KR20190023700A - Driving device and flying device - Google Patents

Abstract

The present invention relates to a driving device and a flying device including: an operation member on which a camera module is mounted; a support member arranged on the operation member; a substrate spaced apart from the support member; a first driving member connecting the support member and the substrate; and a second driving member connecting the support member and the substrate and spaced apart from the first driving member, wherein the first driving member and the second driving member are controlled in shape in accordance with a temperature and a distance between a point where the first driving member is connected to the support member and a point where the second driving member is connected to the support member is loner than a distance between a point where the first driving member is connected to the substrate and a point where the second driving member is connected to the substrate.

Description

[0001] DRIVING DEVICE AND FLYING DEVICE [0002]

The present embodiment relates to a drive apparatus and a flight apparatus.

The following description provides background information for the present embodiment and does not describe the prior art.

Drones are unmanned aerial vehicles equipped with camera modules, sensors and communication systems. Recently, the use of drones has been expanding to aviation photography, aviation measurement, kidult products etc. according to various demands of consumers.

On the other hand, the driving device is a device for changing a photographing range or controlling a posture by driving a camera mounted on a drone. BACKGROUND ART [0002] In recent years, much research has been conducted on a driving apparatus that rotates (pitch, yaw, and roll control) a camera module by using a shape memory alloy (SMA, Shape Memory Alloy).

In this case, it is advantageous in terms of electronic control and structural design that the deformation amount of the shape memory alloy is minimized and the camera module is driven to rotate.

In this embodiment, there is provided a drive device capable of rotationally driving a camera module with a deformation amount of a minimum shape memory alloy, and a flight device including the drive device.

The driving apparatus of this embodiment includes a movable member to which a camera module is mounted; A support member disposed on the movable member; A substrate spaced apart from the support member; A first driving member connecting the support member and the substrate; And a second driving member which connects the supporting member and the substrate and is spaced apart from the first driving member, wherein the first driving member and the second driving member are controlled in shape according to temperature, The distance between the point at which the first driving member is connected and the point at which the supporting member and the second driving member are connected is longer than the distance between the point at which the substrate and the first driving member are connected and the point at which the substrate and the second driving member are connected, Can be longer.

The first driving member and the second driving member may be arranged to be inclined with respect to the supporting member such that a distance between the first driving member and the second driving member becomes closer to the supporting member from the substrate.

The inclination angle formed between the first driving member and the second driving member with respect to the supporting member may be 15 to 20 degrees.

Wherein the first driving member and the second driving member are spaced apart from each other in a second axial direction perpendicular to the first axis, and the movable member is moved in the first direction And a third axis perpendicular to both the first axis and the second axis by shape control of at least one of the member and the second driving member.

Further comprising a third driving member and a fourth driving member that connect the supporting member and the substrate and whose shape is controlled according to the temperature, wherein the supporting member and the substrate are spaced apart from each other in the first axis direction, Member and the second driving member are spaced apart from each other in a second axial direction perpendicular to the first axis, and the third driving member and the fourth driving member are spaced apart from each other in a third direction perpendicular to the first axis and the second axis, Wherein a distance between a point at which the supporting member and the third driving member are connected to each other and a point at which the supporting member and the fourth driving member are connected is longer than a distance between the point where the substrate and the third driving member are connected, Is longer than the distance between the points where the fourth driving member is connected and the movable member can rotate based on the second axis by the shape control of the third driving member and the fourth driving member.

The third driving member and the fourth driving member may be arranged to be inclined with respect to the supporting member such that a distance between the third driving member and the fourth driving member becomes closer to the supporting member from the substrate.

And a fifth driving member and a sixth driving member that connect the supporting member and the substrate and whose shape is controlled according to the temperature, wherein the supporting member includes a first driving member and a second driving member, And a second support portion on which the fifth driving member and the sixth driving member are disposed, wherein the substrate includes a first substrate portion on which the first driving member and the second driving member are disposed, And a second substrate portion on which the sixth driving member is disposed, wherein the first supporting portion and the first substrate portion are spaced apart from each other in a first axial direction, and the first driving member and the second driving member are spaced apart from each other in the first And the second supporting portion and the second base portion are spaced apart from each other in the second axial direction, and the fifth driving member and the sixth driving member are spaced apart from each other in the first axis and the second axis, And is spaced apart in the third axis direction perpendicular to both the two axes , A distance between a point where the second supporting portion and the fifth driving member are connected and a point where the second supporting portion and the sixth driving member are connected is shorter than a distance between a point where the second substrate portion and the fifth driving member are connected, And the movable member is capable of rotating based on the first axis by the shape control of the fifth driving member and the sixth driving member.

And a rotation joint disposed on the movable member and the first substrate portion, wherein the rotation joint includes a ball disposed on the inner side of the movable member, and a support column extending from the ball to the first substrate portion, The movable member is rotatably coupled with the ball.

The first support portion may be disposed apart from the rotation center of the movable member in the first axis direction, and the second support portion may be disposed at the same position in the first axis direction with respect to the rotation center of the movable member.

The flight device of this embodiment includes a main body; A driving unit disposed at one side of the main body and lifting the main body; And a driving device disposed on the other side of the main body, wherein the driving device comprises: a movable member on which a camera module is mounted; A support member disposed on the movable member; A substrate spaced apart from the support member; A first driving member connecting the support member and the substrate; And a second driving member which connects the supporting member and the substrate and is spaced apart from the first driving member, wherein the first driving member and the second driving member are controlled in shape according to temperature, The distance between the point at which the first driving member is connected and the point at which the supporting member and the second driving member are connected is longer than the distance between the point at which the substrate and the first driving member are connected and the point at which the substrate and the second driving member are connected, Can be longer.

In this embodiment, the camera module is rotationally driven by a pair of driving members disposed between the supporting member and the substrate and whose shape is controlled according to the temperature. The pair of driving members are arranged to be inclined such that the distance in the supporting member is longer than the distance in the substrate. According to the inclined arrangement of the driving member, the deformation amount of the driving member is minimized when the camera module rotates, which is advantageous in terms of electronic control and structural design.

1 is a perspective view showing a flight apparatus of the present embodiment.
2 is a perspective view showing the driving apparatus of the present embodiment.
3 is an exploded perspective view showing the driving apparatus of the embodiment.
4 is a cross-sectional view showing the driving apparatus of this embodiment.
5 is an exploded perspective view showing the supporting member, the conductive member, and the fixing member of this embodiment.
6 is a perspective view showing a driving apparatus of the present embodiment in which a cover and a substrate are excluded.
Fig. 7 is a conceptual diagram showing that the driving member of this embodiment is disposed at an inclined position.
8 is a conceptual view showing the effect of the inclination arrangement of the driving member in this embodiment.

