to the common electrode (eg, 52-1), but is not limited thereto.

For example, the 2-1 to 2-4 electrodes 51-1 to 51-4 may form one and the same common electrode (eg, the first electrode), but is not limited thereto.

In another embodiment, for example, any one of the 2-1 to 2-4 electrodes 51-1 to 51-4 may be an individual electrode independent of the common electrode, an individual terminal, or a second common electrode. . For example, the common electrode and the second common electrode may be electrically and physically separated or isolated from each other, but the present invention is not limited thereto. In another embodiment, the common electrode and the second common electrode may be connected to each other or formed integrally. .

In an embodiment, epoxy may be applied through the space between the liquid lens 50 and the solid lenses of the second and third lens units 112 and 113, and active alignment of the liquid lens 50 is performed. can

Also, in another embodiment, the functions or roles of the first electrode 51 and the second electrode 52 of the liquid lens 50 may be implemented opposite to each other. That is, for example, the second electrodes could be separate terminals to do what the first electrodes described above do.

The first electrode 51 and the second electrode 52 may be formed of a conductive member, for example, a conductive metal, but is not limited thereto.

The holder 80 accommodates or supports the liquid lens 50 and the terminal portions 40 , 60 , 70 .

The holder 80 may have a hole 81A for accommodating the liquid lens 50 . For example, the hole 81A may pass through the holder 80 in the optical axis direction. The liquid lens 50 may be disposed or seated in the hole 81A of the holder 80 .

The holder 80 may have a shape that can be mounted on the first barrel part 110A of the lens barrel 110 .

The terminal parts 40 , 60 , and 70 may be disposed on the holder 80 .

The terminal parts 40 , 60 , and 70 may be electrically connected to the liquid lens 50 and electrically connected to the conducting member 90 .

For example, the terminals 40 , 60 , 70 are connected to the electrodes 51 and 52 of the liquid lens 50 and the conductive parts 91-1 to 91- of the conductive member 90 by the conductive adhesive members 68A and 68B. 5) can be electrically connected.

For example, the conductive adhesive member may be solder or a conductive adhesive (eg, conductive epoxy), or may include any one or more of these.

The terminal parts 40 , 60 , and 70 include a first terminal part 40 disposed on the holder 80 , and a second terminal part connecting the electrodes 51 , 52 and the first terminal part 40 of the liquid lens 50 ( 60, 70).

The first terminal part 40 includes a 1-1 terminal part connected to the first electrode 51 of the liquid lens 50 and a 1-2 terminal part connected to the second electrode 52 of the liquid lens 50 . may include

7A may be an embodiment of a 1-1 terminal unit.

Referring to FIG. 7A , the 1-1 terminal part may be disposed on the upper part, the upper end, or the upper surface of the holder 80 , and extends from the upper part, the upper end, or the upper surface of the holder 80 toward the energizing part of the energizing member 90 . can be

The 1-1 terminal unit may include at least one 1-1 terminal. For example, the 1-1 terminal unit may include a plurality of 1-1 terminals 4A to 4F.

For example, the 1-1 terminal part is connected to or coupled to the first part 53a disposed on the upper part, the upper end, or the upper surface of the holder 80 , and the conductive parts 91-1 to 91-4 of the conductive member 90 . It may include a second part 53b, and a third part 53c connecting the first part 53a and the second part.

The second part 53b of the 1-1 terminal part may protrude from the side surfaces 80A and 80B of the holder 80, and is coupled to the conductive parts 91-1 to 91-4 by the conductive adhesive 68B. can be

The first part 53a of the 1-1 terminal part may be disposed on the upper surface 8a of the holder 80 , and the third part 53c may be disposed on the side surfaces 80A and 80B of the holder 80 . and one end of the third part 53c may be connected to one end of the first part 53a, and the other end of the third part 53c may be connected to one end of the second part 53b.

The 1-1 terminal part may include a first bent part 53d, and the first bent part 53d may connect one end of the first part 53a and one end of the third part 53c, and a holder. It may be bent in the direction of the side surface (80A, 80B) of the holder (80) in the upper surface (8a) of (80).

The 1-1 terminal part may further include a second bent part 53e. The second bent portion 53e connects the other end of the third portion 53c and one end of the second portion 53b, and is bent from the side surfaces 80A and 80B of the holder 80 in the outward direction of the holder 80 . can be

For example, the third portion 53c may form a right angle to the first portion 53a and the second portion 53b, but is not limited thereto.

For example, at least one (eg, 4A to 4D) of the 1-1 terminals 4A to 4F may be selected from among the first to third portions 53a to 53c and the first and second bent portions 53d and 53e. It may include at least one.

The first-first terminals 4A to 4F may be disposed on two side surfaces 80A and 80B positioned opposite to each other of the holder 80 . For example, the four 1-1 terminals 4A, 4D, 4E, and 4F may be disposed at four corners of the upper portion of the holder 80 , and the two 1-1 terminals 4B and 4C The silver holder 80 may be disposed between the two 1-1 terminals 4A and 4D disposed at the two corners.

For example, the shape of the first portion 53a may be a shape that is bent once, for example, a “b” shape, but is not limited thereto.

At least one of the first-first terminals 4A to 4F may include at least one extension part 53-1 that is bent and extended from the first part 53a. In FIG. 7A , the 1-1 terminal unit includes one extension part 53-1, but the present invention is not limited thereto. In another embodiment, two or more extension parts may be provided.

The at least one extension 53 - 1 may be located inside the holder 80 , and may be surrounded by the holder 80 . For example, the extension 53 - 1 may not be exposed outside the holder 80 , but is not limited thereto, and in another embodiment, at least a portion of the extension 53 - 1 may be exposed outside the holder 80 . .

A groove 53A for facilitating bending of the extension 53-1 may be formed on one side surface of the first portion 53a adjacent to the extension portion 53-1. For example, the groove 53A may be formed adjacent to both sides of the extension part 53 - 1 .

The upper surface of the first part 53a of the 1-1 terminal part may be exposed from the upper surface of the holder 80 , and the third part 53c and the first and second bent parts 53d and 53e are connected to the holder 80 . ) may be exposed from the first and second sides 80A, 80B, and the second portion 53b may protrude from the first side 80A or the second side 80B of the holder 80 . .

A groove 53B or a hole may be formed in the second portion 53b of the 1-1 terminal part.

The groove 53B may be formed in a side surface of the second part 53b of the first-first terminal part. The groove 53B of the second portion 53b may be a region in which the conductive adhesive member 68B is disposed or applied in order to be coupled to the conductive member 90 .

The groove 53B may be recessed from the side surface of the second part 53b. For example, the shape of the groove 53B viewed from above may be a semicircle, a semi-ellipse, or a polygonal shape such as a triangle, a square, or a cross shape.

In another embodiment, a through hole may be formed in the second portion 53b of the first-first terminal part instead of the groove 53B.

7B may be an exemplary embodiment of the 1-2-th terminal part 4G.

Referring to FIG. 7B , the 1-2-th terminal part 4G protrudes from the first part 54a (or the first coupling part) exposed to the lower part of the holder 80 and the side surface 80B of the holder 80 . It may include a second portion 54b (or a second coupling portion) and a third portion 54c connecting the first portion 54a and the second portion 54b.

For example, the 1-2 terminal portion 4G includes a first portion 54a connected or coupled to the third terminal portion 70 , and a second portion connected or coupled to the conductive portion 92 - 5 of the conductive member 90 . 54b, and a third portion 54c connecting the first portion 54a and the second portion 54b.

Also, for example, the 1-2 first terminal part 4G may include a first bent part 54d, and the first bent part 54d includes one end of the first part 53a and one end of the third part 53c. may be connected, and may be bent in a direction from one end of the first part 54a toward the upper surface 8a of the holder 80 .

The 1-2-th terminal part 4G may further include a second bent part 54e. The second bent portion 54e connects the other end of the third portion 54c and one end of the second portion 54b, and may be bent from the side surface 80B of the holder 80 to the outside of the holder 80 . there is.

The 1-2-th terminal part 4G may include an extension part 54b1 connected to one end of the third part 54c and protruding or extending from the side surface of the holder 80 . For example, the extended length of the extended portion 54b1 may be smaller than the length of the second portion 54b that protrudes or extends from the side surface 80B of the holder 80 .

The first portion 54a of the 1-2-th terminal part 4G may be disposed under the upper surface 8a of the holder 80 . The second portion 54b may protrude from the side surface 80B of the holder 80 . At least a portion of the third portion 54c may be disposed on the upper surface 8a and the side surface 80B of the holder 80 .

The holder 80 may include a hole 25B exposing at least a portion of the 1-2 th terminal part 4G to the lower portion of the holder 80 .

For example, the holder 80 may have a hole 25B formed between the opening 81A and the side surface 80B of the holder 80 .

The hole 25B may pass through the holder 80 in the optical axis direction, but is not limited thereto. In another embodiment, the holder may be recessed from the lower surface of the holder and may include a groove exposing the lower surface of the first portion 54a of the second-first terminal 4G.

A groove 54B or a hole may be formed in the second portion 54b of the 1-2-th terminal part 4G.

The groove 54B may be formed in a side surface of the second part 54b of the 1-2-th terminal part 4G. The groove 54B of the second portion 54b may be a region in which the conductive adhesive member 68B is disposed or applied for bonding to the conductive member 90 .

The groove 54B may be recessed from the side surface of the second portion 54b of the first-second terminal portion 4G. For example, the shape of the groove 54B viewed from above may be a semi-circle, a semi-ellipse, or a polygonal shape such as a triangle, a square, or a cross shape.

In another embodiment, a through hole may be formed in the second portion 54b of the 1-2 th terminal part 4G instead of the groove 54B.

For example, the first portion 54a of each of the 2-1 th terminal 4G may be positioned lower than the first portion 53a of the 1-1 terminals 4A to 4F of the 1-1 terminal part, The present invention is not limited thereto. In another embodiment, the former may be disposed at the same height as the latter.

A third portion 54c of the 1-2-th terminal portion 4G is connected to a first region 3A connected to the first portion 54a and extended in an upward direction, and connected to the second portion 54b and extended in an upward direction. It may include a second region 3B, and a third region 3C connecting the first region 3A and the second region 3B.

For example, the first area 3A may be disposed in the hole 25B, the second area 4B may be disposed on the side surface 80B of the holder 80 , and the third area 3C may be disposed in the holder ( It may be disposed on the upper surface 8a of the holder 80 adjacent to the side surface 80B of the 80 .

For example, the first region 3A and the second region 3B may have a straight shape, and the third region 3C may have an upward convex curve or bent shape, for example, a “∩” shape, but is not limited thereto. it is not In another embodiment, the third region may have a straight line shape.

For example, the connected portion of the first region 3A and the first portion 54a may be bent or curved, and the connected portion of the second region 3B and the second portion 54b may be bent or curved. there is.

For example, at least a portion of the first portion 54a of the first - 2 terminal portion may overlap a portion of the second - 2 terminal portion 70 in the optical axis direction.

For example, the 1-2-th terminal part may be disposed on the side surface 80B of the holder 80 , and may be disposed between the two 1-1-1 terminals 4E and 4F.

The first terminal part 40 may have a structure in which a separate terminal or conductor is coupled or bonded to the holder 80, but is not limited thereto. In another embodiment, the first terminal part 40 and the holder ( 80) may be integrally formed.

