CN109803072B - Image pick-up device with power supply reset function - Google Patents

Abstract

An image capturing device with a power supply resetting function comprises a fixed base and a camera. The fixed base is provided with a first assembly part, and the first assembly part is provided with a first magnetic piece. The camera comprises a shell, a circuit board and a magnetic reset switch electrically connected to the circuit board, wherein the shell is provided with a second assembling portion, and a second magnetic piece is arranged on the second assembling portion. The camera is arranged on the first assembly part correspondingly through the mutual magnetic adsorption of the second magnetic part and the first magnetic part, and the circuit board is arranged in the shell. The magnetic reset switch is arranged in the shell and far away from the second assembly part. The camera can be selectively moved so that the magnetic reset switch approaches the first magnetic piece of the fixed base to induce magnetism and reset the power supply.

Description

Image pick-up device with power supply reset function

Technical Field

The present invention relates to an electronic device, and more particularly, to an image capturing device with power supply resetting function.

Background

Generally, an electronic device (such as a surveillance camera, a router or a digital assistant device) has a power reset function. When the electronic device cannot work normally or is halted, the electronic device can be restored to a normal working state by restarting the power supply. The power supply of the electronic device currently on the market can be restarted in the following ways.

The first is to disassemble the casing of the electronic device, take out the battery and reinstall the battery to achieve the purpose of restarting the power supply, however, this method is not suitable for the closed electronic device (for example, the electronic device with waterproof whole machine), and in addition, the casing must be disassembled and assembled each time the power supply needs to be restarted, which results in time and labor consumption, and the casing is also easily damaged.

The second is to set a hole on the casing, and set a button reset switch in the casing corresponding to the hole, so that the user can pass the needle through the hole and press the reset switch to restart the power supply. However, this method is also not suitable for the closed electronic device, and the shape of the opening on the casing is mostly the same as that of other holes (such as the noise reduction hole or the microphone hole), so that the user is liable to insert other holes by mistake, which may cause the damage of parts or the loss of waterproof function.

Disclosure of Invention

In one embodiment, the present invention provides an image capturing device with a power reset function, which includes a fixed base having a first assembly portion, the first assembly portion having a first magnetic member; the camera comprises a shell, a circuit board and a magnetic reset switch electrically connected to the circuit board, wherein the shell is provided with a second assembly part, the second assembly part is provided with a second magnetic part, the camera is correspondingly assembled on the first assembly part by the magnetic adsorption of the second magnetic part and the first magnetic part, the circuit board is arranged in the shell, and the magnetic reset switch is arranged in the shell and far away from the second assembly part; the camera can be selectively moved to enable the magnetic reset switch to approach the first magnetic piece of the fixed base so as to induce magnetism, and therefore the power supply is reset.

According to an embodiment of the present invention, the magnetic reset switch is a reed switch having two magnetic leaves spaced apart from each other, and when the reed switch approaches the first magnetic member of the fixed base to induce magnetism, the two magnetic leaves are conducted to each other to reset the power supply.

According to an embodiment of the present invention, the magnetic reset switch is a magnetic induction switch, and when the magnetic induction switch approaches the first magnetic member of the fixed base to induce magnetism, the magnetic induction switch generates an induced pulse signal to reset the power supply.

According to an embodiment of the present invention, the magnetic reset switch includes at least two magnetic sensing elements, and the at least two magnetic sensing elements respectively approach to the first magnetic member of the fixed base and sequentially sense magnetism to reset the power supply.

According to one embodiment of the present invention, the camera has a lens, the lens and the second assembly portion are respectively located on opposite sides of the camera, and the circuit board is located between the lens and the second assembly portion.

According to an embodiment of the invention, the first assembly portion and the second assembly portion have corresponding shapes.

According to an embodiment of the present invention, the first assembling portion of the fixing base has a spherical concave surface, and the second assembling portion of the housing has a spherical convex surface which is shaped corresponding to the spherical concave surface and can rotate relatively.

According to an embodiment of the present invention, the cross section of the second magnetic member is arc-shaped and is correspondingly attached to the spherical convex surface.