Hereinafter, some embodiments of the present invention will be described with reference to exemplary drawings. In describing the components in the drawings, the same components are denoted by the same reference numerals whenever possible, even if they are displayed on other drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected, coupled, or connected to the other component, It is to be understood that another element may be " connected ", " coupled ", or " connected " between elements.

Hereinafter, the "first axis" can be defined as the "x axis" shown in the drawing, the "second axis" can be defined as the "z axis" shown in the drawing, the "third axis" y axis ".

The "first axis" may extend from the front to the rear, the "second axis" may extend from the top to the bottom, and the "third axis" may extend from the right to the left. In this case, the photographing direction of the camera module 900 may be forward.

The "first axis", the "second axis", and the "third axis" can be arranged perpendicular to each other to form an orthogonal coordinate system. That is, the "first axis" and the "second axis" may be perpendicular to each other, and the "third axis" may be perpendicular to both the "first axis" and the "second axis".

However, this arrangement is only an example for convenience of explanation, and does not mean that the "first axis", "second axis", and "third axis" must be arranged vertically. In one example, the "first axis" and the "second axis" are arranged at an angle other than 90 °, and the "third axis" is arranged at an angle other than 90 ° to both the "first axis" It may be arranged obliquely.

Hereinafter, the flight device 1 of the present embodiment will be described with reference to the drawings. 1 is a perspective view showing a flight apparatus of the present embodiment. The flight device 1 may be a drone. The user can control the flight device 1 by a wireless terminal (not shown). The flight device 1 may include a main body 10, a driving portion 20, and a drive device 1000. [

The main body 10 is an outer appearance member and the driving unit 1000 can be disposed on the other side (lower side) of the main body 10, and the driving unit 1000 can be disposed on one side of the main body 10. An electronic control unit (ECU) (not shown) may be incorporated in the main body 10.

The driving unit 20 may be a plurality of propeller units arranged symmetrically with respect to a vertical center axis of the main body 10. [ The main body 10 can fly by the rotation of the propeller.

The driving apparatus 1000 may be disposed under the main body 10. [ The driving apparatus 1000 can rotate the camera module 900 on the basis of the "first axis", the "second axis", and the "third axis". As a result, the photographing range of the camera module 900 can be changed, and the posture of the camera module 900 can be controlled (shake canceling effect due to flight vibration).

The electronic control unit can wirelessly communicate with a wireless terminal controlled by the user. The electronic control unit can be electrically connected to various electronic components of the flight apparatus 1 and the driving apparatus 1000.

The electronic control unit can wirelessly communicate with a wireless terminal controlled by a user, receive various control signals, and transmit the control signals to the electronic component and the driving device 1000 to control the electronic component and the driving device 1000. [ For example, when the electronic control unit receives the signal for changing the photographing range of the camera module 900 from the wireless terminal, the electronic control unit can control the driving device 1000 to rotate the camera module 900.

The electronic control unit determines the shake of the camera module 900 caused by the flying of the flight device 1 and accordingly controls the drive device 1000 to rotate the camera module 900 to cancel the shake . As a result, the camera module 900 can perform photographing in a set state. To this end, a gyro sensor (not shown) or an acceleration sensor (not shown) may be incorporated in the camera module 900 or mounted on the board 400 of the driving apparatus 1000. The electronic control unit may be electrically connected to the gyro sensor or the acceleration sensor to determine the shake of the camera module 900.

Hereinafter, the driving apparatus 1000 of the present embodiment will be described with reference to the drawings. 4 is a cross-sectional view showing a driving apparatus of the present embodiment, and Fig. 5 is a cross-sectional view of a supporting member and a conductive member in this embodiment. Fig. 6 is a perspective view showing a driving apparatus of the present embodiment in which a cover and a substrate are excluded, Fig. 7 is a conceptual view showing that the driving member of this embodiment is arranged at an inclination, Fig. 8 is a perspective view Fig. 7 is a conceptual view showing the effect of the inclination arrangement of the driving member in the embodiment.

The driving apparatus 1000 of the present embodiment includes a cover member 100, a movable member 200, a supporting member 300, a substrate 400, a driving member 500, a first conductive member 600, (Not shown), a rotating joint 700, a fixing member 800, and a camera module 900.

The cover member 100 may be an exterior member of the driving apparatus 1000. The material of the cover member 100 may include a nonconductive material. The material of the cover member 100 may include plastic. The cover member 100 can be manufactured by plastic injection.

The cover member 100 may include a side surface extending forward from an edge of a rear surface and a rear surface. Accordingly, the cover member 100 may be in the form of a hollow cube having a substantially (substantially) open front face.

A supporting member 300, a driving member 500, a first conductive member 600, a second conductive member (not shown), a rotating joint 700, and a fixing member 600 are fixed to the inside of the cover member 100. [ Member 800 and camera module 900 may be disposed.

A substrate 400 may be disposed outside the cover member 100. The first substrate unit 410 may be disposed on the rear surface of the cover member 100. The second substrate unit 420 may be disposed on a side surface (lower surface) of the cover member 100. The first substrate portion 410 may be disposed such that one side thereof contacts the rear surface of the cover member 100. The second substrate portion 410 may be bent or bent forward in the first substrate portion 410 so that one side of the second substrate portion 410 is in contact with the side surface (side surface) located on the lower side of the cover member 100.

A separate case for preventing at least a part of the substrate 400 from being exposed to the outside may be provided on the outer side of the cover member 100. In this case, the board 400 may be disposed between the cover member 100 and the case.

The cover member 100 may include a plurality of first cover holes 110 and a second cover hole 120 (see FIG. 3). The plurality of first cover holes 110 may include six first cover holes 110.

Four of the six first cover holes 110 may be formed on the rear surface of the cover member 100 (only two are shown in Fig. 3). The remaining two of the six first cover holes 110 may be formed on the side (side surface) located on the lower side of the cover member 100.

Each of the four first cover holes 110 located on the rear surface of the cover member 100 includes a first driving member 510, a second driving member 520, a third driving member 530, In the " first axial direction " with the member 540.