The second terminal units 60 and 70 may include at least one terminal connecting the first terminal unit 40 and the conducting member 90 .

For example, the second terminal parts 60 and 70 communicate with the 2-1 th terminal part 60 and the 1-2 th terminal part 4G connecting the 1-1 terminal part and the conducting parts 90-1 to 90-4. It may include a 2-2 terminal part 70 connecting all parts 90 - 5 .

For example, the 2-1 th terminal unit 60 may include a plurality of 2-1 th terminals 61 to 66 spaced apart from each other. For example, the second-first terminal unit 60 may include six terminals 61 to 66 spaced apart from each other.

The 2-2nd terminal part 70 may include at least one 2-2nd terminal. For example, the 2-2 terminal part 70 may include one 2-2 terminal, but is not limited thereto. In another embodiment, the 2-2 terminal part 70 includes two or more 2-2 terminals. You may.

At least a portion of the second terminal parts 60 and 70 may be disposed on the first terminal parts 4A to 4G.

At least a portion of the 2-1-th terminal part 60 may be disposed on the 1-1-th terminal parts 4A to 4F. For example, at least a portion of the 2-1 th terminal part 60 may be disposed on the first part 53a of the 1-1 th terminal part 4A to 4F. For example, at least a portion of the 2-1 th terminal part 60 and the first part 53a of the 1-1 th terminal parts 4A to 4F may overlap in the optical axis direction.

A conductive adhesive member 68A may be disposed between at least a portion of the 2-1 th terminal part 60 and the first part 53a of the 1-1 th terminal parts 4A to 4F, and the conductive adhesive member 68A includes: The protons can be directly coupled and the protons can be electrically connected.

At least a portion of the second-second terminal part 70 may be disposed under the first-second terminal part 4G. For example, at least a portion of the second-second terminal part 70 may be disposed below the first part 54a of the first-second terminal part 4G. For example, at least a portion of the 2-2 terminal part 70 and the first part 54a of the 1-2 terminal part 4G may overlap in the optical axis direction.

A conductive adhesive member 68B may be disposed between at least a portion of the second-second terminal portion 70 and the first portion 54a of the first-second terminal portion 4G, and the conductive adhesive member 68B binds the two together. It is possible to couple directly and electrically connect the two.

For example, each of the 2-1 th terminals 61 to 66 may be coupled to a corresponding one of the first electrodes 51-1 to 51-4, 51-6, 51-10 of the liquid lens 50 . can

For example, the 2-2 terminal part 70 may be coupled to any one of the second electrodes 52-1 to 52-4.

Referring to FIG. 8A , the 2-1 th terminal part 60 includes a first part 60 - 1 coupled to the first electrode 51 , and a first part of the first terminal part 40 disposed on the holder 80 . It may include a second part 60-2 coupled to the 53a, and a third part 60-3 connecting the first part 60-1 and the second part 60-2.

The first portion 60 - 1 may be electrically connected to the first electrode 51 . For example, the first portion 60-1 may be directly bonded or connected to the first electrode 51 by a conductive adhesive 68-1 (see FIG. 16A), for example, conductive epoxy, or Ag epoxy.

The third part 60 - 3 may be expressed by replacing the "connection part". In FIG. 8A , only the first part 60-1, the second part 60-2, and the third part 60-3 of the 2-1 terminal 61 of the 2-1 terminal part 60 are shown. Although illustrated, the description of the first to third portions 60-1, 60-2, and 60-3 of the first terminal 61 is described with respect to the other terminals 62 to 66 of the second-first terminal unit 60. ) can also be applied or applied mutatis mutandis.

Also, for example, the second part 60 - 2 of the second-first terminal part 60 may include a part protruding from the side surfaces 80A and 80B of the holder 80 .

For example, the 2-1-th terminal part 60 extends from one side (or sidewall) of the second part 60-2 and protrudes from the side surfaces 80A and 80B of the holder 80 (see FIG. 11 ). ) may be included.

The first part 60 - 1 of the 2-1 th terminal part 60 overlaps the first part 53a of the 1-1 terminals 4A to 4F of the 1-1 terminal part in the optical axis OA direction. can be

Referring to FIG. 11 , one end of the third part 60 - 3 may be connected or coupled to a part of the first part 60 - 1 .

For example, one end of the third portion 60-3 may be connected or coupled to any one corner or any one corner portion of the first portion 60-1.

For example, one end of the third part 60-3 is adjacent to or opposite to the third part 60-3 (or the second part 60-2) at corners ( or corners) may be connected or coupled to any one of them.

In FIG. 11 , one end of the third part 60-3 is connected to the right corner of the first part 60-1 when the first part 60-1 is viewed from the third part (or the second part) or However, it is not limited thereto, and in another embodiment, it may be connected or coupled to the left corner (or left corner) of the first part 60 - 1 .

In another embodiment, one end of the third part 60-3 is adjacent to or opposite to the third part 60-3 (or the second part 60-2) of the first part 60-1. It may be connected or coupled to any one of the outer surfaces or any one of the outer sides, and may be spaced apart from the corners of the first part 60 - 1 .

For example, the other end of the third part 60 - 3 may be connected to or coupled to a part of the second part 60 - 2 .

For example, referring to FIG. 11 , one end of the third part 60 - 3 and the other end of the third part 60 - 3 may be located opposite to each other with respect to the reference line 402 . The reference line 402 passes through the center 401 of the first part 60-1 and is in a direction from the first part 60-1 to the second part 60-2 or in the direction of the first part 60-1. It may be a straight line parallel to the vertical direction.

The width W1 of the third part 60-3 of the 2-1 terminal part 60 is smaller than the length L1 of the third part 60-3 of the 2-1 terminal part 60 (W1< L1). At this time, the length L1 of the third part 60-3 is the third part connected to the second part 60-2 from one end of the third part 60-3 connected to the first part 60-1. It may be a length in a direction in which the third portion 60 - 3 up to the other end of the portion 60 - 3 extends. Also, the width W1 of the third part 60 - 3 may be the length of the third part 60 - 3 in a direction perpendicular to the extending direction of the third part 60 - 3 .

The third part 60 - 3 may include at least one curved part or a bent part.

The third part 60 - 3 may have a leg shape, and may have a line shape that is bent or bent at least once.

The width W1 of the third part 60 - 3 may be smaller than the width W1 of the first part 60 - 1 .

For example, the width of the first portion 60 - 1 may be the length L11 in the vertical direction of the first portion 60 - 1 or the length L12 in the horizontal direction of the first portion 60 - 1 . .

Alternatively, for example, the width of the first portion 60 - 1 may be the diameter (eg, the minimum diameter) of the first portion 60 - 1 .

In this case, the diameter of the first part 60-1 may be the length of a straight line passing through two points facing each other on the outer circumferential surface of the first part 60-1 and the center of the first part 60-1. . Alternatively, for example, the diameter of the first portion 60 - 1 may be the length L11 in the longitudinal direction or the length L12 in the horizontal direction of the first portion 60 - 1 . For example, the minimum diameter may be the smallest diameter among the diameters of the first part 60 - 1 .

For example, the width W1 of the third portion 60 - 3 may be smaller than the length L11 (or the minimum length) of the first portion 60 - 1 in the first horizontal (or vertical) direction ( W1<L11).

For example, the width W1 of the third portion 60 - 3 may be smaller than the length L12 (or the minimum length) of the first portion 60 - 1 in the second horizontal direction (or the horizontal direction) ( W1<L12).

For example, the area of the upper surface (or lower surface) of the third part 60 - 3 may be smaller than the area of the upper surface or the lower surface of the first part 60 - 1 .

Also, the width W1 of the third portion 60 - 3 may be smaller than the width of the second portion 60 - 2 .

For example, the width of the second part 60 - 2 may be the length L2 in the longitudinal direction of the second part 60 - 2 or the length L3 in the horizontal direction of the second part 60 - 2 . .

Alternatively, for example, the width of the second portion 60 - 2 may be the diameter (eg, the minimum diameter) of the second portion 60 - 2 . In this case, the diameter of the second part 60-2 may be the length of a straight line passing through two points facing each other on the outer peripheral surface of the second part 60-2 and the center of the second part 60-2. . For example, the minimum diameter may be the smallest diameter among the diameters of the second part 60 - 2 .

For example, the width W1 of the third portion 60-3 may be smaller than the length L2 (or the minimum length) of the second portion 60-2 in the first horizontal direction (or vertical direction) ( W1<L2).

For example, the width W1 of the third part 60-3 may be smaller than the length L3 (or the minimum length) of the second part 60-2 in the second horizontal direction (or the horizontal direction) ( W1<L3).

For example, the area of the upper surface (or lower surface) of the third part 60 - 3 may be smaller than the area of the upper surface or the lower surface of the second part 60 - 2 .

The first part 60-1 of the 2-1 terminal part 60 includes the 1-1 part overlapping the first electrode 51 of the liquid lens 50 in the optical axis direction and the first electrode 51 in the optical axis direction. ) and may include a 1-2 part that does not overlap. In this case, the area of the upper surface (or lower surface) of the first-second part may be smaller than the area of the upper surface (or the lower surface) of the first-first part. In another embodiment, the first portion of the second-first terminal unit 60 may not include the first-second portion.

For example, the width W1 of the third part 60 - 3 may be smaller than the width of the 1-1 part of the 2-1 th terminal part 60 . Also, for example, the width W1 of the third part 60 - 3 may be smaller than the length (or minimum length) of the 1-1 part in the first horizontal direction (or vertical direction). Also, for example, the width W1 of the third part 60 - 3 may be smaller than the length (or minimum length) of the 1-1 part in the second horizontal direction (or horizontal direction).

The width W1 of the third part 60-3 of the second-first terminal part 60 is the width of the first part 60-1 and the length of the first part 60-1 in the first horizontal direction. (L11), by making it smaller than the length L12 in the second horizontal direction, it is possible to reduce the rigidity of the second-first terminal part 60, and thereby thermal expansion of the conductive adhesive member 68 (eg, Ag epoxy) Alternatively, it is possible to prevent deterioration of electrical reliability due to shrinkage.

Referring to FIG. 9B , the second-second terminal part 70 includes a first part 70-1 coupled to the second electrode 52, a second part 70-2 disposed on the holder 80, and A third part 70-3 connecting the first part 70-1 and the second part 70-2 may be included. The third part 70 - 3 may be expressed by replacing the "connection part".

The first portion 70 - 1 of the 2 - 2 terminal part 70 may be electrically connected to the second electrode 52 .

For example, the first portion 70 - 1 may be coupled to the second electrode 52 by a conductive adhesive. For example, the conductive adhesive may be a conductive epoxy or Ag epoxy, but is not limited thereto.

A hole (not shown) may be provided in the first portion 70 - 1 , and in this case, the hole may be a through hole penetrating the first portion 70 - 1 , and may expose a portion of the second electrode 52 . Also, the contact area between the conductive adhesive, the first portion 70-1, and the second electrode 52 may be increased by the hole, thereby improving bonding strength and improving electrical reliability.

For example, the shape of the hole viewed from the upper side may be various, such as polygonal, circular, T-shape. Although not shown in FIG. 8A , a through hole or groove may also be formed in the first part 60 - 1 of the 2-1 th terminal part 60 .

