TWM602657U - Hanging type biometric image capturing device - Google Patents

Abstract

A plug-in biometric image capturing device includes a connecting port, an image capturing unit and a charging unit. The connecting port is used to receive an external power source or output a signal. The image capturing unit has a plurality of lens groups and a charging unit. Invisible light emitting element, the charging unit is electrically connected to the connection port and the image capturing unit, the charging unit has a rechargeable battery and a controller, the controller is electrically connected to the rechargeable battery, and the controller is based on the external power source The rechargeable battery is charged, and the rechargeable battery is used to provide a power to the image capturing unit and the charging unit, so as to achieve the function of having enough current to drive the invisible light emitting element.

Description

Plug-in type biometric image capturing device

This creation is related to image capture devices, especially a plug-in biometric image capture device.

Since the recognition image capture device needs to use infrared light emitting elements and infrared light lenses to realize the recognition function, it is usually used in face recognition, iris recognition, etc., infrared light emitting elements need higher current to drive, to get enough Brightness collects and recognizes images and meets the requirements of recognition accuracy. Old-style notebook computers, all-in-one computers, or desktop computers are not equipped with infrared light emitting elements and infrared lenses. If users want to use the image recognition function, they must purchase an external recognition image capture device. However, the power source of the conventional plug-in identification image capture device is mainly to receive the power output from a host itself through the port. The conventional port can be roughly classified into USB 2.0 or USB 3.0 or USB type C. In addition, the output power currents of USB 2.0 and USB 3.0 of old notebook computers, all-in-one computers, or desktop computers are controlled at 500 mA and 900 mA, respectively, resulting in insufficient current to drive the infrared light emitting element to emit light. In other words, even if the conventional plug-in recognition image capture device is purchased, the image recognition function is still not available for old notebook computers, all-in-one computers or desktop computers. Therefore, how to solve the above problems is the direction that researchers in this field should strive for.

One purpose of this creation is to make the external biometric image capture device have enough current to drive the invisible light emitting element. Another purpose of this creation is to provide an external biometric image capture device capable of providing stable power. In order to achieve the above purpose, this creation provides an external biometric image capture device, which includes: a port for receiving an external power source or outputting a signal; an image capturing unit with multiple lens sets and a Visible light emitting element; and a charging unit electrically connected to the connection port and the image capturing unit, the charging unit having a rechargeable battery and a controller, the controller is electrically connected to the rechargeable battery, the controller according to the external The power source charges the rechargeable battery, and the rechargeable battery is used to provide a power to the image capturing unit and the charging unit. With this design, the current of the electric power output by the rechargeable battery can be sufficient to drive the invisible light emitting element of the image capturing unit to emit light, thereby achieving the requirements of recognition accuracy, and also effectively providing stable power effect.