The first driving member 510, the second driving member 520, the third driving member 530, and the fourth driving member 530 are inserted into the four first cover holes 110 located on the rear surface of the cover member 100. [ (Deployed).

The first driving member 510, the second driving member 520, the third driving member 530 and the fourth driving member 540 are mounted on the four first covers And may extend through the hole 110 to the first substrate unit 410.

Each of the two first cover holes 110 located on the lower side surface of the cover member 100 is disposed so as to overlap with the fifth drive member 550 and the sixth drive member 560 in the & .

The fifth driving member 550 and the sixth driving member 560 may be inserted (arranged) in the two first cover holes 110 located on the lower side (side surface) of the cover member 100, respectively.

The fifth driving member 550 and the sixth driving member 560 pass through the two first cover holes 110 located on the lower side surface of the cover member 100 and are connected to the second substrate portion 420 Can be extended.

The second cover hole 120 may be formed at the center of the rear surface of the cover member 100. The second cover hole 120 may be arranged to overlap with the support column 720 of the rotary joint 700 in the " first axial direction ". The support pillars 720 of the rotary joint 700 can be inserted (arranged) in the second cover hole 120. [

The movable member 200 may be disposed inside the cover member 100. [ The ball 710 of the rotary joint 700 and the camera module 900 may be disposed inside the movable member 200. In this case, the camera module 900 can be mounted on the movable member 200. Further, the movable member 200 can be rotatably engaged with the ball 710.

The movable member 200 can be rotated about the "first axis", the "second axis", and the third axis "by the rotary joint 700. In this case, And the center of rotation of the movable member 200 and the camera module 900 may be the center of the ball 710.

A space for accommodating the camera module 900 may be provided in the front portion of the movable member 200. That is, the camera module 900 may be disposed in the front portion of the movable member 200.

A space for accommodating the ball 710 of the rotary joint 700 may be provided at the rear portion of the movable member 200. In other words, the ball 710 can be disposed at the rear portion of the movable member 200.

The supporting member 300 may be a member for supporting the driving member 500. The material of the support member 300 may include a nonconductive material. The material of the support member 300 may include plastic. The support member 300 may be a plastic injection mold.

The support member 300 may be disposed on the movable member 200. The support member 300 may be formed integrally with the movable member 200. The support member 300 may be spaced apart from the substrate 400. The first conductive member 600 may be disposed on the support member 300. One end of the driving member 500 may be disposed on the supporting member 300. The support member 300 may be disposed between the first conductive member 600 and the movable member 200.

The support member 300 may include a first support portion 310 and a second support portion 320. The first support portion 310 and the second support portion 320 may be spaced apart from each other. A first driving member 510, a second driving member 520, a third driving member 530, and a fourth driving member 540 may be disposed on the first supporting unit 310. [ A fifth driving member 550 and a sixth driving member 560 may be disposed on the second supporting portion 320.

The first support member 310 may be disposed behind the first conductive member 600. The first support portion 310 may be disposed in front of the movable member 200. The first support portion 310 may be disposed between the first conductive member 600 and the movable member 200. The first support part 310 may be spaced apart from the rotation center of the movable member 200 and the camera module 900 in the " first axis direction ". The first support portion 310 may be in the form of a square ring having an opening at the center. The first support 310 may be in the form of a plate. The first support portion 310 may be disposed perpendicular to the " first axis ". The lens of the camera module 900 can be exposed to the outside through the opening of the first support part 310. [

The first support portion 310 may include a first protrusion 311, a second protrusion 312, a third protrusion 313, and a fourth protrusion 314. The first protrusion 311 may protrude upward from the center of the upper side of the first supporter 310. The second protrusion 312 may protrude downward from the center of the lower side of the first support portion 310. The third protrusion 313 may protrude to the right from the center of the right side of the first support portion 310. The fourth protrusion 314 may protrude to the left from the center of the left side of the first support portion 310.

The first protrusion 311, the second protrusion 312, the third protrusion 313, and the fourth protrusion 314 may be in the form of a plate. The first protrusion 311, the second protrusion 312, the third protrusion 313 and the fourth protrusion 314 may be arranged perpendicular to the "first axis".

The first protrusion 311 may protrude upward from the upper side of the first support 310. The first driving member 510 may be disposed (inserted, penetrated) into the first projection 311. The second driving member 520 may be disposed (inserted, penetrated) through the second projection 312. The third driving member 530 may be disposed (inserted, penetrated) through the third projection 313. The fourth driving member 540 may be disposed (inserted, penetrated) through the fourth projection 314. [

The first projection 311 and the second projection 312 may be spaced apart in a " second axial direction ". The third projection 313 and the fourth projection 314 may be spaced apart in the " third axis direction ".

First and second blades protruding leftward and rightward may be formed on the upper end of the first protrusion 311. The first protrusion 311 may have a first hole 311-1 and two second holes 311-2. The first hole 311-1 may be located at the center of the upper end of the first projection 311. [ Either of the two second holes 311-2 may be located in the first blade and the other may be located in the second blade. The first driving member 510 may be disposed (inserted, penetrated) through the first hole 311-1. The second hole 311-2 is a hole provided for riveting the first fixing member 810.

A third blade and a fourth blade protruding leftward and rightward may be formed on the lower end of the second projection 312. The second protrusion 312 may include a third hole 312-1 and two fourth holes 312-2. The third hole 312-1 may be located at the center of the lower end of the second projection 312. One of the two fourth holes 312-2 may be located in the third blade, and the other one may be located in the fourth blade. And the second driving member 520 may be disposed (inserted, penetrated) into the third hole 312-1. The fourth hole 312-2 is a hole provided for riveting the second fixing member 820. [

A fifth blade and a sixth blade protruding upward and downward may be formed at the right end of the third protrusion 313. The third protrusion 313 may include a fifth hole 313-1 and two sixth holes 313-2. The fifth hole 313-1 may be located at the center of the right end of the third projection 313. [ Either one of the two sixth holes 313-2 may be located in the fifth blade, and the other may be located in the sixth blade. The third driving member 530 may be disposed (inserted, penetrated) into the fifth hole 313-1. The sixth hole 313-2 is a hole provided for riveting the third fixing member 830.