According to an embodiment of the present invention, the surface of the housing is further provided with a stop, and the stop is located between the spherical convex surface and a sensing area of the surface of the housing, wherein the sensing area is a position of the surface of the housing corresponding to the magnetic reset switch.

According to an embodiment of the present invention, the camera is provided with a transmission line connected between the camera and the fixed base, the magnetic reset switch and the transmission line are located on the same side of the camera, and the local transmission line is located between the spherical convex surface and an induction area on the surface of the housing, wherein the induction area is the position of the surface of the housing corresponding to the magnetic reset switch.

According to an embodiment of the present invention, a marker is further disposed on the surface of the housing corresponding to the position of the magnetic reset switch.

According to an embodiment of the present invention, the electronic device further includes a magnetic warning switch disposed at the second assembly portion of the housing, wherein when the magnetic warning switch is away from the first magnetic member, the magnetic warning switch outputs a warning signal.

According to an embodiment of the present invention, the circuit board is further electrically connected to an electronic component and a magnetic control switch, and the camera is selectively movable to enable the magnetic control switch to approach the first magnetic member to induce magnetism, so as to control the electronic component to operate.

In summary, when the image capturing apparatus of the embodiment of the invention cannot normally operate or is in a non-responsive state (dead halt or false dead halt), the movable camera enables the magnetic reset switch to approach the first magnetic member of the fixed base, or otherwise approaches the magnetic reset switch through an external magnetic object, so that the magnetic reset switch senses magnetism to achieve the purpose of resetting the power supply, thereby achieving the purpose of avoiding damaging parts or functions of a product and improving the efficiency of resetting the power supply without disassembling the casing or forming a hole on the casing, and being applicable to a closed image capturing apparatus.

Drawings

Fig. 1 is a perspective view of an image capturing device according to a first embodiment of the present invention.

FIG. 2 is an exploded perspective view of the image capturing apparatus according to the first embodiment of the present invention.

Fig. 3 is a sectional view of an image capturing apparatus according to a first embodiment of the present invention.

Fig. 4 is a schematic plan view of one embodiment of a magnetic reset switch of the present invention.

FIG. 5 is a schematic diagram of a reset power supply of an image capturing apparatus according to an embodiment of the present invention.

FIG. 6 is a schematic view illustrating an adjustment angle of an image capturing apparatus according to an embodiment of the present invention.

Fig. 7 is a schematic view illustrating an adjustment angle of an image capturing apparatus according to another embodiment of the present invention.

Fig. 8 is a sectional view of an image capturing apparatus according to a second embodiment of the present invention.

Fig. 9 is a sectional view of an image capturing apparatus according to a third embodiment of the present invention.

[ notation ] to show

1 image capturing device

10 fixed base

11 first assembling part

111 spherical concave surface

12 first magnetic member

20 vidicon

21 casing

211 stop member

212 marker

22 second assembly part

221 spherical convex surface

23 second magnetic member

24 lens

25 circuit board

26 transmission line

27. 27' magnetic reset switch

271 magnetic reed

272. 273, 274 magnetic induction element

28 magnetic warning switch

29 magnetic control switch

30 electronic component

40 power supply

M magnetic material

Detailed Description

Fig. 1 is a perspective view of a first embodiment of an image capturing device according to the present invention, and fig. 2 is an exploded perspective view of the first embodiment of the image capturing device according to the present invention. As shown in fig. 1 and 2, the present invention provides an image capturing device 1 with a power reset function, which includes a fixed base 10 and a camera 20. For example, as shown in fig. 1, in the present embodiment, the image capturing apparatus 1 is an image monitoring Camera, for example, the image capturing apparatus 1 may be a Network monitoring Camera (IP Camera/Network Camera), a Closed-Circuit Television (CCTV) or the like. The image capturing apparatus 1 can be installed in various places (e.g. nursery, office, store, road, etc.) for security monitoring or recording personnel activities. In addition to the above embodiments, in different embodiments, the image capturing device 1 may also be a web camera (Webcam) or a car-mounted driving recorder (car recorder) that is usually connected to a computer for video communication.