The above-mentioned purpose of this creation and its structural and functional characteristics will be described based on the preferred embodiments of the accompanying drawings. Please refer to Figures 1 to 8, which are the block diagram, the three-dimensional exploded diagram, the schematic diagram of the charging unit, the schematic diagram of the image capture unit, the heat sink base, the indicator unit, part of the assembly diagram of this creative plug-in biometric image capture device. A three-dimensional assembly, as shown in the figure, the plug-in biometric image capturing device 100 described in this creation is used in this embodiment to perform a biometric recognition (such as a user’s face recognition), but it is not limited to this In actual implementation, the biometric image capturing device 100 of this creation can also perform other biometric recognition (such as iris recognition). The external biometric image capture device 100 includes a connection port 110, an image capture unit 120, a charging unit 130, a heat dissipation base 150, an indicator unit 160, a first cover 170, and a second Two cover plates 180, the connection port 110 is electrically connected to the charging unit, the connection port 110 is used to receive an external power source or output a signal, and the connection port 110 is represented in this embodiment as a USB connector connected to a computer host (Not shown) port (such as USB port) to receive the external power output from the host computer, and transmit signals (such as data signals) to the host computer or unilaterally receive the data from the biometric image capture device Signals (such as video signals or other signals). In actual implementation, the biometric image capture device of this creation can be connected to an electronic device (smart mobile phone, tablet computer or other electronic device (such as a camera device or an electronic lock device)) through its own port Port is connected. In one embodiment, the connection port 110 can be another connection port that can receive external power and transmit signals. In another embodiment, the external biometric image capture device 100 includes a power port and a signal port, and the power port can be independently connected to an indoor power supply or a portable power supply port through a power transmission line. Used to receive indoor power or portable power transmission external power, the signal port is independently connected with the corresponding electronic device to transmit data signals to each other, or the signal port unilaterally outputs video signals or other signals to Electronic device. The image capture unit 120 has a plurality of lens groups 121, an invisible light emitting element 122, an image processor (not shown) and a first circuit board 123. The lens groups 121 include an infrared lens group 1221 and an Visible light lens group 1222. The infrared light lens group 1221 is used for sensing and capturing an infrared light reflected from the object to be measured (such as the user's face) and converting it into an infrared light image. The infrared light lens group 1221 is inside A filter is provided, and the filter of the infrared lens group 1221 only allows infrared light to pass through to the photosensitive element of the infrared lens group 1221. The visible light lens set 1222 in this embodiment is represented as a charge-coupled device (CCD) lens set for capturing color images or recording color images and color movies, but it is not limited to this, in other cases In the embodiment, the visible light lens group 1222 can also be expressed as a complementary metal oxide semi-transistor (CMOS) lens group or another infrared light lens group. The visible light lens group 1222 is provided with a filter inside. The filter of the visible light lens group 1222 only allows visible light to pass to the photosensitive element of the visible light lens group 1222. In this embodiment, the invisible light emitting element 122 is represented as an infrared light-emitted-diode (IR LED) with a wavelength of 750nm to 1550nm, which is used as a supplementary light source, but it is not limited to this. In other embodiments, the invisible light emitting element 122 may also be represented as other types of invisible light emitting elements. The image processor is electrically connected to the lens sets 121 and the invisible light emitting element 122, and the image processor is used for processing images, signals or other information captured by the infrared lens set 1221 and the visible light lens set 1222 For example, the image processor performs image recognition processing based on receiving the infrared light image and a preset feature database (such as a preset face feature database). The first circuit board 123 has a first side 1231 and a second side 1321. The first and second sides 1231 and 1321 are shown in this embodiment to be respectively disposed on the front and rear sides of the first circuit board 123, so The front side is a direction toward the target to be tested, and the back side is a direction opposite to the target to be tested. The lens sets 121, the invisible light emitting element 122 and the image processor are separately arranged on the first circuit board 123. One side is 1231 and the phases are electrically connected. The charging unit 130 is electrically connected to the connection port 110 and the image capturing unit 120. The charging unit 130 has a rechargeable battery 131, a controller 132, and a second circuit board 133. The controller 132 is electrically connected to the charging A battery 131. The controller 132 charges the rechargeable battery 131 according to the external power source, and the rechargeable battery 131 is used to provide power to the