A seventh blade and an eighth blade protruding upward and downward may be formed at the left end of the fourth projection 314. The fourth protrusion 314 may include a seventh hole 314-1 and two eighth holes 314-2. The seventh hole 314-1 may be located at the center of the left end of the fourth projection 314. [ Either of the two eighth holes 314-2 may be located in the seventh blade, and the other one may be located in the eighth blade. The fourth driving member 540 may be disposed (inserted, penetrated) into the seventh hole 314-1. The eighth hole 314-2 is a hole provided for riveting the fourth fixing member 840. [

The second support portion 320 may be disposed on the movable member 200. The second support portion 320 may be disposed behind the first support portion 310. The second support 320 may be in the form of a plate. The second support portion 320 may be disposed perpendicular to the " second axis ". A fifth driving member 550 and a sixth driving member 560 may be disposed on the second supporting portion 320. The second support portion 320 may be disposed at the same position in the " first axis direction " with the rotation center of the movable member 200 and the camera module 900. [

The substrate 400 may be a printed circuit board (PCB) or a flexible printed circuit board (FPCB). The driving member 500 may be disposed on the substrate 400. The substrate 400 may be electrically connected to the driving member 500. The substrate 400 may be electrically connected to an electronic control unit of the flight device 1. [ The substrate 400 may be supplied with electric power from the electronic control unit and apply a current to the driving member 500. In this case, the intensity, direction, wavelength, etc. of the current applied to the driving member 500 can be controlled.

The substrate 400 may be disposed apart from the movable member 200 and the support member 300. The substrate 400 and the support member 300 may be connected by a driving member 500.

The substrate 400 may include a first substrate portion 410, a second substrate portion 420, and a connection substrate portion 430. In this case, the first substrate portion 410, the second substrate portion 420, and the connection substrate portion 430 may be a single substrate formed integrally, or three different substrates may be electrically connected to each other.

The first substrate portion 410 may be in the form of a plate. The first substrate portion 410 may be disposed perpendicular to the " first axis ". A first driving member 510, a second driving member 520, a third driving member 530 and a fourth driving member 540 may be disposed on the first substrate unit 410. The first substrate portion 410 may be electrically connected to the first driving member 510, the second driving member 520, the third driving member 530, and the fourth driving member 540. The first substrate unit 410 may apply a current to the first driving member 510, the second driving member 520, the third driving member 530, and the fourth driving member 540.

The first substrate portion 410 may be spaced apart from the first support portion 310 in a " first axial direction ". The first substrate portion 410 may be disposed parallel to the first support portion 310. The first substrate portion 410 and the first support portion 310 may be connected by a first driving member 510, a second driving member 520, a third driving member 530 and a fourth driving member 540 have.

The second substrate portion 420 may be in the form of a plate. The second substrate portion 420 may be disposed perpendicular to the " second axis ". A fifth driving member 550 and a sixth driving member 560 may be disposed on the second substrate unit 420. The second substrate portion 420 may be electrically connected to the fifth driving member 550 and the sixth driving member 560. The second substrate portion 420 may apply a current to the fifth driving member 550 and the sixth driving member 560.

The second substrate portion 420 may be bent or bent forward at the lower end of the first substrate portion 410. The second substrate portion 420 may be spaced apart from the second support portion 320 in a "first axial direction". The second substrate portion 420 may be disposed parallel to the second support portion 320. The second substrate portion 420 and the second support portion 320 may be connected by a fifth driving member 550 and a sixth driving member 560.

The connection substrate portion 430 may be in the form of a plate. The connection substrate portion 430 may be disposed perpendicular to the " first axis ". The connection substrate portion 430 may extend upward from the upper end of the first substrate portion 410. The connection board portion 430 may be electrically connected to the electronic control unit of the flight device 1. [ Therefore, the current generated in the electronic control unit and various control signals can be transmitted to the first substrate unit 410 and the second substrate unit 420 through the connection substrate unit 430.

The driving member 500 may be disposed between the supporting member 300 and the substrate 400. The driving member 500 can connect the supporting member 300 and the substrate 400. One end of the driving member 500 may be disposed on the supporting member 300 and the other end of the driving member 500 may be disposed on the substrate 400. [ The driving member 500 may extend from the support member 300 to the substrate 400. The driving member 500 may be electrically connected to the substrate 400. The driving member 500 may be electrically connected to the first conductive member 600. The driving member 500 may be electrically connected to the second conductive member (not shown). The driving member 500 can receive current from the electronic control unit of the flight device 1 through the substrate 400. [

When a current is applied to the driving member 500, the temperature of the driving member 500 may change due to the heat transfer action. Further, the driving member 500 can be controlled in shape according to the temperature. The driving member 500 may be " Shape Memory Alloy " (SMA).

When the shape of the driving member 500 is controlled (shape change), the length in the connecting direction or the extending direction can be increased or decreased (change in length). That is, the length of the driving member 500 in the connecting direction or the extending direction may be increased or decreased depending on the temperature.

The driving member 500 may have a shape extending from one side to the other side. The driving member 500 may be in the form of a spiral having a spiral center axis in the connecting direction or the extending direction. The driving member 500 may be in the form of a three-dimensional Archimedes spiral. The driving member 500 may be in the form of a spring or a coil.

The driving member 500 has a spiral shape because the spiral shape has a larger amount of change in length than the general wire shape (wire), depending on the amount of change in shape. In this case, it has advantages in terms of electronic control and structural aspects. For example, when the driving member 500 having a large "amount of change in length" according to the "amount of change in shape" is used as in the driving apparatus 1000 of the present embodiment, the original length of the driving member 500 is shortened So that the movable member 200 can be stably supported.

The driving member 500 includes a first driving member 510, a second driving member 520, a third driving member 530, a fourth driving member 540, a fifth driving member 550, 560 < / RTI >

The first driving member 510, the second driving member 520, the third driving member 530, the fourth driving member 540, the fifth driving member 550 and the sixth driving member 560 are spaced apart from each other .

The first driving member 510 and the second driving member 520 may be disposed between the first supporting portion 310 and the first substrate portion 410. The first driving member 510 and the second driving member 520 may connect the first supporting portion 310 and the first substrate portion 410. The first driving member 510 and the second driving member 520 may extend from the first supporting portion 310 to the first substrate portion 410. The first driving member 510 and the second driving member 520 may be in the form of extending in the " first axis " direction.

The rear end portions of the first driving member 510 and the second driving member 520 may be electrically connected to the first substrate portion 410. The front end of the first driving member 510 and the second driving member 520 may be electrically connected to the first conductive member 600. The first substrate portion 410 and the first conductive member 600 are electrically connected to the electronic control unit of the flight device 1 so that the electronic control unit and the first substrate portion 410 and the first driving member 510 And the first conductive member 600 may form a single circuit. In addition, the electronic control unit, the first substrate portion 410, the second driving member 520, and the first conductive member 600 can form a single circuit.