In FIG. 9B , only the first part 70-1, the second part 70-2, and the third part 70-3 of the one 2-2 terminal part 70 are shown, but the 2-2 In the embodiment in which the terminal unit 70 includes a plurality of 2-2 terminals, the first to third portions 70-1, 70-2, and 70-3 of the 2-2 second terminal unit 70 will be described. may be applied or applied mutatis mutandis to each of the plurality of second 2-2 terminals.

Also, the second portion 70 - 2 of the 2 - 2 terminal part 70 may include a region 70D protruding from a side surface (eg, 80B) of the holder 80 .

The first portion 70 - 1 of the 2 - 2 terminal part 70 may overlap the second electrode 52 of the liquid lens 50 in the optical axis OA direction. For example, the first portion 70 - 1 of the 2 - 2 terminal part 70 may overlap the 2-1 th electrode 52-1 of the liquid lens 50 in the optical axis OA direction.

The second part 70-2 of the 2-2 terminal part 70 has a region overlapping the first part 54a of the 1-2 terminal part 4G in the optical axis direction (eg, 70B, see FIG. 12). may include

The lower surface of the first part 54a of the 1-2 terminal part 4G and the second part of the 2-2 terminal part 70 exposed from the holder 80 by a conductive adhesive (eg, conductive epoxy or Ag epoxy) One region of the portion 70-2 may be coupled or connected, and both may be electrically connected.

The description of FIG. 11 may be applied or applied mutatis mutandis to the 2-1 th terminals 61 to 66 of FIG. 10 .

Referring to FIG. 12 , the width W2 of the third part 70-3 of the 2-2nd terminal part 70 is the length L4 of the third part 70-3 of the 2-2nd terminal part 70 . ) less than (W2<L4). At this time, the length L4 of the third part 70-3 is the third part connected to the second part 70-2 from one end of the third part 70-3 connected to the first part 70-1. It may be a length in a direction in which the third part 70-3 extends to the other end of the part 70-3. Also, the width W2 of the third portion 70 - 3 may be the length of the third portion 70 - 3 in a direction perpendicular to the extending direction of the third portion 70 - 3 .

The third part 70 - 3 may include at least one curved part or a bent part.

The third part 70 - 3 may have a leg shape, and may have a line shape that is bent or bent at least once.

The width W2 of the third portion 70 - 3 may be smaller than the width of the first portion 70 - 1 . The width of the first part 70 - 1 may be the length of the first part 70 - 1 in a horizontal direction or a vertical direction.

For example, the width W2 of the third portion 70-3 may be smaller than the length L21 (or the minimum length) of the first portion 70-1 in the first horizontal direction (or vertical direction) ( W1<L21).

For example, the width W2 of the third portion 70-3 may be smaller than the length L22 (or the minimum length) of the first portion 70-1 in the second horizontal direction (or the horizontal direction) ( W1<L22).

For example, the area of the upper surface (or lower surface) of the third part 70 - 3 may be smaller than the area of the upper surface or the lower surface of the first part 70 - 1 .

Also, the width W2 of the third portion 70 - 3 may be smaller than the width of the second portion 70 - 2 .

The width of the second portion 70 - 2 may be a length in a horizontal direction or a length in a vertical direction of the second portion 70 - 2 .

For example, the width W2 of the third part 70-3 may be smaller than the length L5 (or the minimum length) of the second part 70-2 in the first horizontal direction (or vertical direction) ( W2<L5).

For example, the width W2 of the third portion 70-3 may be smaller than the length L6 (or the minimum length) of the second portion 70-2 in the second horizontal direction (or the horizontal direction) ( W2<L6).

For example, the area of the upper surface (or lower surface) of the third part 70 - 3 may be smaller than the area of the upper surface or the lower surface of the second part 70 - 2 .

The first part 70-1 of the 2-2 terminal part 70 includes the 1-3 part overlapping the second electrode 52 of the liquid lens 50 in the optical axis direction and the second electrode 52 in the optical axis direction. ) and parts 1-4 that do not overlap. In this case, the area of the upper surface (or lower surface) of parts 1-4 may be smaller than the area of the upper surface (or lower surface) of parts 1-3. In another embodiment, the first portion of the 2-2nd terminal part 70 may not include the 1-4th portion.

For example, the width W2 of the third portion 70 - 3 may be smaller than the width of the 1-3 portion of the 2 - 2 terminal portion 70 . Also, for example, the width W2 of the third portion 70 - 3 may be smaller than the length (or minimum length) of the first - 3 portions in the first horizontal direction (or vertical direction). Also, for example, the width W2 of the third portion 70 - 3 may be smaller than the length (or minimum length) of the first - 3 portions in the second horizontal direction (or horizontal direction).

The width W2 of the third part 70-3 of the second-second terminal part 70 is the width of the first part 70-1 and the length of the first part 70-1 in the first horizontal direction. (L21), by making it smaller than the length L22 in the second horizontal direction, it is possible to reduce the rigidity of the terminal portion 70, which is due to thermal expansion or contraction of the conductive adhesive member 68 (eg, Ag epoxy). A phenomenon in which electrical reliability deteriorates can be prevented.

In the terminal parts 40 , 60 , and 70 , the term “terminal part” may be replaced with “lead part”, “connection terminal part”, “electrode part”, or “conductive part”.

The first terminal part 40 may protrude from the side surfaces 80A and 80B of the holder 80 .

For example, one end 53b of each of the 1-1 to 1-4 terminals 4A to 4D may protrude from the first side surface 80A of the holder 80 . For example, one end of each of the 1-5 th to 1-6 terminals 4E and 4F, one end of the 1-2 terminal part 4G, and one end of the 2-2 terminal part 70 are connected to the holder 80 . It may protrude from the second side surface 80B. For example, the first side surface 80A and the second side surface 80B of the holder 80 may be outer surfaces located opposite to each other.

For example, the protruding length of one end of each of the 1-5 th to 1-6 terminals 4E and 4F is the protrusion length of one end 53b of each of the 1-1 to 1-4 terminals 4A to 4D. may be less than the specified length.

Also, for example, the protruding length of one end of the second-second terminal part 70 may be smaller than the protruding length of one end 53b of each of the 1-1 to 1-4 terminals 4A to 4D.

The terminal parts 40 , 60 , and 70 may be spaced apart from the conductive member 90 , and the terminal parts 40 , 60 , 70 and the conductive member 90 may be directly connected to each other by the conductive adhesive member 68B, and electrically can be connected

One end, for example, the first portion 60 - 1 of the 2-1 th terminal part 60 may be coupled to the first electrode 51 of the lens 50 by a conductive adhesive member.

In addition, the other end of the 2-1 terminal part 60, for example, the second part 60-2, is connected to the first part 53a of the 1-1 terminal part 40 by the conductive adhesive member 68A (refer to FIG. 8B). ) can be combined.

In addition, the second part 53b of the 1-1 terminals 4A to 4D of the 1-1 terminal part is connected to the conductive parts 91-1 to 91-4 of the conductive member 90 by the conductive adhesive member 68B. ) can be combined.

In addition, one end of the 2-2 terminal part 70 , for example, the first part 70 - 1 may be coupled to the second electrode 52 of the liquid lens 50 by a conductive adhesive member.

In addition, the other end of the second-second terminal part 70, for example, the second part 70-2, may be coupled to the first part 54a of the 1-2-th terminal part 4G by the conductive adhesive member 68A. there is.

In addition, the first second portion 54b of the first-second terminal portion 4G may be coupled to the conducting portion (eg, 91 - 5 ) of the conducting member 90 by the conductive adhesive member 68B.

The second portions 53b and 54b of the first terminal part 40 may be spaced apart from the conducting member 90 to overlap the conducting member 90 in a vertical direction or an optical axis direction. A conductive adhesive member 68B may be disposed between the second portions 53b and 54b of the first terminal part 40 and the conducting member 90 . The vertical direction may be parallel to the optical axis direction.

The 1-1 terminal unit may include at least one terminal disposed on the first side of the holder 80 , and may include at least one terminal disposed on the second side of the holder 80 .

For example, the four 1-1 terminals 4A to 4D of the 1-1 terminal part may be disposed on the first side of the holder 80 , and the two 1-1 terminals 4E and 4F and The 1-2-th terminal part 4G may be disposed on a second side opposite to the first side of the holder 80 . Here, the first side of the holder 80 may be an area of the holder 80 adjacent to the first side 80A of the holder 80 , and the second side of the holder 80 is the second side of the holder 80 . It may be another area of the holder 80 adjacent to the 80B.

The conducting member 90 may include a plurality of conducting parts 91-1 to 91-5.

For example, the conducting member 90 may include conducting portions 91-1 to 91-4 corresponding to the 1-1 terminals 4A to 4D of the 1-1 terminal portion, and the 1-2 terminal portion 4G. and may include a energizing unit 91-5 corresponding to .

Each of the conductive parts 91-1 to 91-5 may be coupled to a corresponding one of the 1-1 terminals 4A to 4D and the 1-2-th terminal 4G by a conductive adhesive member 68B. and may be electrically connected.

Referring to FIG. 10 , for example, each of the plurality of 2-1 terminals 61 to 66 of the 2-1 th terminal part 60 is connected to or coupled to the first electrode 51 and the first portions 2A1 to 2F1. ), a second part 2A2 to 2F2 coupled to a corresponding one of the 1-1 terminal parts, and a third part connecting the first parts 2A1 to 2F1 and the second parts 2A2 to 2F2 ( 2A3 to 2F3).

At least one second portion 2A2 to 2F2 of the 2-1-th terminals 61 to 66 may include at least one hole 37 (or a groove).

For example, the hole 37 (or groove) may pass through the second portions 2A2 to 2F2, and the shape of the hole 37 viewed from above may be a cross shape, but is not limited thereto, and in other embodiments It may be semi-circular, semi-elliptical, or polygonal in shape.

For example, the hole 37 may have a cross shape having different widths in a horizontal direction and a vertical direction.

For example, the cross shape of the hole 37 may include four extensions extending in all directions. The width (W32, see FIG. 13A ) of the cross-shaped hole 37 extending in the horizontal direction and the width W31 (refer to FIG. 13A ) of the extension part extending in the vertical direction may be different from each other.

For example, the width W31 of the extension extending in the vertical direction (see FIG. 13A ) may be greater than the width W32 of the extension portion extending in the horizontal direction (W31>W32). In another embodiment, the width of the extension portion extending in the vertical direction may be equal to or smaller than the width of the extension portion extending in the horizontal direction.

The conductive adhesive member 68A may be disposed or filled in the hole 37 , and the contact area between the conductive adhesive member 68A, the 1-1 terminal part, and the 2-1 terminal part is increased by the hole 37 to increase the bonding force. and improve the reliability of the electrical connection.

Also, a portion of the hole 37 (or groove) may include at least one opening 37A that opens to the side of the second portions 2A2 to 2F2. In this case, the opening 37A may be opened to the second side of the second parts 2A2 to 2F2 located opposite to the first side of the second parts 2A2 to 2F2 connected to the third parts 2A3 to 2F3. there is. Due to the opening 37A, the conductive adhesive member 68A is easily penetrated between the 1-1 terminal part and the 2-1 terminal part, so that adhesion between the two can be facilitated.