In one embodiment, the fixed base 10 of the image capturing apparatus 1 can be assembled on a fixed object, such as shown in fig. 1, and in this embodiment, the fixed base 10 is fixed on a wall. In fact, the fixed base 10 may be fixed at various places (for example, a ceiling, a street lamp, a utility pole, an instrument panel, etc.) according to the use. The fixing base 10 has a first assembling portion 11 for assembling the camera 20, please refer to fig. 2 and fig. 3, wherein fig. 3 is a cross-sectional view of a first embodiment of the image capturing apparatus of the present invention, in this embodiment, the fixing base 10 is in a housing type, the first assembling portion 11 is a side surface of the fixing base 10 for assembling the camera 20, and the first assembling portion 11 has a first magnetic member 12, in this figure, the first magnetic member 12 is disposed inside the fixing base 10 and adjacent to the first assembling portion 11. In other embodiments, the first magnetic member 12 may also be directly fixed on the inner surface or the outer surface of the first assembly portion 11. In one embodiment, the first magnetic member 12 may be a magnet, such as a circular magnet, a bar magnet, a horseshoe magnet, a ring magnet, or other magnets, but the embodiment is not limited thereto.

As shown in fig. 2 and 3, the camera 20 includes a housing 21, a circuit board 25, and a magnetic reset switch 27 electrically connected to the circuit board 25, and the housing 21 has a second assembling portion 22 for assembling and fixing the base 10. In the present embodiment, the housing 21 is in a hollow shell form, the circuit board 25 is disposed inside the housing 21, and the magnetic reset switch 27 is disposed on the circuit board 25. In addition, circuit board 25 is electrically connected to power source 40. power source 40 may be located inside or outside of housing 21. for example, in the embodiment of FIG. 3, power source 40 is a battery located inside housing 21 to provide the power needed by camera 20, or power source 40 may be a battery, utility power, or other power device located outside of housing 21. external power source 40 may be connected to circuit board 25 via wires to provide the power needed by camera 20. The camera 20 may have a lens 24 and is electrically connected to the circuit board 25 for capturing external images. The second assembling portion 22 is a side surface of the housing 21 for assembling and fixing the base 10, and here, the lens 24 and the second assembling portion 22 are respectively located at opposite sides of the camera 20, for example, at front and rear sides of the camera 20.

In one embodiment, the second assembly portion 22 of the housing 21 is provided with the second magnetic member 23, for example, in the embodiment of fig. 3, the second magnetic member 23 is provided inside the housing 21 and adjacent to the inner surface of the second assembly portion 22, or the second magnetic member 23 may be provided on the outer surface of the second assembly portion 22, but is not limited thereto. The second magnetic member 23 may be a magnet or a ferromagnetic member (e.g., a metal member such as iron, nickel or cobalt) capable of generating a magnetic attraction force with the first magnetic member 12 when approaching the first magnetic member 12.

For example, as shown in fig. 3, assuming that the first magnetic member 12 and the second magnetic member 23 are both magnets and have N poles and S poles respectively, the N pole of the first magnetic member 12 can be close to the housing 21 relative to the S pole, and the S pole of the second magnetic member 23 can be close to the fixed base 10 relative to the N pole, so that the first magnetic member 12 and the second magnetic member 23 can generate magnetic attraction when approaching each other; in another embodiment, if the second magnetic member 23 is a ferromagnetic member and the first magnetic member 12 is a magnet, the first magnetic member 12 and the second magnetic member 23 approach each other to magnetize the second magnetic member 23, thereby forming a different polarity to generate the magnetic attraction force.

As shown in fig. 2 and 3, the camera 20 is magnetically attracted to the first magnetic member 12 by the second magnetic member 23, so that the second assembly portion 22 is correspondingly disposed on the first assembly portion 11, and thus, the camera 20 can be easily separated from the fixed base 10 and can be moved independently. For example, the user can apply a force to detach the second magnetic member 23 from the first magnetic member 12 to remove the camera 20 from the fixed base 10, which is advantageous in that the camera is easy and fast to assemble and disassemble and is convenient to maintain.