The first driving member 510 and the second driving member 520 may be spaced apart in a " second axial direction ". The movable member 200 can rotate about the " third axis " by controlling at least one of the first driving member 510 and the second driving member 520 (Yaw control).

For example, when the first driving member 510 is extended in the connecting or extending direction and the second driving member 520 is reduced in the connecting or extending direction, the movable member 200 is rotated forward with reference to the "third axis" . In contrast, when the first driving member 510 is contracted in the connecting or extending direction and the second driving member 520 is extended in the connecting or extending direction, the movable member 200 rotates counterclockwise about the " third axis " can do.

(L1-1 in FIG. 7 (1)) between the point where the first support member 310 and the first driving member 510 are connected and the point where the first support member 310 and the second driving member 520 are connected, The distance between the point where the first substrate portion 410 and the first driving member 510 are connected and the point where the first substrate portion 410 and the second driving member 520 are connected -2).

That is, the first driving member 510 and the second driving member 520 are moved from the first substrate portion 410 to the first supporting portion 310 to move the first driving member 510 and the second driving member 520, The first support portion 310 and the first support portion 310 may be inclined. The first driving member 510 may be inclined in a direction in which the second driving member 520 is positioned from the first supporting portion 310 to the first substrate portion 410. [ The second driving member 520 may be inclined in a direction in which the first driving member 510 is positioned from the first supporting portion 310 toward the first substrate portion 410.

The angle of inclination between the first driving member 510 and the first supporting portion 310 may be 65 ° to 80 °. The angle of inclination between the second driving member 520 and the first supporting part 310 may be in the range of 65 ° to 80 °.

The front end of the first driving member 510 may be disposed on the first protrusion 311 of the first support portion 310. The first driving member 510 may be inserted (inserted) through the first hole 311-1 of the first supporting portion 310. [ A female screw portion corresponding to the shape of the first driving member 510 may be formed on the inner surface of the first hole 311-1 of the first support portion 310. [ The first driving member 510 can be screwed to the first supporting portion 310.

The front end of the first driving member 510 may be disposed (inserted, penetrated) into the first fixing hole 811 of the first fixing member 810. The first driving member 510 can be engaged with the first fixing hole 811. Therefore, the first driving member 510 can be stably fixed by the first fixing member 810. Further, the first driving member 510 may be electrically connected to the first fixing member 810. In this case, the first driving member 510 may be electrically connected to the first conductive member 600 through the first fixing member 810.

The front end of the second driving member 520 may be disposed on the second protrusion 312 of the first support portion 310. The second driving member 520 may be disposed (inserted, penetrated) into the third hole 312-1 of the first support portion 310. [ A female screw portion corresponding to the shape of the second driving member 520 may be formed on the inner surface of the third hole 312-1 of the first support portion 310. [ The second driving member 520 can be screwed to the first supporting portion 310.

The front end of the second driving member 520 may be inserted (inserted) through the second fixing hole 821 of the second fixing member 820. And the second driving member 520 can be coupled to the second fixing hole 821. Therefore, the second driving member 520 can be stably fixed by the second fixing member 820. Further, the second driving member 520 may be electrically connected to the second fixing member 820. In this case, the second driving member 520 may be electrically connected to the first conductive member 600 through the second fixing member 820.

The third driving member 530 and the fourth driving member 540 may be disposed between the first supporting portion 310 and the first substrate portion 410. The third driving member 530 and the fourth driving member 540 may connect the first supporting portion 310 and the first substrate portion 410. The third driving member 530 and the fourth driving member 540 may extend from the first supporting portion 310 to the first substrate portion 410. The third driving member 530 and the fourth driving member 540 may be in the form of extending in the " first axis " direction.

The rear end portions of the third driving member 530 and the fourth driving member 540 may be electrically connected to the first substrate portion 410. The front end of the third driving member 530 and the fourth driving member 540 may be electrically connected to the first conductive member 600. The first substrate portion 410 and the first conductive member 600 are electrically connected to the electronic control unit of the flight device 1 so that the electronic control unit and the first substrate portion 410 and the third driving member 530 And the first conductive member 600 may form a single circuit. In addition, the electronic control unit, the first substrate unit 410, the fourth driving member 540, and the first conductive member 600 can form a single circuit.

The third driving member 530 and the fourth driving member 540 may be spaced apart in the " third axial direction ". The movable member 200 can rotate based on the " second axis " by controlling at least one of the third driving member 530 and the fourth driving member 540 (roll control).

For example, when the third driving member 530 is extended in the connecting or extending direction and the fourth driving member 540 is reduced in the connecting or extending direction, the movable member 200 is rotated forward with respect to the " second axis " . In contrast, when the third driving member 530 is reduced in the connecting or extending direction and the fourth driving member 540 is extended in the connecting or extending direction, the movable member 200 is rotated in the reverse direction can do.

(L2-1 of (2) in FIG. 7) between a point where the first supporting portion 310 and the third driving member 530 are connected and a point where the first supporting portion 310 and the fourth driving member 540 are connected, (L2 in Fig. 7 (2)) between the point where the first substrate portion 410 and the third driving member 530 are connected and the point where the first substrate portion 410 and the fourth driving member 540 are connected -2).

That is, the third driving member 530 and the fourth driving member 540 move from the first substrate portion 410 to the first supporting portion 310 toward the third driving member 530 and the fourth driving member 540, The first support portion 310 and the first support portion 310 may be inclined. The third driving member 530 may be inclined in a direction in which the fourth driving member 540 is positioned from the first supporting portion 310 toward the first substrate portion 410. [ The fourth driving member 540 may be inclined in a direction in which the third driving member 530 is positioned from the first supporting portion 310 toward the first substrate portion 410. [

The tilting angle formed by the third driving member 530 and the first supporting portion 310 may be 65 ° to 80 °. The angle of inclination between the fourth driving member 540 and the first supporting portion 310 may be 65 ° to 80 °.

The front end of the third driving member 530 may be disposed on the third projection 313 of the first supporting portion 310. The third driving member 540 may be disposed (inserted, penetrated) in the fifth hole 313-1 of the first supporting portion 310. [ A female screw portion corresponding to the shape of the third driving member 530 may be formed on the inner surface of the fifth hole 313-1 of the first support portion 310. [ The third driving member 530 can be screwed with the first supporting portion 310.