Also, since the opening 37A is opened to the second side of the second portions 2A2 to 2F2, the conductive adhesive member 68A is in contact with the second portions 2A2 to 2F2 of the second-first terminal portion 60. This can be prevented, and also, it is possible to prevent the conductive adhesive member 68A from flowing into the opening of the holder 80 , or from coming into contact with the liquid lens 50 . For this reason, it is possible to prevent the generation of foreign substances due to the conductive adhesive member, and to prevent damage or malfunction of the liquid lens 50 .

Also, if the conductive adhesive member 68A comes into contact with the second portions 2A2 to 2F2 of the second-first terminal portion 60, the effect of reducing the rigidity of the second-first terminal portion 60 may be insignificant. Because.

The second portion 2A2 to 2F2 of at least one of the second-first terminals 61 to 66 of the second-first terminal part 60 is a portion 14A extending to the third or fourth side of the holder 80 . ) may be included.

Referring to FIGS. 9B and 12 , for example, the 2-2 terminal part 70 includes a first part 70 - 1 connected or coupled to the second electrode 52 , and a second part disposed on the holder 80 . 70-2, and a third part 70-3 connecting the first part 70-1 and the second part 70-2 may be included.

For example, the second part 70 - 2 may be disposed on the lower surface of the holder 80 .

For example, the second portion 70-2 is disposed under the first portion 54a of the first region 70A connected to the third portion 70-3, the 1-2-th terminal portion 4G, and is conductively bonded. A second region 70B coupled to the first portion 54a of the 1-2 first terminal portion 4G by the member 68A, and a third region connecting the first region 70A and the second region 70B (70C) may be included.

At least one hole 38 (or groove) may be formed in the second region 70B. For example, the hole 38 (or groove) may pass through the second portion 70-2, and the shape of the hole 38 viewed from above may be a cross shape, but is not limited thereto, and in another embodiment It may be semi-circular, semi-elliptical, or polygonal in shape.

The conductive adhesive member 68A may be disposed or filled in the hole 38 , and between the conductive adhesive member 68A, the 1-2 terminal part 4G, and the 2-2 terminal part 70 by the hole 38 . By increasing the contact area, the bonding force can be improved and the reliability of the electrical connection can be improved.

Also, a portion of the hole 38 may include at least one opening 38A that is opened to the side of the second portion 70 - 2 . At this time, the opening 38A may be opened to the second side of the second part 70-2 located opposite to the first side of the second part 70-2 connected to the third part 70-3. there is. Due to the opening 38A, the conductive adhesive member 68A is easily penetrated between the 1-2-th terminal part 4G and the 2-2nd terminal part 70, so that adhesion between the two can be facilitated.

Also, since the opening 38A is opened to the second side of the second part 70-2, the conductive adhesive member 68A is in contact with the second part 70-2 of the 2-2 terminal part 70 or It can be prevented from flowing into the opening of the holder 80 , or from coming into contact with the liquid lens 50 . This is to prevent the occurrence of foreign substances due to the conductive adhesive member and to prevent damage or malfunction of the liquid lens 50 .

At least a part of the first portion 70-1 of the 2-2 terminal part 70 may be configured to correspond to any one of the second electrodes 52-1 to 52-4 of the liquid lens 50 in the optical axis direction (eg, , 52-1) may overlap.

For example, at least one groove 16A1 may be formed in the third region 70C of the second portion 70 - 2 . For example, the length in the first horizontal direction (or in the vertical direction) of the third region 70C of the second portion 70-2 in which the groove 16A1 is formed is the length in the second horizontal direction ( Alternatively, the length in the horizontal direction) and/or the length in the first horizontal direction (or the vertical direction) of the second region 70B may be smaller than the length of the second region 70B.

The second portion 70 - 2 of the 2-2 terminal part 70 further includes a fourth region 70D connected to the third region 70C and protruding or extending from the side surface 80B of the holder 80 . can do.

Also, the second portion 70-2 of the 2-2 terminal part 70 is connected to the second region 70B and extends to one region of the lower surface of the holder 80 positioned at one side of the second region 70B. and a fifth region 70E.

The second portion 70-2 of the 2-2 terminal part 70 may be coupled, fixed, or attached to the lower surface 8b of the holder 80 by an adhesive. The fifth region 70E may include a hole 36 . The shape of the hole 36 may be similar to that of the hole 38 , and the description of the hole 38 may be applied or applied mutatis mutandis. The hole 36 increases the contact area between the adhesive, the second portion 70-2 of the second-second terminal portion 70 and the lower surface 8b of the holder 80, so that the holder 80 and the second-second The coupling force between the terminal parts 70 may be improved.

The length L5 (or the minimum length) of the second part 70 - 2 in the first horizontal direction (or vertical direction) of each of the first area 70A and the second area 70B is the third area 70C ) may be greater than the length in the first horizontal direction, but is not limited thereto, and in another embodiment, both may be the same.

In another embodiment, at least a portion of the second portion 70-2 of the second-second terminal part 70 may include a bent shape, a curved shape, or a bent part.

The holder 80 may include an adhesive injection groove 81 for injecting an adhesive. The adhesive injection groove 81 may be formed in the lower surface 8b of the holder 80 . In another embodiment, the adhesive injection groove may be formed on the upper surface of the holder 80 .

The second lens unit 112 is disposed above the first lens unit 130 , and may be a region into which light is incident from the outside of the lens assembly 120 . That is, the second lens unit 112 may be disposed on the first lens unit 130 in the lens barrel 110 .

The second lens unit 112 may be implemented as one lens, or may be implemented as two or more lenses. For example, two or more lenses of the second lens unit 110 may be aligned with respect to a central axis to form an optical system.

Here, the central axis refers to an optical axis of the optical system formed by at least one of the second lens unit 112 , the first lens unit 130 , or the third lens unit 113 included in the camera module 100 . It may mean (OA) or may mean an axis parallel to the optical axis (OA).

The optical axis OA may correspond to a central axis of the effective image area (or active area) of the image sensor 160 . That is, the second lens unit 112 , the first lens unit 130 , the third lens unit 113 , and the image sensor 160 are aligned along the optical axis OA through Active Align (AA). They may be overlapped.

Here, the active alignment refers to matching the optical axes of each of the first to third lens units 111 , 112 , and 130 in order to obtain a better image, and between the image sensor 160 and the lens units 111 , 112 , and 130 . It may refer to an operation of adjusting an axis or distance relationship.

In addition, the outer diameter of each of the lenses included in the second lens unit 112 may increase downward (eg, in the -z-axis direction), but the embodiment is not limited thereto.

An exposure lens (not shown) may be provided in front or in front of the second lens unit 112 . In this case, the exposure lens may protrude to the outside of the lens barrel 110 to be exposed. In order to protect the surface of the exposure lens, a cover glass or a coating layer may be provided in front of the exposure lens.

The third lens unit 113 may be disposed below the first lens unit 130 in the lens barrel 110 . The third lens unit 113 may be disposed to be spaced apart from the second lens unit 112 in the optical axis direction (eg, the z-axis direction).

The light incident to the second lens unit 112 from the outside of the camera module 100 may pass through the first lens unit 130 to be incident to the third lens unit 113 . The third lens unit 113 may be implemented as a single lens, or may be implemented as a plurality of lenses arranged with respect to a central axis to form an optical system.

Unlike the first lens unit 130 , each of the second lens unit 112 and the third lens unit 113 is a solid lens, and may be implemented with glass or plastic, but in the embodiment, the second lens unit 112 . And the third lens unit 113 is not limited to a specific material of each.

13A is a second terminal part 330 - 1 according to another exemplary embodiment.

Referring to FIG. 13A , the second terminal part 330-1 includes a first part 20A coupled to the electrode 51 or 52 of the liquid lens 50, and a second part coupled to the first terminal part 40 ( 20B), and a third portion 20C connecting the first portion 20A and the second portion 20B.

The second portion 20B may be disposed on the holder 80 .

The shape of the first portion 20A of the second terminal part 330-1 as viewed from above may be a polygon (eg, a rectangle, a rectangle, or a square), but is not limited thereto. In FIG. 13A , the shape of the first portion 20A of the second terminal part 330 - 1 viewed from above may have a curved shape or a rounded quadrangle (eg, a rectangle) shape. In another embodiment, the shape of the first portion 20A of the terminal part viewed from above may be an oval or a circular shape.

In FIGS. 10 and 12 , the widths W1 and W2 of the third parts 60-3 and 70-3 of the second terminal parts 60 and 70 are at one end of the third parts 60-3 and 70-3. It may be constant up to the other ends of the third parts 60 - 3 and 70 - 3 , but is not limited thereto.

13A , the width of any part of the third part 20C of the second terminal part 330-1 is the width of any other part of the third part 20C of the second terminal part 330-1. may be different from

For example, the width W11 of one end of the third portion 20C connected to the first portion 20A may be smaller than the width W12 of the other end of the third portion 20C connected to the second portion 20B. there is. Alternatively, in another embodiment, the width of one end of the third portion 20C connected to the first portion 20A may be greater than the width of the other end of the third portion 20C connected to the second portion 20B. The description of the second terminal part of FIG. 13A may be applied or applied mutatis mutandis to at least one of the 2-1 terminal part 60 and the 2-2 terminal part 70 .

Also, a portion of the third portion 20C may be disposed on the holder 80 . For example, one end of the third portion 20C connected to the second portion 20B and an area adjacent thereto may be disposed in the holder 80 .

In FIG. 13A , one end of the third portion 20C is adjacent to the third portion 20C (or the second portion 20B) and is connected or coupled to any one outer surface or outer side of the first portion 20A facing each other. and may be spaced apart from a corner (or corner) of the first portion 20A.

In addition, the other end of the third portion 20C may be spaced apart from corners (or corners) 33A and 33B of the second portion 20B adjacent to and facing the first portion 20A.

For example, when viewed from above, one end of the third portion 20C may overlap the reference line 402 . Also, when viewed from above, the other end of the third portion 20C connected or coupled to the second portion 20B may be located on one side of the reference line 402 , and may not overlap the reference line 402 . Here, one side of the reference line 402 may be the left or right side of the reference line 402 .

In another embodiment, one end of the third portion 20C is adjacent to the third portion 20C (or the second portion 20B) and any one of the corners (or corners) of the first portion 20A facing each other. may be connected to or coupled to.

Further, in another embodiment, the other end of the third portion 20C is adjacent to the first portion 20A (or the second portion 20B) and the corners (or corners) 33A of the second portion 20B facing each other. , 33B).

13B is a terminal part 330 - 2 according to another embodiment.

Referring to FIG. 13B , the terminal part 330 - 2 is disposed on the first part 21A1 coupled to the electrode 51 or 52 of the liquid lens 50 , the holder 80 , and coupled to the first terminal part 40 . It may include a second part 21B1 that is formed, and a third part 21C1 connecting the first part 21A1 and the second part 21B1.

Referring to FIG. 13B , the shape of the first part 21A1 viewed from above is the description of the shape of the first parts 60-1, 70-1, and 20A described in FIGS. 10 to 12 and FIG. 13A is applied or may be applied mutatis mutandis.

The third portion 21C1 may include at least one straight portion and at least one curved or curved portion.

For example, the third portion 21C1 includes a first area S1 connected to the first portion 21A1 , a second area S2 connected to the second portion 21B1 , and the first area S1 and the first area S1 . A third region S3 connecting the two regions S2 may be included.

The first region S1 and the second region S2 may include curved, bent, or curved portions. The second region may have a straight line shape or an oblique line shape, but is not limited thereto.