In one embodiment, the first assembly portion 11 of the stationary base 10 and the second assembly portion 22 of the camera 20 may have corresponding shapes. For example, in the embodiment of fig. 3, the first assembly portion 11 of the fixed base 10 has a spherical concave surface 111, and the second assembly portion 22 of the housing 21 has a spherical convex surface 221 corresponding to the shape of the spherical concave surface 111. When the second magnetic member 23 and the first magnetic member 12 are magnetically attracted to each other, the spherical convex surface 221 can be correspondingly disposed in the spherical concave surface 111 and can rotate relative to the spherical concave surface 111, so that the camera 20 can rotate relative to the fixed base 10 to adjust the shooting angle, and the central axis can change the direction along different planes. However, the above embodiments are only examples, and in different embodiments, the first assembling portion 11 and the second assembling portion 22 may also be a square groove and a square bump corresponding to each other, or the first assembling portion 11 and the second assembling portion 22 may be flat surfaces corresponding to each other.

As shown in fig. 3, in an embodiment, the cross section of the second magnetic member 23 may be arc-shaped and correspondingly attached to the spherical convex surface 221, so that the second magnetic member 23 can be continuously attracted to the first magnetic member 12 during the rotation of the spherical convex surface 221 relative to the spherical concave surface 111 to prevent the camera 20 from falling off.

In one embodiment, the magnetic reset switch 27 of the camera 20 is disposed in the housing 21 and away from the second assembly portion 22, that is, when the fixing base 10 and the camera 20 are in an assembled state, the magnetic reset switch 27 is located outside the magnetic field range of the first magnetic member 12 and the second magnetic member 23, and is not influenced by the magnetic field of the first magnetic member 12 and the second magnetic member 23 to induce magnetism. For example, in the embodiment of fig. 3, the magnetic reset switch 27 is disposed between the lens 24 and the second assembly portion 22 and adjacent to the surface of the housing 21, and can be away from the first magnetic element 12 and the second magnetic element 23. In different embodiments, the magnetic reset switch 27 may also be disposed on a side of the housing 21 close to the lens 24 and located on two opposite sides of the housing 21 with the second assembling portion 22, respectively, further away from the first magnetic element 12 and the second magnetic element 23.

Specifically, the magnetic reset switch 27 is a Power reset switch (Power reset switch), and when the magnetic reset switch 27 is close to a magnetic object to induce magnetism, the Power reset switch can be driven to turn off and then turn on to reset the Power, so as to initialize the electronic component with respect to the configuration parameters, or to restore the electronic device from an unresponsive state (dead or false dead) to a normal state. For example, when the magnetic reset switch 27 senses magnetism, a sensing signal (e.g., a pulse signal or a voltage level signal) may be generated, and the circuit board 25 may reset the power source according to the generation of the sensing signal.

In some embodiments, the camera 20 may have different power resetting modes according to the configuration of the power source 40. For example, in the embodiment of fig. 3, the power source 40 is a battery disposed inside the housing 21, and when the magnetic reset switch 27 is close to the magnetic object to induce magnetism, the circuit board 25 can power off and then power back the power source 40 to achieve the power reset function. In various embodiments, assuming that the power source 40 is a battery, a commercial power or other power device disposed outside the housing 21, the circuit board 25 may power down and then power back the power transmitted by the wires, or output a signal to the external power source 40, so that the external power source 40 is powered down and then power back to achieve the power resetting function.

In one embodiment, the magnetic reset switch 27 is, for example, a reed switch. As shown in fig. 4, in the present embodiment, the magnetic reed switch has two magnetic reeds 271, the two magnetic reeds 271 may be specifically magnetizable reeds (made of ferromagnetic material such as iron, nickel or cobalt), and the ends of the two magnetic reeds 271 are sealed in the tube and maintain a gap therebetween, when a magnetic object M (e.g. a magnet) approaches, the two magnetic reeds 271 are magnetized to attract each other and contact and conduct under the action of magnetic field lines of the magnetic field, so as to trigger the power supply to restart. When the magnetic material M moves away, the magnetic force lines of the magnetic field disappear, and the two magnetic reeds 271 separate due to their own elasticity, so that the power supply maintains the power supply state.

Alternatively, in another embodiment, the magnetic reset switch 27 is, for example, a magnetic induction switch, and when the magnetic object M approaches, the magnetic induction switch generates an induction pulse signal under the action of the magnetic force lines of the magnetic field to correspond to the reset power. When the magnetic material M is far away, the induction pulse signal disappears to make the power supply maintain the power supply state.