The front end of the third driving member 530 may be disposed (inserted, penetrated) into the third fixing hole 831 of the third fixing member 830. [ The third driving member 530 can be engaged with the third fixing hole 831. Therefore, the third driving member 530 can be stably fixed by the third fixing member 830. Furthermore, the third driving member 530 may be electrically connected to the third fixing member 830. In this case, the third driving member 530 may be electrically connected to the first conductive member 600 through the third fixing member 830.

The front end of the fourth driving member 540 may be disposed at the fourth projection 314 of the first supporting portion 310. The fourth driving member 540 may be disposed (inserted, penetrated) in the seventh hole 314-1 of the first supporting portion 310. [ A female screw portion corresponding to the shape of the fourth driving member 540 may be formed on the inner surface of the seventh hole 314-1 of the first support portion 310. [ The fourth driving member 540 can be screwed to the first supporting portion 310.

The front end of the fourth driving member 540 may be disposed (inserted, penetrated) into the fourth fixing hole 841 of the fourth fixing member 840. The fourth driving member 540 can be engaged with the fourth fixing hole 841. Therefore, the fourth driving member 540 can be stably fixed by the fourth fixing member 840. Further, the fourth driving member 540 may be electrically connected to the fourth fixing member 840. In this case, the fourth driving member 540 may be electrically connected to the first conductive member 600 through the fourth fixing member 840.

The fifth driving member 550 and the sixth driving member 560 may be disposed between the second supporting portion 320 and the second substrate portion 420. The fifth driving member 550 and the sixth driving member 560 may connect the second supporting portion 320 and the second substrate portion 420. The fifth driving member 550 and the sixth driving member 560 may extend from the second supporting portion 320 to the second substrate portion 420. The fifth driving member 550 and the sixth driving member 560 may be in the form of extending in the " second axis " direction.

The fifth driving member 550 and the sixth driving member 560 may be electrically connected to the second substrate unit 420. The fifth driving member 550 and the sixth driving member 560 may be electrically connected to the second conductive member (not shown). Since the second substrate portion 420 and the second conductive member (not shown) are electrically connected to the electronic control unit of the flight device 1, respectively, the electronic control unit, the second substrate portion 420, 550 and the second conductive member (not shown) can form one circuit. In addition, the electronic control unit, the second substrate portion 420, the sixth driving member 560, and the second conductive member (not shown) can form one circuit.

The fifth drive member 550 and the sixth drive member 560 may be spaced apart in the " third axial direction ". The movable member 200 can be rotated about the " first axis " by controlling the shape of at least one of the fifth driving member 550 and the sixth driving member 560 (pitch control).

For example, when the fifth driving member 550 is extended in the connecting or extending direction and the sixth driving member 560 is reduced in the connecting or extending direction, the movable member 200 is rotated forwardly about the " first axis " . On the contrary, when the fifth driving member 550 is reduced in the connecting or extending direction and the sixth driving member 560 is extended in the connecting or extending direction, the movable member 200 is rotated in the reverse direction can do.

(L3-1 in (3) of FIG. 7) between a point where the second support portion 320 and the fifth drive member 550 are connected and a point where the second support portion 320 and the sixth drive member 560 are connected, (L3 in FIG. 7 (3)) between the point where the second substrate portion 420 and the fifth driving member 550 are connected to the point where the second substrate portion 420 and the sixth driving member 560 are connected -2).

That is, the fifth driving member 550 and the sixth driving member 560 move from the second substrate portion 420 to the second supporting portion 320 as the fifth driving member 550 and the sixth driving member 560 are moved toward each other, The second support portion 320 may be inclined. The fifth driving member 550 may be inclined in a direction in which the sixth driving member 560 is located from the second supporting portion 320 toward the second substrate portion 420. The sixth driving member 560 may be inclined in a direction in which the fifth driving member 550 is located from the second supporting portion 320 toward the second substrate portion 420.

The angle of inclination between the fifth driving member 550 and the second supporting portion 320 may be 65 ° to 80 °. The tilt angle formed by the sixth driving member 560 and the second supporting portion 320 may be 65 deg. To 80 deg.

The upper end portions of the fifth driving member 550 and the sixth driving member 560 may be disposed (inserted) through the two holes formed in the second supporting portion 320, respectively. In this case, a female screw portion corresponding to the fifth driving member 550 and the sixth driving member 560 may be formed in the hole formed in the second supporting portion 320. The fifth driving member 550 and the sixth driving member 560 can be screwed to the second supporting portion 320. The fifth driving member 550 and the sixth driving member 560 may be electrically connected to the second conductive member (not shown).

Hereinafter, referring to Fig. 8, the advantages of the tilting of the first driving member 510, for example of the driving member 500, will be described in more detail.

8 (1) is a first comparative example in which the first driving member 510 is disposed perpendicularly to the first supporting portion 410, and FIG. 8 (2) (3) of FIG. 8 shows a case where the first driving member 510 is disposed at the first supporting portion 410 and the inner supporting portion 410 are disposed at an obtuse angle with respect to the first supporting portion 410, And is disposed at an acute angle with respect to the direction.

8, in order to rotate the movable member 200 at the same rotation angle, in the first comparison example, the first driving member 510 has the length a1 reduced in the longitudinal direction and the elongated length a2, The difference (length variation) between the length b1 and the elongated length b2 in which the first driving member 510 is reduced in the longitudinal direction in the second comparative example is 17.72 mm, and the difference (variation in length) between the length c1 and the elongated length c2 of the first driving member 510 in the longitudinal direction is 13 mm.

Therefore, in this embodiment, since the maximum rotation angle can be realized with a minimum change amount, it is advantageous in electronic control and structural aspects.

The first conductive member 600 may be a printed circuit board (PCB) or a flexible printed circuit board (FPCB). The first conductive member 600 includes a first driving member 510, a second driving member 520, a third driving member 530 and a fourth driving member 540 and an electronic control unit of the flight device 1 Can be electrically connected. The first conductive member 600 may include a conductive portion 610 and a connection portion 620.

The conductive portion 610 may be disposed in front of the first support portion 310. The conductive portion 610 may be in the form of a plate. The conductive portion 610 may be disposed perpendicular to the " first axis ". The conductive portion 610 may be in the form of a square ring.