The width of the third portion 21C1 may decrease and then increase in a direction from the first area S1 to the second area S2 . For example, the third portion 21C1 may include a portion in which the width decreases and then increases in the direction from the first area S1 to the second area S2 .

For example, the third part 21C1 includes a 3-1 part (eg, S1) in which the width decreases in the direction from the first region S1 to the second region S2, and a 3-2 part (eg, a 3-2 part) in which the width increases in the direction of the second region S2. , S2) may be included. In addition, the third part 21C1 may further include a 3-3 part (eg, S3) having a constant width between the 3-1 part (eg, S1) and the 3-2 part (eg, S2). there is.

For example, the width of the first region S1 may be greater than the width of the third region S3 , and the width of the second region S2 may be greater than the width of the third region S3 .

Also, a portion of the third portion 21C1 may be disposed on the holder 80 . For example, one end of the third part 21C connected to the second part 21B1 and an area adjacent thereto may be disposed in the holder 80 .

One end of the third part 21C1 is adjacent to the third part 21C1 (or the second part 21B1) and is connected to any one of two corners (or corners) of the first part 21A1 facing each other or may be combined.

In another embodiment, one end of the third portion 21C1 may be spaced apart from two corners (or corners) of the first portion 21A1.

The other end of the third portion 21C1 may be connected or coupled to any one portion of the second portion 21B1.

The other end of the third portion 21C1 may be connected to or coupled to a side (or sidewall) of the second portion 20B adjacent to and facing the first portion 21A (or the second portion 21B).

For example, the other end of the third portion 21C1 is adjacent to the first portion 21A (or the second portion 21B) and the corners (or corners) 33A, 33B of the second portion 20B facing each other. can be separated from

In another embodiment, the other end of the third portion 21C1 may be connected to or coupled to any one of the corners (or corners) 33A and 33B of the second portion 20B.

For example, one end of the third portion 21C1 and the other end of the third portion 21C1 may be located opposite to each other with respect to the reference line 402 . When viewed from above, one end of the third portion 21C1 and the other end of the third portion 21C1 may not overlap the reference line 402 .

13C is a terminal part 330 - 3 according to another embodiment.

Referring to FIG. 13C , the terminal part 330 - 3 is disposed on the first part 21A2 coupled to the electrode 51 or 52 of the liquid lens 50 , the holder 80 , and coupled to the first terminal part 40 . It may include a second part 21B2 that is formed, and a third part 21C2 connecting the first part 21A2 and the second part 21B2.

The first portion 21A2 may include at least one curved portion, a curved portion, or a rounded portion.

The third portion 23C2 may include at least one curved portion, a curved portion, or a rounded portion.

The width W13 of the first portion 21A2 may be the same as the width W14 of the third portion 23C2 .

The first portion 21A2 may include at least one straight portion 6A1 and at least one bent portion 6A2 . At least one curved portion 6A2 may be connected to one end of the third portion 23C2.

At least one straight portion 61A1 of the first portion 21A2 may be parallel to a horizontal direction (eg, a horizontal direction). Here, the horizontal direction may be a direction perpendicular to a direction from the first part 23A2 to the second part 23B2.

The third portion 23C2 may include at least one straight portion 7A1 and 7A2 and at least one bent portion 7B1 and 7B2 .

The straight portions 7A1 and 7A2 of the third portion 23C2 may be parallel to a horizontal direction (eg, a horizontal direction). For example, the third portion 23C2 may include a plurality of straight portions 7A1 and 7A2 spaced apart from each other and a plurality of bent portions 7B1 and 7B2 spaced apart from each other.

Each of the plurality of straight lines 7A1 and 7A2 may be parallel to a horizontal direction (eg, a horizontal direction). Any one of the straight parts 7A1 and 7A2 (eg, 7A2 ) may be connected to one end (eg, 6A2 ) of the first part 23A2 .

Also, the bent portion 7B1 may connect any one (eg, 7A1) of the straight portions 7A1 and 7A2 to the second portion 23B2. Also, the bent portion 7B2 may connect two adjacent straight portions 7A1 and 7A2.

In another embodiment, any one of the bent parts of the third part may be connected to one end of the first part. In another embodiment, any one of the straight parts of the third part may be connected to the second part.

The width of the straight portion and the width of the bent portion may be the same. In another embodiment, the width of the bent portion may be greater than the width of the straight portion. In another embodiment, the width of the bent portion may be smaller than the width of the straight portion.

13D is a terminal part 330 - 4 according to another embodiment.

Referring to FIG. 13D , the terminal part 330 - 4 is disposed in the first part 21A3 coupled to the electrode 51 or 52 of the liquid lens 50 , the holder 80 , and coupled to the first terminal part 40 . It may include a second portion 21B3 that is formed, and a third portion 21C3 connecting the first portion 21A3 and the second portion 21B3.

The first portion 21A3 may include at least one curved portion, a curved portion, or a rounded portion. The third portion 23C3 may include at least one curved portion, a curved portion, or a rounded portion.

The width W15 of the first portion 21A3 may be the same as the width W16 of the third portion 23C3 .

The first portion 21A3 may include at least one straight portion 77A1 and 77A2 and at least one bent portion 77B. At least one curved portion 77B may be connected to one end (eg, 4A5 ) of the third portion 23C2 .

At least one straight line portion 77A1 , 77A2 of the first portion 21A3 may be parallel to a vertical direction (eg, a vertical direction). Here, the vertical direction may be a direction parallel to the direction from the first part 23A2 to the second part 23B2. For example, the vertical direction may be a direction perpendicular to the horizontal direction of FIG. 13C .

The third part 23C3 may include at least one straight part 4A1 , 4A2 , 4A3 and at least one bent part 4B1 , 4B2 .

The straight portions 4A1 , 4A2 , and 4A3 of the third portion 23C3 may be parallel to a vertical direction (eg, a vertical direction). For example, the third portion 23C3 may include a plurality of straight portions 4A1 , 4A2 , and 4A3 spaced apart from each other and a plurality of bent portions 4B1 and 4B2 spaced apart from each other.

Each of the plurality of straight portions 4A1 , 4A2 , and 4A3 may be parallel to the vertical direction.

For example, any one (eg, 4A1 ) of the straight parts 4A1 , 4A2 , and 4A3 may be connected to one end of the second part 23B3 .

For example, the other one of the straight portions 4A1 , 4A2 , 4A3 (eg 4A2 ) may be connected to a corresponding one of the straight portions 77A1 , 77A2 (eg 77A2 ) of the first portion 24A3 . For example, for example, another one of the straight portions 4A1 , 4A2 , 4A3 (eg 4A3 ) is to be connected with a corresponding other one of the straight portions 77A1 , 77A2 (eg 77A1 ) of the first portion 24A3 . can

Also, for example, the bent portion 4B1 of the third portion 24C3 may be connected to the bent portion 77B of the first portion 24A3. Also, for example, the bent portion 4B2 of the third portion 23C3 may connect two adjacent straight portions 4A2 and 4A3 of the third portion 23C3.

The width of the straight portion of the first portion 24A3 and the width of the bent portion may be equal to each other. In another embodiment, the width of the bent portion of the first portion may be greater than the width of the straight portion. In another embodiment, the width of the bent portion of the first portion may be smaller than the width of the straight portion.

Also, the width of the straight portion of the third portion 24C3 and the width of the bent portion may be the same. In another embodiment, the width of the bent portion of the third portion may be greater than the width of the straight portion. In another embodiment, the width of the bent portion of the third portion may be smaller than the width of the straight portion.

The descriptions of the holes 37, 38, and the extension 14A of FIGS. 10 to 12 may be applied or applied mutatis mutandis to the embodiment of FIGS. 13A to 13D.

In general, a conductive adhesive member, for example, Ag epoxy, may be used for electrical connection between the terminal part and the electrode of the liquid lens. However, due to thermal expansion or contraction of the conductive adhesive member, the electrical connection between the terminal part and the electrode of the liquid lens may deteriorate or an abnormality may occur in the electrical connection, which may deteriorate the reliability of the electrical connection between the two. In addition, contact resistance between the conductive adhesive member and the terminal part may vary due to thermal expansion or contraction of the conductive adhesive member (eg, Ag epoxy), which may deteriorate the reliability of the electrical connection between the two.

In the embodiment, by forming the third parts 60-2 and 70-2 connected to the first parts 60-1 and 70-1 of the second terminal parts 60 and 70 in a leg structure, the first It is possible to reduce the rigidity of the two-terminal portion, thereby preventing the deterioration of electrical reliability due to thermal expansion or contraction of the conductive adhesive member (eg, Ag epoxy). To this end, in the embodiment, the width of the third parts 60-2 and 70-2 of the second terminal parts 60 and 70 is equal to the width of the first parts 60-1 and 70-1 of the second terminal parts 60 and 70. can be made smaller than the diameter of

For example, the thickness of the first parts 60-1 and 70-1, the thickness of the second parts 60-2 and 70-2, and the third part 60-3, of the second terminal parts 60 and 70 70-3) may have the same thickness. In another embodiment, the thickness of the third part (60-3, 70-3) may be smaller than the thickness of the first part (60-1, 70-1) and the thickness of the second part (60-2, 70-2) may be In another embodiment, the thickness of the third part (60-3, 70-3) is greater than the thickness of the first part (60-1, 70-1) and the thickness of the second part (60-2, 70-2) may be large

For example, the width W1 of the third portions 60 - 3 and 70 - 3 may be greater than or equal to 1 to 3 times the thickness of the third portions 60 - 3 and 70 - 3 . For example, the width W1 of the third portions 60 - 3 and 70 - 3 may be 1.2 times or more and 2 times or less of the thickness of the third portions 60 - 3 and 70 - 3 . For example, the width W1 of the third portions 60 - 3 and 70 - 3 may be greater than or equal to 1.25 times and less than or equal to 1.5 times the thickness of the third portions 60 - 3 and 70 - 3 .

When the width W1 of the third parts 60 - 3 and 70 - 3 is smaller than the thickness of the third parts 60 - 3 and 70 - 3 , the third part is broken due to an impact or the like, thereby causing electrical disconnection. . In addition, when the width W1 of the third parts 60-3 and 70-3 exceeds three times the thickness of the third parts 60-3 and 70-3, the rigidity of the second terminal parts 60 and 70 Since the reduction effect is insignificant, electrical reliability between the second terminal parts 60 and 70 and the electrodes 51 and 52 of the liquid lens 50 may deteriorate.

In order to stably secure electrical reliability between the second terminal parts 60 and 70 and the electrodes 51 and 52 of the liquid lens 50 according to the effect of reducing the rigidity of the second terminal parts 60 and 70, the third part 60 The width W1 of -3 and 70 - 3 may be 1.5 times or less of the thickness of the third portions 60 - 3 and 70 - 3 . Alternatively, for example, the width W1 of the third portions 60 - 3 and 70 - 3 may be greater than or equal to 1 time and less than or equal to 1.2 times the thickness of the third portions 60 - 3 and 70 - 3 .