Therefore, when the image capturing apparatus 1 cannot work normally or needs to be reset in response, the camera 20 may be moved to make the magnetic reset switch 27 approach the first magnetic member 12 of the fixed base 10, so that the magnetic reset switch 27 enters the magnetic field range of the first magnetic member 12 to induce magnetism and reset the power. For example, in the embodiment of fig. 5, the user may apply a force to detach the second magnetic member 23 from the first magnetic member 12 to remove the camera 20 from the fixed base 10, rotate the camera 20 to make the magnetic reset switch 27 correspond to the first magnetic member 12, and then move the camera 20 toward the first magnetic member 12 to make the magnetic reset switch 27 enter the magnetic field range of the first magnetic member 12, so that the magnetic reset switch 27 can sense magnetism to achieve the purpose of resetting the power source. Alternatively, in another embodiment, as shown in fig. 6, the user can also reset the power supply by manipulating the camera 20 to rotate relative to the fixed base 10 to make the magnetic reset switch 27 approach the first magnetic member 12 to induce magnetism when the fixed base 10 and the camera 20 are in the assembled state. The magnitude of the magnetic field range of the first magnetic member 12 can be determined according to the magnetic field strength of the first magnetic member 12, and generally, the stronger the magnetic field strength of the first magnetic member 12, the larger the magnetic field range.

In addition, the user may use an external magnetic substance to approach the magnetic reset switch 27, so that the magnetic reset switch 27 induces magnetism to reset the power. For example, as shown in fig. 3, the user can use an external magnetic object M (e.g. a magnet) to approach the magnetic reset switch 27, so as to achieve the purpose of resetting the power source. Further, in the case where the magnetic reset switch 27 is a reed switch, as shown in fig. 4, the external magnetic substance M may excite the magnetic reset switch 27 to induce magnetism in various ways, such as horizontal excitation (the magnetic substance M moves close to the magnetic reset switch 27 in the X-axis direction), vertical excitation (the magnetic substance M moves close to the magnetic reset switch 27 in the Y-axis direction), or rotational excitation (the magnetic substance M moves close to the magnetic reset switch 27 and rotates around its center).

To sum up, when the image capturing apparatus 1 of the embodiment of the invention cannot work normally or does not respond, the movable camera 20 approaches the magnetic reset switch 27 to the first magnetic member 12 of the fixed base 10 or approaches the magnetic reset switch 27 through an external magnetic object, so that the magnetic reset switch 27 senses magnetism to achieve the purpose of resetting the power supply, and the case 21 does not need to be disassembled or holes are formed in the case 21, thereby achieving the purpose of avoiding damaging the parts or functions of the product, for example, disassembling the case 21 or mistakenly inserting other holes (such as noise reduction holes or microphone holes) to damage the waterproof coating. In addition, the magnetic reset power supply can also improve the efficiency of power supply reset and can be applied to the closed image capturing device 1.

As further shown in fig. 2, in one embodiment, a sensing area on the surface of housing 21 may be provided with a marker 212, wherein the sensing area is the position on the surface of housing 21 corresponding to magnetic reset switch 27. The marking element 212 is used to clearly mark the exact position of the magnetic reset switch 27 in the housing 21, and when the user wants to reset the power, the marking element 212 can be located close to the magnetic object to make the magnetic reset switch 27 sense magnetism. In the embodiment, the magnetic RESET switch 27 is a mark text (such as the RESET text in fig. 2) formed on the surface of the housing 21 by printing, and in different embodiments, the mark member 212 may also be a mark line, a mark dot, a mark symbol, or a mark pattern. Alternatively, the marker 212 may be a structure, such as, but not limited to, a bump, a rib, or a groove.