The conductive portion 610 may include a first blade 611, a second blade 612, a third blade 613, and a fourth blade 614.

The first blade 611 may protrude upward from the upper side of the conductive portion 610. The first blade 611 may be disposed perpendicular to the " first axis " and may be in the form of a plate. The first blade 611 may be electrically connected to the first fixing part 810. In this case, the first blade 611 and the first fixing portion 810 may be soldered, directly contacted, or electrically connected by a separate connector. The first blade 611 may be electrically connected to the first driving member 510 through the first fixing portion 811.

The second blade 612 may protrude downward from the lower side of the conductive portion 610. The second blade 612 may be disposed perpendicular to the " first axis " and may be in the form of a plate. The second blade 612 may be electrically connected to the second fixing portion 820. In this case, the second blade 612 and the second fixing portion 820 may be soldered, directly contacted, or electrically connected by a separate connector. The second blade 621 may be electrically connected to the second driving member 520 through the second fixing portion 820.

The third blade 613 may protrude rightward from the right side of the conductive portion 610. The third blade 613 may be disposed perpendicular to the " first axis " and may be in the form of a plate. The third blade 613 may be electrically connected to the third fixing part 830. In this case, the third blade 613 and the third fixing portion 830 may be soldered, directly contacted, or electrically connected by a separate connector. Therefore, the third blade 613 can be electrically connected to the third driving member 530 through the third fixing portion 830.

The fourth blade 614 may protrude leftward from the left side of the conductive portion 610. The fourth blade 614 may be disposed perpendicular to the " first axis " and may be in the form of a plate. The fourth blade 614 may be electrically connected to the fourth fixing part 840. In this case, the fourth blade 614 and the fourth fixing portion 840 may be soldered, directly contacted, or electrically connected by a separate connector. Accordingly, the fourth blade 614 can be electrically connected to the fourth driving member 540 through the fourth fixing portion 840.

The connection portion 620 can electrically connect the conductive portion 610 and the electronic control unit of the flight device 1. [ Accordingly, the first driving member 510, the second driving member 520, the third driving member 530 and the fourth driving member 540 are electrically connected to the electronic control unit 1 of the flight device 1 through the first conductive member 600, Unit can be electrically connected.

The second conductive member (not shown) may be a printed circuit board (PCB) or a flexible printed circuit board (FPCB). The second conductive member (not shown) may electrically connect the fifth driving member 550 and the sixth driving member 560 to the electronic control unit of the flight device 1.

The first conductive member 600 and the second conductive member together with the electronic control unit of the flight device 1 and the board 400 and the drive member 500 are connected to one circuit Can be formed.

Depending on the shape of the driving member 500, the first conductive member 600 and the second conductive member may be omitted. For example, one circuit may be formed by the driving member 500 and the substrate 400. In this case, one end and the other end of the driving member 500 may be electrically connected to the substrate 400. In the electronic control unit of the flight device 1, the driving current is transmitted to the substrate 400, and the driving current flows to the driving member 500 along the circuit formed by the driving member 500 and the substrate 400, Can be provided.

The rotary joint 700 can connect the first substrate unit 410 and the movable member 200. The rotary joint 700 can connect the case 100 to the movable member 200. The rotary joint 700 can engage with the movable member 200 so that the movable member 200 is rotatable. As a result, the movable member 200 can be supported by the rotary joint 700 in a rotatable state.

The rotating joint 700 may include a ball 710 and a support column 720. The ball 710 may be disposed inside the movable member 200. The ball 710 can engage with the movable member 200 as if it were a spherical joint. As a result, the movable member 200 can be rotatably engaged with the ball 710.

The support column 720 may extend from the ball 710 to the first substrate portion 410 and may connect the ball 710 and the first substrate portion 410. The support pillars 720 extend from the ball 710 to the case 100 and can connect the ball 710 and the case 100.

The fixing member 800 may be disposed in front of the first support portion 310. [ The holding member 800 can engage with the supporting member 300. The fixing member 800 can be engaged with the supporting member 300 by riveting. The fixing member 800 can fix the driving member 500. The fixing member 800 may include a first fixing member 810, a second fixing member 820, a third fixing member 830, and a fourth fixing member 840.

The first fixing member 810 may be disposed in front of the first projection 311. The first fixing member 810 can engage with the first projection 311. The first fixing member 810 can engage with the first projection 311 by riveting. The first fixing member 810 may include a first fixing hole 811 and two first pinholes 812. The first fixing hole 811 may be located between the two first pinholes 812.

The first driving member 510 passing through the first hole 311-1 of the first protrusion 311 may be disposed in the first fixing hole 811. [ In this case, the first driving member 510 can be engaged with the first fixing hole 811. As a result, the first fixing member 810 can fix the first driving member 510.

Two first pins 811-1 may be disposed on the two first pinholes 812, respectively. The two first pins 811-1 may be disposed in the two second holes 311-2 of the first protrusion 311 through the two first pinholes 812, respectively. As a result, the first fixing member 810 can be engaged with the first projection 311 by riveting.

The second fixing member 820 may be disposed in front of the second projection 312. The second fixing member 820 can engage with the second projection 312. The second fixing member 820 can engage with the second projection 312 by riveting. The second fixing member 820 may include a second fixing hole 821 and two second pinholes 822. The second fixing hole 821 may be located between the two second pinholes 822.

The second driving member 520 passing through the third hole 312-1 of the second protrusion 312 may be disposed in the second fixing hole 821. [ In this case, the second driving member 520 can be coupled to the second fixing hole 821. As a result, the second fixing member 820 can fix the first driving member 520.

Two second pins 821-1 may be disposed on the two second pinholes 822, respectively. Two second pins 821-1 may be disposed in two fourth holes 312-2 of the second protrusion 312 through two second pinholes 822 respectively. As a result, the second fixing member 820 can be engaged with the second projection 312 by riveting.

The third fixing member 830 may be disposed in front of the third projection 313. [ The third fixing member 830 can engage with the third projection 313. The third fixing member 830 can be engaged with the third projection 313 by riveting. The third fixing member 830 may include a third fixing hole 831 and two third pinholes 832. The third fixing hole 831 may be located between the two third pinholes 832.

The third driving member 530 passing through the fifth hole 313-1 of the third protrusion 313 may be disposed (inserted, penetrated) in the third fixing hole 831. [ In this case, the third driving member 530 can be coupled to the third fixing hole 831. As a result, the third fixing member 830 can fix the third driving member 530.