14 is a perspective view of the first lens unit 130 , the conducting member 90 , and the lens holder 140 accommodated in the lens barrel 110 , and FIG. 15 is a perspective view of the conducting member 90 and the lens holder 140 . 16A is a cross-sectional view of the first lens unit 130 and the lens holder 140 of FIG. 14 in the CD direction, and FIG. 16B is the EF direction of the first lens unit 130 and the lens holder 140 of FIG. 14 . is a cross-sectional view of the first lens unit 130 and the lens holder 140 of FIG. 14 in the GH direction, FIG. 17A is a front perspective view of the lens barrel 110, and FIG. 17B is the lens of FIG. 17A It is a rear side view of the barrel 110 , FIG. 18 is a perspective view of the conducting parts 91-1 to 91-7 of the conducting member 90 , and FIG. 19A is a liquid lens unit 120 accommodated in the lens barrel 110 . and a perspective view of the conducting member 90 , and 19b is a perspective view of the liquid lens unit 120 , the conducting member 90 , and the thermistor 45 accommodated in the lens barrel 110 .

14 to 19B , the lens holder 140 may be disposed under the holder 80 , and may receive or support the lens barrel 110 .

Referring to FIG. 15 , the lens holder 140 may include a body 140a and at least one protrusion 140b protruding from the upper surface 201 of the body 140a in the optical axis direction.

The body 140a may include a hole 25 or a cavity in which at least a portion of the lens barrel 110 is disposed or accommodated.

For example, at least a portion of the third barrel part 110C of the lens barrel 110 may be disposed in the hole 25 of the lens holder 140 .

The hole 25 may have the same shape or the same shape as that of at least a portion of the lens barrel 110 . For example, the shape of the hole 25 viewed from above may be circular, oval, or polygonal, but is not limited thereto. For example, the hole 25 may pass through the lens holder 140 in the optical axis direction.

The number of the protrusions 140b may be plural.

For example, the lens holder 140 may include protrusions 140b1 to 140b4 spaced apart from each other on the upper surface 201 of the body 140a.

For example, the lens holder 140 may include protrusions 140b1 to 140b4 disposed in corner regions of the body 140a.

In this embodiment, the lens holder 140 may include a lower surface facing the upper surface of the sensor base 180 . The first adhesive 161 may be disposed between the upper surface of the sensor base 180 and the lower surface of the lens holder 140 , and may be adhered to the upper surface of the sensor base 180 and the lower surface of the lens holder 140 .

The lens holder 140 may include a partition wall 46 disposed on the body 140a.

The partition wall 46 is positioned between the two adjacent conductive parts 91-1 and 91-2, 91-2 and 91-3, and 91-3 and 91-4 disposed on the body 140a. It may be disposed in the region of (140a). For example, the number of the partition walls 46 may be plural.

The plurality of partition walls 46 may be disposed to be spaced apart from each other on the upper surface of the body 140a, and a portion of at least one conductive part may be disposed between two adjacent partition walls.

The conducting parts 91-1 to 91-5 may be disposed on the first side and the second side of the lens holder 140 . The partition walls 46 may be disposed on at least one of the first side and the second side of the lens holder 140 .

The first side of the lens holder 140 may be either the first side of the holder 80 or one side of the lens holder 140 corresponding to the first side 80A, and the second side of the lens holder 140 is the holder ( It may be the second side of the 80 , or the other side of the lens holder 140 corresponding to the second side 80B. For example, the first side and the second side of the lens holder 140 may be located opposite to each other.

When the second parts 60-2 and 70-2 of the second terminal parts 60 and 70 are coupled to the conductive parts 91-1 to 90-5 by the conductive adhesive member 68B, the partition wall 46 is may serve to block electrical short circuits between adjacent current-carrying units.

The upper surface 201 of the body 140a may include a first surface 201a and a second surface 201b having a step difference from the first surface 201a.

For example, the second surface 201b may have a lower height than the first surface 201a. For example, the distance from the lower surface of the lens holder 140 to the second surface 201b may be smaller than the distance from the lower surface of the lens holder 140 to the first surface 201a.

The lens holder 140 may include a groove 27 formed in the second surface 201b.

The groove 27 may be recessed from the second surface 201b. For example, the groove 27 may be formed adjacent to each of the third side and the fourth side of the lens holder 140 . For example, the groove 27 may be formed in the center of at least one of the third side and the fourth side.

The third side of the lens holder 140 may be the third side of the holder 80 or another side of the lens holder 140 corresponding to the third side 80C, and the fourth side of the lens holder 140 is the holder. It may be another side of the lens holder 140 corresponding to the fourth side of 80 or the fourth side 80D. For example, the third side and the fourth side of the lens holder 140 may be located opposite to each other.

The partition wall 46 may be disposed between the protrusions 140b1 to 140b4, but is not limited thereto, and in another embodiment, the partition wall may be disposed between the protrusions.

The lens holder 140 may include a stepped portion 212 or a stepped portion.

The step 212 may be formed on the outer surface of the lens holder 140 .

The step 212 may be formed at the lower end of the outer surface of the lens holder 140 .

The side plate 302 of the cover 300 may be disposed on the step 212 . For example, the step 212 and the lower end of the side plate 302 of the cover 300 may be coupled to each other, but the present invention is not limited thereto. In another embodiment, both may be spaced apart from each other.

The lens holder 140 may include a groove 32A to serve as a bonding tank to which an adhesive, eg, a bond, is applied.

The groove 32A may be formed on a lower surface or a lower portion of the lens holder 140 . For example, the groove 32A may be formed in the lower portion or the lower surface of the body 140a.

For example, the groove 32A may be formed on the inner peripheral surface or the inner surface of the lens holder 140 formed by the hole 25 .

The groove 32A may extend from the lower surface of the lens holder 140 and may be spaced apart from the upper surface of the lens holder 140 . An adhesive may be injected into the groove 32A, and the lens holder 140 and the lens barrel 110 may be coupled by the injected adhesive.

A vent hole 31 (or groove), which is a passage through which gas is discharged, may be formed on the inner circumferential surface of the lens holder 140 . The vent hole 310 may form a passage between the lens holder 140 and the lens assembly 120 so that gas generated during the curing process of the adhesive 161 is discharged toward the lens assembly 120 .

The conducting member 90 may be disposed on the lens holder 140 .

The first to fifth conductive parts 91-1 to 91-5 of the conductive member 90 may be coupled to the first terminal part 40 of the first lens part 130, and the first terminal part 40 can be electrically connected to. The first to fifth conducting parts 91-1 to 91-5 of the conducting member 90 may be coupled to the thermistor 45 and may be electrically connected to the thermistor 45 .

Also, the conducting member 90 may be coupled to the terminals 195 of the substrate 190 and may be electrically connected to the terminals 195 . For example, each of the conducting parts 91-1 to 91-7 of the conducting member 90 may be electrically connected to a corresponding one of the terminals 195 of the substrate 190 through solder or a conductive adhesive member. .

The conducting member 90 may be spaced apart from the cover 300 .

The conducting member 90 may include a plurality of conducting parts 91-1 to 91-7 that are disposed to be spaced apart from each other. In FIG. 15 , seven conductive parts are illustrated, but the number is not limited thereto, and the conductive member 90 may include one or more conductive parts. The conducting portion may be replaced with “terminal”, “lead”, “electrode”, “bonding portion”, or “lead frame” and the like.

The conducting member 90 may integrally form the conducting member 90 and the lens holder 140 through an insert injection method. In another embodiment, the conducting parts of the conducting member 90 may have a structure in which a separate terminal is bonded to the lens holder 140 .

In another embodiment, each of the conducting parts of the conducting member 90 may include a conductive layer formed on the surface of the lens holder 140 . In this case, the conductive layer may be formed on the surface of the lens holder 140 through a molded interconnection device (MID) technology.

Referring to FIG. 18 , each of the first to fifth conductive parts 91-1 to 91-5 is configured to be coupled to the second parts 60-2 and 70-2 of the second terminal parts 60 and 70, respectively. The first coupling part 9a, the second coupling part 9b for connecting or coupling to any one of the terminals 195 of the substrate 190, and the first coupling part 9a and the second coupling part It may include a connecting portion (9c) for connecting (9b).

In addition, the sixth conducting part 91 - 6 includes a first coupling part 10a for coupling with the first terminal 41 of the thermistor 45 , and a sixth conducting part ( 91-6) and a second coupling part 10b for connecting or coupling with any other corresponding to, and a connection part 10c for connecting the first coupling part 10a and the second coupling part 10b. can

In addition, the sixth conducting part 91 - 6 may include an extension part 10d that is connected to the first coupling part 10a and extends in the direction of the 1-2 th terminal part 4G. For example, the upper surface of the extension 10d may be exposed from the lens holder 140 , but is not limited thereto, and in another embodiment, it may be disposed in the lens holder 140 without being exposed. For example, the extension portion 10d may include at least one of a straight shape and a curved or bent shape.

In addition, the seventh conducting portion 91-7 includes a first connecting portion 11a for coupling with the second terminal 42 of the thermistor 45, and a seventh conducting portion ( 91-7) and a second coupling part 11b for connecting or coupling with another one, and a connection part 11c for connecting the first coupling part 11a and the second coupling part 11b. can do.

In addition, the seventh conducting portion 91 - 7 may include an extension portion 11d connected to the first coupling portion 11a and extending from the first coupling portion 11a . The extension portion 11d may be bent and extended from the first coupling portion 11a toward the lower surface of the lens holder 140 . In addition, the seventh conducting portion 71 - 7 may include a bent portion 11e connecting the first coupling portion 11a and the extended portion 11d to each other.

The first coupling part 10a of the sixth conductive part 91-6 may include a groove 28A, and the first coupling part 11a of the seventh conductive part 91-7 may include a groove 28B. may include.

The groove 28A may be formed on the first side surface of the first coupling part 10a, and one region of the first coupling part 10a in which the groove 28A is formed is the first terminal 41 of the thermistor 45. ) may be a region where the conductive adhesive member 68B is disposed or applied for bonding.

The second side of the first coupling portion 10a may be a side positioned on the opposite side of the first side of the first coupling portion 10a, and the second side of the first coupling portion 11a is the first coupling portion (11a) may be a side located on the opposite side of the first side, the second side of the first coupling portion (10a) and the second side of the first coupling portion (11a) may face each other.

The groove 28B may be formed on the first side surface of the first coupling part 11a, and one region of the first coupling part 11a in which the groove 28B is formed is the second terminal 42 of the thermistor 45. ) may be a region where the conductive adhesive member 68B is disposed or applied for bonding.

The groove 28A may be recessed from the first side surface of the first coupling part 10a, and the groove 28B may be recessed from the first side surface of the first coupling part 11a. For example, the shape of the grooves 28A and 28B viewed from above may be a semicircle, a semi-ellipse, or a polygonal shape such as a triangle, a square, or a cross shape.

The grooves 28A and 28B increase the contact area between the conductive adhesive member 68B and the first coupling portions 10a and 11a, so that the first and second terminals 41 and 42 of the thermistor 45 and the conducting portions It is possible to increase the coupling force between the (91-6, 91-7) and improve the reliability of the electrical connection.

The first coupling portions 9a, 10a, and 11a may be in contact with the conductive adhesive member 68B.

The conductive adhesive member 68B may include any one or more of solder and a conductive adhesive. For example, the conductive adhesive member 68B may include Ag epoxy. The conductive adhesive member 68B may be disposed between the plurality of partition walls 46 of the lens holder 140 .

The first coupling portion 9a of the first to fifth conducting portions 91-1 to 91-5 may be disposed on the first side and the second side of the lens holder 140 . For example, the first coupling portion 9a may be disposed on an upper surface, an upper portion, or an upper end of each of the first side and the second side of the lens holder 140 .