In the embodiment of fig. 6, the camera 20 may be provided with a transmission line 26 connected between the camera 20 and the fixed base 10 for data transmission or power transmission, for example, the transmission line 26 may be connected to a monitoring system for transmitting pictures taken by the camera 20, or the transmission line 26 may also be connected to an external power source for transmitting power. In the present embodiment, the magnetic reset switch 27 and the transmission line 26 are located on the same side of the camera 20, for example, on the upper side of the camera 20; the magnetic reset switch 27 is disposed at a position where it is engaged with the housing 21 with respect to the transmission line 26, and is further away from the second assembly portion 22. Therefore, the local transmission line 26 is located between the spherical convex surface 221 and the induction area on the surface of the housing 21. In one embodiment, when the user rotates the camera 20 upward to a specific position relative to the fixed base 10 in order to adjust the shooting angle of the camera 20, since the transmission line 26 is located between the spherical convex surface 221 and the sensing area on the surface of the housing 21, the transmission line 26 can abut against the fixed base 10 to generate a stop action, so as to prevent the magnetic reset switch 27 from entering the magnetic field range of the first magnetic member 12 and mistakenly resetting the power supply.

In one embodiment, the surface of the housing 21 is further protruded with a stopper 211, and the magnetic reset switch 27 is further away from the second assembly portion 22 with respect to the stopper 211. When the user moves or rotates the camera 20 to a specific position relative to the fixed base 10 or causes the magnetic reset switch 27 to approach the first magnetic member 12 in order to adjust the shooting angle of the camera 20, the stopper 211 can abut against the fixed base 10 to generate a stopping effect, so as to prevent the magnetic reset switch 27 from entering the magnetic field range of the first magnetic member 12 and mistakenly resetting the power supply. For example, in the embodiment of fig. 7, the stop 211 is a bump disposed on the surface of the housing 21, and the stop 211 is located between the spherical convex surface 221 and the sensing area on the surface of the housing 21, but the implementation of the stop 211 is not limited thereto.

In one embodiment, the magnetic reset switch 27 'may include at least two magnetic sensing elements, for example, as shown in fig. 8, which is a cross-sectional view of the second embodiment of the image capturing apparatus of the present invention, compared to the first embodiment, the magnetic reset switch 27' includes three magnetic sensing elements 272, 273, 274, which are respectively located on different sides of the camera 20, wherein each of the magnetic sensing elements 272, 273, 274 may be a reed switch or a magnetic sensing switch. The user can move the camera 20 to drive the three magnetic sensing elements 272, 273, 274 to approach the first magnetic member 12, or the external magnetic object approaches the three magnetic sensing elements 272, 273, 274, so that the three magnetic sensing elements 272, 273, 274 are sequentially induced with magnetism, and the camera 20 can reset the power when the three magnetic sensing elements 272, 273, 274 are sequentially induced with magnetism. This approach avoids the need for a person with confidence to reset the power supply or the user mistakenly resetting the power supply, as opposed to just providing a single magnetic reset switch 27.

In one embodiment, the image capturing apparatus 1 may further include other types of magnetic switches, for example, in the embodiment of fig. 9, the image capturing apparatus 1 may include a magnetic warning switch 28, the magnetic warning switch 28 is disposed adjacent to the second assembly portion 22 of the housing 21, wherein the magnetic warning switch 28 may be a magnetic reed switch or a magnetic induction switch, so as to induce magnetism due to magnetic lines of force of the magnetic field of the first magnetic member 12. When the magnetic warning switch 28 is far away from the first magnetic member 12, for example, the camera 20 is detached from the fixed base 10, so that the magnetic warning switch 28 exceeds the magnetic field range of the first magnetic member 12, the magnetic warning switch 28 outputs a warning signal, for example, the warning signal may correspondingly drive an alarm to sound or notify a remote security system, so as to prevent the camera 20 from being stolen and further have a security function. In other embodiments, the magnetic warning switch 28 may be preset to be away from the first magnetic member 12 and output the warning signal after a predetermined time (e.g. 5 minutes, 10 minutes or 15 minutes) is exceeded, so as to avoid affecting the situation that the user moves the camera 20 to reset the power supply (e.g. as shown in fig. 5).