image capturing unit 120 and the charging unit 130. The controller 132 is represented as a charging control chip in this embodiment, which is used to control and protect the charging and discharging of the rechargeable battery 131. The rechargeable battery 131 is selected to be any one of a lithium battery, a lithium ion battery, a lithium phosphate battery, a lithium polymer battery, a nickel-cadmium battery, and a lead-acid battery. The second circuit board 133 has a third side 1331 and a fourth side 1332. The third and fourth sides 1331 and 1332 are respectively disposed on the upper and lower sides of the second circuit board 133 in this embodiment. The first circuit board 123 is electrically connected to the second circuit board 133, and the connection port 110, the rechargeable battery 131 and the controller 132 are separately arranged on the third side 1331 of the second circuit board 133 and electrically connected. In an alternative embodiment, the charging unit 130 further has a voltage detection chip, which is disposed on the second circuit board 133 to be electrically connected to the controller 132, and the voltage detection chip is used for detecting side The state of charge of the rechargeable battery 131. In another alternative embodiment, the voltage detection chip selection is integrated with the controller 132. The indicator unit 160 has a plurality of indicating light-emitting elements 161 and a third circuit board 162. The third circuit board 162 is electrically connected to the first circuit board 123. The third circuit board 162 has a fifth side 1621 and a first circuit board. Six sides 1622. In this embodiment, the fifth and sixth sides 1621 and 1622 are respectively arranged on the front and back sides of the third circuit board 162. The indicator light-emitting elements 161 are separately arranged on the third circuit board 162. The fifth side 1621 is electrically connected, and the indicator light emitting elements 161 are selected from white, blue, green, yellow, red light-emitting diodes or light-emitting diodes of other colors. The indicator light-emitting elements 161 are used for the user to know the battery working status, battery damage status, battery low voltage status, and image capture of the external biometric image capturing device 100 by turning on or off or flashing the light source. Take the working status of the device, etc. In an alternative embodiment, the indicator unit 160 may be omitted. In addition, the first, second, and third circuit boards 123, 133, and 162 are represented as printed circuit boards (PCBs) in this embodiment, and the printed circuit boards may be a flexible printed circuit board or a rigid printed circuit board. And the first, second, and third circuit boards 123, 133, 162 are represented in this embodiment as three independent circuit boards electrically connected to each other through a flexible cable, but it is not limited to this, in other embodiments The first, second, and third circuit boards 123, 133, and 162 can also be integrated into three areas on a single circuit board. The heat dissipation base 150 has a horizontal portion 151, an upright portion 152 and a flange 153. The upright portion 152 extends upward from one side edge of the horizontal portion 151. The horizontal portion 151 has a first surface 1511 and a second surface 1512 respectively provided on the upper and lower sides of the horizontal portion 151, and the upright portion 152 has a third surface 1521 and a fourth surface 1522 respectively provided on the On the front and back sides of the upright portion 152, the flange 153 protrudes toward the third surface 1521 of the upright portion 152, and the second side 1232 of the first circuit board 123 is correspondingly disposed on the third surface 1521 of the upright portion 152 The second circuit board 133 is correspondingly disposed on the first surface 1511 of the horizontal portion 151, and the sixth side 1622 of the third circuit board 162 is correspondingly disposed on the flange 153. The first and second cover plates 170 and 180 are correspondingly covered. The first cover plate 170 is provided with a plurality of first openings corresponding to the lens sets 121 and the non-partial light emitting element 122 and the indicating light emitting elements 161 respectively. 171 and a second opening 172 and a plurality of holes 173. The second cover plate 180 has a third opening 181 corresponding to the connection port 110. The first and second openings 171, 172 and the hole 173 are all facing the Measure the direction of the target. The heat dissipating base 150 is used to absorb the heat generated by the components carried by the first, second, and third circuit boards 123, 133, and 162 disposed thereon, and conduct the heat to the first and second cover plates 170, 180 for heat dissipation. In an alternative embodiment, the heat dissipation base 15 may be omitted, and the first, second, and third circuit boards 123, 133, and 162 are all fixedly disposed in the first cover 170. With this design, the operator can make the electric current output by the rechargeable battery 131 sufficient to drive the invisible light emitting element 122 of the image capturing unit 120 to emit light according to actual needs, so as to meet the requirements of recognition accuracy, and It also effectively achieves the effect of providing stable power. This creation has been described in detail above, but what is described above is only a preferred embodiment of this creation, and should not limit the scope of implementation of this creation. That is to say, all equal changes and modifications made in accordance with the scope of the application for this creation shall still fall within the scope of the patent for this creation.