The upper surface of the first coupling part 9a may include a portion exposed from the upper surface of the lens holder 140 . The exposed portion of the first coupling portion 9a may be on the same plane as the first surface 201a, but is not limited thereto, and in another embodiment, the exposed portion of the first coupling portion 9a is the first surface It may be located lower or higher than (201a).

In addition, the exposed portion of the first coupling portion 9a may be located lower than the upper end or upper surface of the partition walls 46 (or the protrusion 140b).

Also, for example, the width of one end of the first coupling portion 9a may be smaller than the width of the other end of the first coupling portion 9a connected to the connection portion 9c, but is not limited thereto. The width of one end of the coupling portion 9a may be equal to or greater than the width of the other end.

For example, the first coupling portions 10a and 11a of the sixth and seventh conducting portions 91-6 and 91-7 may be disposed at any one corner of the lens holder 140 . For example, the first coupling portions 10a and 11a of the sixth and seventh conducting portions 91-6 and 91-7 are located between the second side and the fourth side of the lens holder 140. The lens holder ( 140) may be disposed at any one corner.

19A and 19B , the upper surface of the first coupling part 9a of the first to fifth conducting parts 91-1 to 91-5 is a second part 53b of the first terminal part 40, 54b) may be disposed below the lower surface.

The first coupling portions 9a of the first to fifth conducting portions 91-1 to 91-6 may overlap the second portions 53b and 54b of the first terminal portion 40 in the vertical direction or the optical axis direction. there is.

In addition, upper surfaces of the first coupling portions 10a and 11a of the sixth and seventh conducting portions 91-6 and 91-7 are lower surfaces of the first and second electrodes 41 and 42 of the thermistor 45 . It may be disposed below.

The first coupling portions 10a and 11a of the sixth and seventh conducting portions 91-6 and 91-7 are connected to the first and second electrodes 41 and 42 of the thermistor 45 in a vertical direction or an optical axis direction. may overlap.

For example, the second coupling portions 9b, 10b, and 11b of the conductive parts 91-1 to 91-7 may be disposed inside the lens holder 140, and the lens holder 140 may be the second coupling portion. At least one opening 49 exposing at least a portion of (9b, 10b, 11b) may be provided. For example, the opening 49 may be provided on the first side and the second side of the lens holder 140 . In another embodiment, the second coupling portion of the conductive parts 91-1 to 91-7 may be disposed on the outer surface of the lens holder 140 and may be exposed from the outer surface of the lens holder 140 .

For example, the second coupling portions 9b, 10b, and 11b of the conductive parts 91-1 to 91-7 may protrude below the lower surface of the lens holder 140, but the present invention is not limited thereto. In this case, the second coupling part may not protrude below the lower surface of the lens holder 140 .

For example, the second coupling portions 9b, 10b, and 11b of the conductive parts 91-1 to 91-7 may include at least one of a linear shape and a curved shape (or a curved shape). In this case, the linear shape may include at least one of a first linear shape parallel to the optical axis and a second linear shape perpendicular to the optical axis.

For example, the connecting portions 9c, 10c, and 11c may have a curved or bent shape.

Each of the conductive parts 91-1 to 91-7 may have a different width from that of the other parts at least in part.

The second coupling part 10b of each of the sixth conductive parts 91-6 has at least one groove 12A, and the second coupling part 11b of the seventh conductive part 91-7 has at least one It may be provided with a groove (12B) of.

The groove 12A may be formed on the second side surface of the second coupling part 10b, and may be recessed from the second side surface of the second coupling part 10b.

The groove 12B may be formed on the first side surface of the second coupling part 11b, and may have a shape recessed from the first side surface of the second coupling part 11b.

The second side of the second coupling portion 10b and the second side of the second coupling portion 11b may face each other, and the first side of the second coupling portion 11b is the second side of the second coupling portion 11b. It may be a side positioned opposite to the second side, and the first side of the second coupling part 10b may be a side positioned opposite to the second side of the second coupling part 10b.

For example, when the second coupling portions 10b and 11b are viewed from the front, the shape of the grooves 12A and 12B may be a semicircle, a semi-ellipse, or a polygonal shape such as a triangle, a square, or a cross shape.

In FIG. 18 , one groove 12A, 12B is formed in the second coupling portions 10b and 11b, but the present invention is not limited thereto. In another embodiment, a plurality of grooves are formed in the second coupling portions 10b and 11b. could be

After the first and second terminals of the thermistor are coupled to the first coupling part of the conductive parts of the lens holder by the first soldering process according to the SMT (Surface Mounter Technology) process, the second coupling part of the conductive parts is formed on the substrate. A second soldering process for coupling to the terminals may be performed.

However, the heat generated during the second soldering process is transferred to the solder (hereinafter referred to as "first solder") that combines the first coupling part and the first and second terminals of the thermistor through the second coupling part, The first solder may melt and electrical reliability between the first coupling portion and the first and second terminals of the thermistor may deteriorate.

The grooves 12A and 12B according to the embodiment may reduce the transfer of heat generated during the second soldering process to the first solder, and thus the first coupling portions 10a and 11a by the second soldering process. ) and the first and second terminals 41 and 42 of the thermistor 45 may prevent deterioration of electrical reliability.

Although the conductive adhesive member 68B is described as a separate configuration from the conductive member 90 , the conductive adhesive member 68B may be described as one configuration of the conductive member 90 .

In an embodiment, a immersion structure in which the second parts 53b and 54b of the first terminal part 40 of the first lens part 130 are immersed in the conductive adhesive member 68B may be formed. Through this, electrical connection to the first terminal unit 40 of the first lens unit 130 may be possible without external pressure.

The thermistor 45 may detect the temperature of the camera module 100 . For example, the thermistor 45 may sense the temperature of the liquid lens 50 .

For example, the thermistor 45 may be implemented as a thermistor whose resistance value varies according to temperature, but is not limited thereto. The thermistor 45 may include a first electrode 41 and a second electrode 42 , and a driving signal (eg, a driving voltage or a driving current) is applied to the first electrode 41 and the second electrode 42 . can be provided.

The first and second electrodes 41 and 42 of the thermistor 45 may be electrically connected to the first and seventh conductive parts 91 - 6 and 91 - 7 by a conductive adhesive member 68B.

The cover 300 may cover the lens holder 140 and accommodate the lens holder 140 .

The cover 300 may form the exterior of the camera module 100 . The cover 300 may be a polyhedron with an open lower surface, for example, a hexahedral shape.

The cover 300 may be a non-magnetic material. The cover 300 may be formed of a metal material.

For example, the cover 300 may be formed of a metal plate.

The cover 300 may be connected to the ground of the substrate 190 . Through this, the cover 300 may be grounded. The cover 300 may block electromagnetic interference (EMI). In this case, the cover 300 may be referred to as an 'EMI shield can'. In another embodiment, the cover 300 may not be electrically connected to the ground of the substrate 190 .

The cover 300 may include a top plate 301 and a side plate 302 extending from the top plate 301 . An opening 303 (or hole) exposing at least a portion of the lens barrel 110 may be formed in the upper plate 301 of the cover 300 .

A groove 304 corresponding to the groove 212a of the stepped portion 212 of the lens holder 140 may be formed at a lower end of the side plate 302 of the cover 300 .

17A and 17B , the lens barrel 110 includes a first barrel part 110A for arranging or accommodating the first lens part 130 and a second lens part 112 for arranging or accommodating the first lens part 110 . It may include a second barrel part 110B and a third barrel part 110C for arranging or accommodating the third lens part 113 .

The second barrel part 110B may be disposed on the first barrel part 110A, and the third barrel part 110C may be disposed below the first barrel part 110A.

The first barrel part 110A may include a body and an accommodation space 5A formed in the body. The first lens unit 130 may be disposed in the accommodation space 5A of the body of the first barrel unit 110A. The accommodation space 5A may have a sufficient shape to accommodate the first lens unit 130 . Here, "accommodating space" may be expressed by replacing "space".

For example, the first barrel portion 110A has an inner upper surface 2a, an inner lower surface 2b, and an inner side surface 2c connecting the inner upper surface 2a and the inner lower surface 2b to form the receiving space 5A. ) may be included.

The first barrel portion 110A has a first side surface 52a (or a first outer surface) and a second side surface 52b (or a second outer surface) positioned opposite to each other, and a first side surface 52a and a second side surface It may include a third side surface 52c (or a third outer surface) and a fourth side surface 52c (or a fourth outer surface) that connect the 52b and are located opposite to each other. For example, the accommodation space 5A of the first barrel part 110A may be formed in the first to fourth side surfaces 52a to 52d of the first barrel part 110A.

At least one opening 505A, 505B for inserting or assembling the first lens unit 130 is formed in at least one of the first side surface 52a and the second side surface 52b of the first barrel unit 110A. can be

The accommodation space 5A in the first barrel part 110A may be opened out of the body of the first barrel part 110A by the first and second openings 505A and 505B.

For example, one end of the first lens unit 130 may protrude out of the first opening 505A of the first barrel unit 110A, and the other end of the first lens unit 130 may be of the first barrel unit 110A. It may protrude out of the second opening 505B.

The second barrel part 110B may protrude from the upper portion of the body of the first barrel part 110A. For example, the second barrel part 110B may protrude upward from an upper portion of the first barrel part 110A in the optical axis direction or upward.

For example, the second barrel portion 110B may include a first body 8A and a second body 8B disposed on the first body 8A.

At least a portion of the second barrel part 110B may be exposed through the opening 303 of the cover 300 . For example, the second body 8B of the second barrel part 110B may be exposed from the opening 303 of the cover 300 . For example, the second body 8B of the second barrel part 110B may protrude out of the cover 300 through the opening 303 of the cover 300 .

The diameter of the opening 303 of the cover 300 may be larger than the diameter of the outer periphery of the second body 8B.

On the outer peripheral surface of the lens barrel 110 between the first barrel part 110A and the second barrel part 110B, inclined parts 33A and 33B corresponding to the inclined part 301C of the cover 300 may be formed. .

The top plate 301 of the cover 300 has a first end 301A, or “first portion”) in contact with the opening 303 , and has a step difference from the first end 301A in the optical axis direction and is in contact with the side plate 302 . It may include a second end 301B, or “second portion”), and an inclined portion 301C connecting the first end 301A and the second end 301B.

The second end 301B may be positioned lower than the first end 301A. The inclined portion 301C may include an inclined surface inclined at a predetermined angle with respect to the first end 301A or the second end 301B.

For example, the inclined portion 301C may have a ring or cylindrical shape surrounding the first barrel portion 110A and the second barrel portion 110B of the lens barrel 110 , but is not limited thereto.

The inclined portion 301C of the cover 300 and the inclined portions 33A and 33B of the lens barrel 110 may face or overlap in the optical axis direction.

For example, the inclined portion 301C of the cover 300 and the inclined portions 33A and 33B of the lens barrel 110 may be spaced apart from each other by a predetermined distance.

By making the upper plate of the cover 300 a two-stage structure having a step difference, and having inclined portions 33A and 33B corresponding to the two-stage structure in the lens barrel 110, the height of the edge portion of the camera module can be reduced. It is possible to reduce the size of the camera module in the optical axis direction.