In another embodiment, as shown in fig. 9, the circuit board 25 can be electrically connected to an electronic component 30 (here, for example, an LED lamp) and a magnetic control switch 29, and the user can move the camera 20 to make the magnetic control switch 29 approach the first magnetic member 12 to induce magnetism, thereby controlling the operation of the electronic component 30. For example, when the magnetic control switch 29 approaches the first magnetic member 12 or the magnetic property is induced by the approach of an external magnetic object, the control electronic component 30 (e.g., an LED lamp) may be turned on, turned off, increased in brightness or decreased in brightness. In various embodiments, the electronic component 30 can also be a speaker or an electronic component with other functions, so as to control the volume level or other functions through the magnetic control switch 29.

Although the present invention has been described in terms of the preferred embodiments, it is to be understood that the invention is not limited thereto, and that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention.

Claims (13)

1. An image capturing device with a power reset function, comprising:

the fixed base is provided with a first assembling part, and the first assembling part is provided with a first magnetic piece; and

the camera comprises a shell, a circuit board and a magnetic reset switch electrically connected to the circuit board, wherein the shell is provided with a second assembly part, the second assembly part is provided with a second magnetic part, the camera is correspondingly assembled on the first assembly part by magnetic adsorption of the second magnetic part and the first magnetic part, the circuit board is arranged in the shell, and the magnetic reset switch is arranged in the shell and far away from the second assembly part;

the camera can be selectively moved to enable the magnetic reset switch to approach the first magnetic piece of the fixed base so as to induce magnetism, and therefore the power supply is reset.

2. The image capturing apparatus with power reset function as claimed in claim 1, wherein the magnetic reset switch is a reed switch having two magnetic reeds spaced apart from each other, and when the reed switch approaches the first magnetic member of the fixing base to induce magnetism, the two magnetic reeds are conducted to reset the power.

3. The image capturing apparatus with power reset function of claim 1, wherein the magnetic reset switch is a magnetic induction switch, and when the magnetic induction switch approaches the first magnetic member of the fixed base to induce magnetism, the magnetic induction switch generates an induced pulse signal to reset the power.

4. The image capturing apparatus with power reset function of claim 1, wherein the magnetic reset switch comprises at least two magnetic sensors, and the at least two magnetic sensors respectively approach the first magnetic member of the fixed base and sequentially sense magnetism to reset the power.

5. The image capturing apparatus with power reset function as claimed in claim 1, wherein the camera has a lens, the lens and the second assembly portion are respectively located at two opposite sides of the camera, and the circuit board is located between the lens and the second assembly portion.

6. The image capturing apparatus with power reset function of claim 1, wherein the first assembly portion and the second assembly portion have corresponding shapes.

7. The image capturing apparatus with power supply resetting function as claimed in claim 6, wherein the first assembly portion of the fixing base has a spherical concave surface, and the second assembly portion of the housing has a spherical convex surface, and the spherical convex surface and the spherical concave surface are correspondingly shaped and can rotate relatively.

8. The image capturing device as claimed in claim 7, wherein the second magnetic member has a circular arc cross section and is attached to the convex spherical surface.

9. The image capturing apparatus with power supply resetting function of claim 7, wherein the surface of the housing is further provided with a stop member protruding therefrom, the stop member being located between the convex spherical surface and a sensing area on the surface of the housing, wherein the sensing area is a position of the surface of the housing corresponding to the magnetic reset switch.

10. The image capturing apparatus with power supply resetting function as claimed in claim 7, wherein the camera has a transmission line connected between the camera and the fixed base, the magnetic reset switch and the transmission line are located on the same side of the camera, and the local transmission line is located between the spherical convex surface and a sensing area on the surface of the housing, wherein the sensing area is the position of the surface of the housing corresponding to the magnetic reset switch.

11. The image capturing apparatus with power reset function as claimed in claim 1, wherein a marker is further disposed on the surface of the housing corresponding to the position of the magnetic reset switch.

12. The image capturing apparatus with power reset function as claimed in claim 1, further comprising a magnetic warning switch disposed at the second assembly portion of the housing, wherein the magnetic warning switch outputs a warning signal when the magnetic warning switch is away from the first magnetic member.

13. The image capturing apparatus with power reset function as claimed in claim 1, wherein the circuit board is further electrically connected to an electronic device and a magnetic control switch, and the camera is selectively movable to make the magnetic control switch approach the first magnetic member to induce magnetism, thereby controlling the electronic device to operate.

Images