100: External biometric image capture device 122: Invisible light emitting element 110: Port 123: The first circuit board 120: Image capture unit 1231: first side 121: lens group 1321: second side 1221: Infrared lens group 130: charging unit 1222: Visible light lens group 131: Rechargeable battery 132: Controller 173: Hole 133: second circuit board 180: second cover 1331: third side 181: third opening 1332: fourth side 150: cooling base 151: Horizontal part 1511: first side 1512: second side 152: Upright 1521: third side 1522: Fourth Side 153: Flange 160: indicator unit 161: Indicating light-emitting element 162: third circuit board 1621: fifth side 1622: sixth side 170: first cover 171: first opening 172: second opening

Figure 1 is a block diagram of the created plug-in biometric image capture device; Figure 2 is a three-dimensional exploded view of the created plug-in biometric image capture device; Figure 3 is a schematic diagram of the image capture unit of the creative plug-in biometric image capture device; Figure 4 is a schematic diagram of the charging unit of the creative plug-in biometric image capture device; Figure 5 is a schematic diagram of the heat dissipation base of the creative external biometric image capture device; Figure 6 is a schematic diagram of the indicator unit of the creative plug-in biometric image capture device; Figure 7 is a partial combination diagram of the creation of the external biometric image capture device; Figure 8 is a three-dimensional assembly diagram of the created plug-in biometric image capture device.

100: External biometric image capture device

110: Port

120: Image capture unit

121: lens group

122: Invisible light emitting element

130: charging unit

131: Rechargeable battery

132: Controller

Claims (12)

A plug-in biometric image capture device, which includes: A connection port for receiving an external power source or outputting a signal; An image capturing unit with a plurality of lens groups and an invisible light emitting element; and A charging unit electrically connected to the connection port and the image capturing unit, the charging unit having a rechargeable battery and a controller, the controller is electrically connected to the rechargeable battery, the controller is based on the external power supply to the rechargeable battery For charging, the rechargeable battery is used to provide power to the image capture unit and the charging unit. For the external biometric image capturing device described in claim 1, wherein the image capturing unit further has a first circuit board, the first circuit board has a first side and a second side, the The lens group and the invisible light emitting element are arranged on the first side of the first circuit board and are electrically connected. The plug-in biometric image capture device according to the second item of the scope of patent application, wherein the charging unit further has a second circuit board, the first circuit board is electrically connected to the second circuit board, and the second circuit board It has a third side and a fourth side. The connection port, the rechargeable battery and the controller are arranged on the third side of the second circuit board and are electrically connected. As described in item 3 of the scope of patent application, the external biometric image capturing device further includes a heat dissipation base having a horizontal portion, a standing portion and a flange, and the standing portion extends upward from one side edge of the horizontal portion , The horizontal portion has a first surface and a second surface, the upright portion has a third surface and a fourth surface, the flange protrudes toward the third surface of the upright portion, and the first circuit board The two sides are correspondingly arranged on the third surface of the upright portion, and the second circuit board is correspondingly arranged on the first surface of the horizontal portion. As described in item 4 of the scope of patent application, the external biometric image capture device further includes an indicator unit having a plurality of indicating light-emitting elements and a third circuit board, which is electrically connected The first circuit board, the third circuit board have a fifth side and a sixth side, the sixth side of the third circuit board is correspondingly arranged on the flange, and the indicator light-emitting elements are arranged on the third circuit The fifth side of the board is electrically connected. As described in item 2 of the scope of patent application, the external biometric image capture device further includes a first cover plate and a second cover plate. The first and second cover plates are correspondingly covered, and the first cover plate A plurality of first openings and a second opening are provided corresponding to the lens sets and the indispensable light emitting element, and the second cover plate is provided with a third opening corresponding to the connection port. In the external biometric image capture device described in item 6 of the scope of patent application, the first cover plate is further provided with a plurality of holes. In the external biometric image capturing device described in item 1 of the scope of patent application, the lens groups include an infrared light lens group and a visible light lens group. As described in the first item of the scope of patent application, the externally mounted biometric image capturing device, wherein the invisible light emitting element is an infrared light diode. For the external biometric image capture device described in the first item of the scope of patent application, the charging unit further has a voltage detection chip, the voltage detection chip is electrically connected to the controller, and the voltage detection chip is used to detect the The charging status of the rechargeable battery. In the external biometric image capturing device described in item 1 of the scope of patent application, the connection port is a USB connector. As described in the first item of the scope of patent application, the external biometric image capture device, wherein the rechargeable battery is selected from any of lithium batteries, lithium ion batteries, lithium phosphate batteries, lithium polymer batteries, nickel-cadmium batteries, and lead-acid batteries One.

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