Two third pins 831-1 may be disposed on the two third pinholes 832, respectively. Two third pins 831-1 may be disposed in two sixth holes 313-2 of the third protrusion 313 through two third pinholes 832 respectively. As a result, the third fixing member 830 can be engaged with the third projection 313 by riveting.

The fourth fixing member 840 may be disposed in front of the fourth projection 314. [ The fourth fixing member 840 can engage with the fourth projection 314. The fourth fixing member 840 can engage with the fourth projection 314 by riveting. The fourth fixing member 840 may include a fourth fixing hole 841 and two fourth pinholes 842. The fourth fixing hole 841 may be positioned between the two fourth pin holes 842.

A fourth driving member 540 passing through the ninth hole 313-1 of the fourth protrusion 314 may be disposed in the fourth fixing hole 841. In this case, the fourth driving member 540 can be coupled to the fourth fixing hole 841. As a result, the fourth fixing member 840 can fix the fourth driving member 540.

Two fourth pin holes 841-1 may be disposed on the two fourth pin holes 842, respectively. Two fourth pins 841-1 may be disposed in two tenth holes 342-2 of the fourth protrusion 314 through two fourth pinholes 842 respectively. As a result, the fourth fixing member 840 can be engaged with the fourth projection 314 by riveting.

The camera module 900 may be disposed on the movable member 200. The camera module 900 may be mounted on the movable member 200. The camera module 900 may be formed integrally with the movable member 200.

The camera module 900 includes a lens holder disposed inside the cover and the cover, a lens mounted on the lens holder, a base disposed at the rear of the cover, a camera module substrate disposed at the rear of the base, and an image sensor . ≪ / RTI >

The camera module substrate may be electrically connected to the substrate 400 and may transmit the photographed image to the electronic control unit of the flight device 1, or may be controlled by the electronic control unit.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. Furthermore, the terms "comprises", "comprising", or "having" described above mean that a component can be implanted unless otherwise specifically stated, But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (10)

A movable member to which the camera module is mounted;
A support member disposed on the movable member;
A substrate spaced apart from the support member;
A first driving member connecting the support member and the substrate; And
And a second driving member connecting the supporting member and the substrate and spaced apart from the first driving member,
Wherein the first driving member and the second driving member are controlled in shape according to temperature,
Wherein a distance between a point at which the supporting member and the first driving member are connected and a point at which the supporting member and the second driving member are connected is determined by a distance between a point where the substrate and the first driving member are connected and a point where the substrate and the second driving member are connected The drive is longer than the distance between points.
The method according to claim 1,
Wherein the first driving member and the second driving member are disposed to be inclined with respect to the supporting member such that a distance between the first driving member and the second driving member becomes closer to the supporting member from the substrate.
3. The method of claim 2,
And the inclination angle formed by the first driving member and the second driving member with respect to the supporting member is 15 ° to 20 °.
The method according to claim 1,
Wherein the first driving member and the second driving member are spaced apart from each other in a second axial direction perpendicular to the first axis, and the movable member is moved in the first direction And a third axis that is perpendicular to both the first axis and the second axis by shape control of at least one of the member and the second driving member.
The method according to claim 1,
Further comprising a third driving member and a fourth driving member which connect the supporting member and the substrate and whose shapes are controlled according to temperature,
Wherein the first driving member and the second driving member are spaced apart from each other in a second axis direction perpendicular to the first axis, and the third driving member and the second driving member are spaced apart from each other in the first axis direction, 4 drive member is spaced apart from the first axis and the second axis in a third axis direction,
Wherein a distance between a point at which the supporting member and the third driving member are connected and a point at which the supporting member and the fourth driving member are connected is determined by a point where the substrate and the third driving member are connected to each other, Longer than the distance between points,
And the movable member is rotated with respect to the second axis by the shape control of the third driving member and the fourth driving member.
6. The method of claim 5,
And the third driving member and the fourth driving member are disposed to be inclined with respect to the supporting member such that a distance between the third driving member and the fourth driving member becomes closer to the supporting member from the substrate.
The method according to claim 1,
Further comprising a fifth driving member and a sixth driving member which connect the supporting member and the substrate and whose shape is controlled according to temperature,
Wherein the support member includes a first support portion in which the first drive member and the second drive member are disposed, and a second support portion in which the fifth drive member and the sixth drive member are disposed,
Wherein the substrate includes a first substrate portion on which the first driving member and the second driving member are disposed, and a second substrate portion on which the fifth driving member and the sixth driving member are disposed,
Wherein the first supporting portion and the first board portion are spaced apart from each other in a first axial direction, the first driving member and the second driving member are spaced apart from each other in a second axial direction perpendicular to the first axis,
Wherein the second supporting portion and the second board portion are spaced apart from each other in the second axial direction and the fifth driving member and the sixth driving member are spaced apart from each other in the third axial direction perpendicular to both the first shaft and the second shaft And,
Wherein a distance between a point where the second support portion and the fifth drive member are connected and a point where the second support portion and the sixth drive member are connected is determined by a distance between a point where the second substrate portion and the fifth drive member are connected, Is longer than a distance between a point at which the sixth driving member is connected and a point at which the sixth driving member is connected,
And the movable member rotates about the first axis by controlling the shape of the fifth driving member and the sixth driving member.
8. The method of claim 7,
Further comprising a rotating joint disposed on the movable member and the first substrate portion,
Wherein the rotary joint includes a ball disposed inside the movable member and a support column extending from the ball to the first substrate portion,
And the movable member is rotatably engaged with the ball.
9. The method of claim 8,
Wherein the first support portion is disposed apart from the rotation center of the movable member in the first axis direction and the second support portion is disposed at the same position in the first axis direction with the rotation center of the movable member.
main body;
A driving unit disposed at one side of the main body and lifting the main body; And
And a driving device disposed on the other side of the main body,
The driving device includes:
A movable member to which the camera module is mounted;
A support member disposed on the movable member;
A substrate spaced apart from the support member;
A first driving member connecting the support member and the substrate; And
And a second driving member connecting the supporting member and the substrate and spaced apart from the first driving member,
Wherein the first driving member and the second driving member are controlled in shape according to temperature,
Wherein a distance between a point at which the supporting member and the first driving member are connected and a point at which the supporting member and the second driving member are connected is determined by a distance between a point where the substrate and the first driving member are connected and a point where the substrate and the second driving member are connected A flight device that is longer than the distance between points.

Images