For example, the inclined portions 33A and 33B may be disposed on the outer peripheral surface of the lens barrel 110 between the first body 8A of the first barrel portion 110A and the second barrel portion 110B.

For example, the lens barrel 110 includes a first inclined portion 33A formed between the third side surface 52c of the first barrel portion 110A and an outer surface of the second barrel portion 110B, and the first barrel portion A second inclined portion 33B formed between the fourth side surface 52d of the 110A and the outer surface of the second barrel portion 110B may be included.

The first inclined portion 33A may include a first inclined surface, and the second inclined portion 33B may include a second inclined surface, and an interior angle formed between the first inclined surface and the upper surface of the first barrel part 110A. (θ1) may be an obtuse angle, and the inner angle (θ2) formed between the second inclined surface and the upper surface of the first barrel part 110A may be an obtuse angle.

The outer shape of the second body 8B of the second barrel part 110B may be cylindrical, but is not limited thereto, and may be implemented in various shapes.

The second barrel part 110B may include an accommodating space for accommodating the second lens part 112 therein, and the third barrel part 110C has an accommodating space for accommodating the third lens part 113 . may be included inside.

The inside of the first barrel part 110A, the inside of the second barrel part 110B, and the inside of the third barrel part 110C may communicate with each other.

The second barrel part 110B may include an opening exposing at least a portion of the second lens part 112 , for example, an uppermost lens.

In addition, when the temperature of the liquid lens 50 decreases, in order to prevent the performance of the liquid lens 50 from being deteriorated, the liquid lens 50 may include a heater for controlling the temperature of the liquid lens 50 . there is.

20A is a top view of the first conductive part 91-1, the 1-1 terminal 4A, and the conductive adhesive member 68B, and FIG. 20B is the first conductive part 91-1 of FIG. 20A; It is an IJ sectional view of the 1-1 terminal 4A and the conductive adhesive member 68B.

20A and 20B , the conductive adhesive member 68B is formed on the upper surface of the first portion 9a of the first conducting portion 91-1 and the second portion 53b of the first-first terminal 4A. It is placed between the lower surfaces of the Due to the groove 53B formed in the second part 53b of the 1-1 terminal 4A, the conductive adhesive member 68B is easily connected to the groove 53B and thus the second part of the 1-1 terminal 4A. A portion of the conductive adhesive member 68B may be disposed on the upper surface of the second portion 53b of the first-first terminal 4A.

Due to this, the contact area between the conductive adhesive member 68B, the second part 53b of the 1-1 terminal 4A, and the first part 9a of the first conducting part 91-1 increases, so that the bonding force is increased. improved, the reliability of the electrical connection may be improved, and it may be possible to secure a stable resistance between the first terminal part and the conducting part.

A groove 54B may also be formed in the second portion 54b of the 1-2-th terminal part 4G, and the description of FIGS. 20A and 20B will include the 1-2-th terminal part 4G and the fifth conducting part 91 . -5) can be applied or applied mutatis mutandis.

21 shows the second parts 10b and 11b of the sixth and seventh conduction parts 91-6 and 91-7 according to another embodiment.

Referring to FIG. 21 , the second part 10b of the sixth conductive part 91-6 may include a plurality of first grooves 10-1 to 10-3 that are spaced apart from each other, and the sixth conductive part 91-6. The second portion 11b of the 91-6 may include a plurality of second grooves 11-1 to 11-3 that are spaced apart from each other.

The first grooves 10 - 1 to 10 - 3 may be formed on the first side and the second side of the second part 10b. For example, the first grooves 10-1 to 10-3 may be disposed or arranged by alternating the first side and the second side of the second part 10b from the top to the bottom of the second part 10b. .

The first grooves 10-1 to 10-3 may be formed on the first side and the second side of the second part 11b. For example, the second grooves 11-1 to 11-3 may be disposed or arranged by alternating the first side and the second side of the second part 11b from the top to the bottom of the second part 11b. . Due to this, it is possible to increase the heat dissipation area of the second portions 10b and 11b and to prevent the second portions 10b and 11b from weakening in rigidity or strength.

In addition, the camera module 100 according to the embodiment forms an image of an object in space using the characteristics of light such as reflection, refraction, absorption, interference, diffraction, etc. It may be included in an optical instrument for the purpose of recording and reproducing an image by means of an optical instrument, or for optical measurement, propagation or transmission of an image.

For example, the optical device according to the embodiment is a mobile phone, a mobile phone, a smart phone, a portable smart device, a digital camera, a laptop computer, a digital broadcasting terminal, a PDA (Personal Digital Assistants), a PMP (Portable Multimedia Player) ), navigation, etc., but is not limited thereto, and any device for taking an image or photo is possible.

22 is a perspective view of a portable terminal 200A according to an embodiment, and FIG. 23 is a configuration diagram of the portable terminal 200A shown in FIG. 22 .

22 and 23, the portable terminal 200A (hereinafter referred to as "terminal") has a body 850, a wireless communication unit 710, an A/V input unit 720, a sensing unit 740, and input/ It may include an output unit 750 , a memory unit 760 , an interface unit 770 , a control unit 780 , and a power supply unit 790 .

The body 850 shown in FIG. 22 is in the form of a bar, but is not limited thereto, and a slide type, a folder type, and a swing type in which two or more sub-bodies are coupled to be movable relative to each other. , and may have various structures such as a swivel type.

The body 850 may include a case (casing, housing, cover, etc.) forming an exterior. For example, the body 850 may be divided into a front case 851 and a rear case 852 . Various electronic components of the terminal may be embedded in a space formed between the front case 851 and the rear case 852 .

The wireless communication unit 710 may include one or more modules that enable wireless communication between the terminal 200A and the wireless communication system or between the terminal 200A and the network in which the terminal 200A is located. For example, the wireless communication unit 710 may include a broadcast reception module 711 , a mobile communication module 712 , a wireless Internet module 713 , a short-range communication module 714 , and a location information module 715 . there is.

The A/V (Audio/Video) input unit 720 is for inputting an audio signal or a video signal, and may include a camera 721 , a microphone 722 , and the like.

The camera 721 may include a camera module 100 .

The sensing unit 740 detects the current state of the terminal 200A, such as the opening/closing state of the terminal 200A, the position of the terminal 200A, the presence or absence of user contact, the orientation of the terminal 200A, acceleration/deceleration of the terminal 200A, etc. It is possible to generate a sensing signal for controlling the operation of the terminal 200A by sensing it. For example, when the terminal 200A is in the form of a slide phone, it is possible to sense whether the slide phone is opened or closed. In addition, it is responsible for sensing functions related to whether the power supply unit 790 is supplied with power, whether the interface unit 770 is coupled to an external device, and the like.

The input/output unit 750 is for generating input or output related to sight, hearing, or touch. The input/output unit 750 may generate input data for operation control of the terminal 200A, and may also display information processed by the terminal 200A.

The input/output unit 750 may include a keypad unit 730 , a display module 751 , a sound output module 752 , and a touch screen panel 753 . The keypad unit 730 may generate input data in response to a keypad input.

The display module 751 may include a plurality of pixels whose color changes according to an electrical signal. For example, the display module 751 may be a liquid crystal display, a thin film transistor-liquid crystal display, an organic light-emitting diode, a flexible display, or a three-dimensional (3D) display module. It may include at least one of a display (3D display).

The sound output module 752 outputs audio data received from the wireless communication unit 710 in a call signal reception, a call mode, a recording mode, a voice recognition mode, or a broadcast reception mode, or stored in the memory unit 760 . Audio data can be output.

The touch screen panel 753 may convert a change in capacitance generated due to a user's touch on a specific area of the touch screen into an electrical input signal.

The memory unit 760 may store a program for processing and control of the control unit 780, and stores input/output data (eg, phone book, message, audio, still image, photo, video, etc.) Can be temporarily stored. For example, the memory unit 760 may store an image captured by the camera 721 , for example, a photo or a moving picture.

The interface unit 770 serves as a passage for connecting to an external device connected to the terminal 200A. The interface unit 770 receives data from an external device, receives power and transmits it to each component inside the terminal 200A, or transmits data inside the terminal 200A to an external device. For example, the interface unit 770 may include a wired/wireless headset port, an external charger port, a wired/wireless data port, a memory card port, a port for connecting a device having an identification module, and an audio I/O (Input/O) Output) port, video I/O (Input/Output) port, and may include an earphone port, and the like.

The controller 780 may control the overall operation of the terminal 200A. For example, the controller 780 may perform related control and processing for voice call, data communication, video call, and the like.

The controller 780 may include a multimedia module 781 for playing multimedia. The multimedia module 781 may be implemented within the controller 180 or may be implemented separately from the controller 780 .

The controller 780 may perform a pattern recognition process capable of recognizing a handwriting input or a drawing input performed on the touch screen as characters and images, respectively.

The power supply unit 790 may receive external power or internal power under the control of the control unit 780 to supply power necessary for the operation of each component.

Features, structures, effects, etc. described in the above embodiments are included in at least one embodiment of the present invention, and are not necessarily limited to only one embodiment. Furthermore, features, structures, effects, etc. illustrated in each embodiment can be combined or modified for other embodiments by those of ordinary skill in the art to which the embodiments belong. Accordingly, the contents related to such combinations and modifications should be interpreted as being included in the scope of the present invention.

Claims (10)

Board;
a lens holder disposed on the substrate;
a lens barrel coupled to the lens holder;
a holder disposed on the lens barrel;
a liquid lens disposed within the holder and comprising an electrode;
a first conducting part disposed on the lens holder;
a first terminal part disposed on the holder and coupled to the first conducting part; and
and a second terminal part connecting the first terminal part and the electrode of the liquid lens,
The second terminal part,
a first portion coupled to the electrode of the liquid lens;
a second part coupled to the first terminal part; and
a third part connecting the first part and the second part;
The third part is a camera module including at least one curved part or bent part. According to claim 1,
and a first conductive adhesive member disposed between the first portion of the second terminal part and the electrode of the liquid lens. 3. The method of claim 2,
the second portion of the second terminal part includes a hole;
and a second conductive adhesive member disposed in the hole to couple the first terminal part and the second terminal part. 4. The method of claim 3,
the hole includes an opening, the opening of the hole opening to a second side opposite the first side of the second portion of the second terminal part;
The first side of the camera module is any one side of the second part connected to the third part of the second terminal part. According to claim 1,
The first terminal part,
a first part coupled to the second terminal part; and
A camera module including a second portion protruding from the side of the holder. 6. The method of claim 5,
and a third conductive adhesive member disposed between the second part of the first terminal part and the first conducting part. 7. The method of claim 6,
A groove is formed in a side surface of the second part of the first terminal part,
The second conductive adhesive member is in contact with the groove. According to claim 1,
a second conducting unit spaced apart from the first conducting unit and disposed on the lens holder; and
and a thermistor including an electrode coupled to the second conducting part. 9. The method of claim 8,
A camera module in which at least one groove is formed in at least one of a first side and a second side positioned opposite to each other of the second conducting unit. According to claim 1,
A cover including an upper plate, a side plate, and an opening formed in the upper plate,
The lens holder and the sensor base are disposed in the cover,
The upper plate of the cover includes a first surface, a second surface, and a first inclined portion connecting the first surface and the second surface,
A camera module in which a second inclined portion corresponding to the first inclined portion is formed on an upper portion of the lens barrel.

Images