JP2019220908A - Electronic apparatus and nfc antenna - Google Patents

Abstract

To mount an NFC antenna on a front of an electronic apparatus without reducing an antenna size.SOLUTION: An electronic apparatus 1 includes: an LED 4 arranged in front of the apparatus; a cover 5 arranged in front of the LED 4; and an NFC antenna 10 in which a spiral coil 12 is pattern-formed on a surface of an antenna substrate 11. In the antenna substrate 11, inside the coil 12, a through window 13 into which the LED 4 is inserted is formed. The antenna substrate 11 is arranged at a position where the LED 4 is inserted into the through window 13 and at a position almost in contact with a back surface 5A of the cover 5.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a technology for mounting an NFC antenna mounted on an electronic device.

In recent years, with the spread of mobile terminals such as smartphones, various electronic devices have been equipped with NFC (Near Field Communication: Near Field Communication) functions.
Conventionally, by performing NFC communication between an electronic device equipped with such an NFC function and a portable terminal also equipped with an NFC function, the electronic device can be controlled from the portable terminal or data stored in the electronic device can be transmitted. Techniques for capturing in mobile terminals have been proposed.

  For example, in Patent Document 1, NFC communication is performed between a portable terminal and an electronic device by mounting an NFC function on an electronic device such as an IO module or a controller used in an air conditioning control system or an industrial control system. The technology is disclosed. Thus, even when the electronic device is in a non-power-supplied state, the electronic device is activated by the power supplied from the portable terminal through the NFC communication to perform predetermined data processing, thereby enabling the air-conditioning control system or the industrial control. Before the power supply equipment of the system operates, the setting work of the electronic equipment can be performed at the installation site.

JP 2017-143327 A

  As the size of the NFC antenna used in such NFC communication decreases, the communication distance decreases. For this reason, an NFC antenna having a sufficient size is required to enable NFC communication with the portable terminal at a position somewhat distant from the electronic device. On the other hand, since the communication distance of a general NFC antenna is several tens of mm, it is necessary to mount the NFC antenna on the front of the electronic device in consideration of the positional relationship between the worker holding the portable terminal and the electronic device.

  However, the area of the front of the device is limited with the miniaturization of the electronic device, and in many cases, LEDs for displaying the operation state of the electronic device are arranged on the front of the device. In particular, electronic devices such as IO modules and controllers used in air-conditioning control systems and industrial control systems are mounted side by side with other electronic devices on a DIN rail such as a panel, so that the area occupied by the front of the device becomes smaller. Designed.

  Therefore, if an NFC antenna is mounted on the front of a device having a small area, it will interfere with the LED on the front of the device. For this reason, in order to avoid interference with the LED, the size of the NFC antenna must be reduced, and as a result, an NFC antenna having a sufficient size to obtain a certain communication distance cannot be mounted in front of the device. There was a point.

  An object of the present invention is to solve such a problem, and an object of the present invention is to provide an NFC antenna mounting technology that can mount an NFC antenna on the front of an electronic device without reducing the antenna size.

  In order to achieve such an object, an electronic device according to the present invention is an electronic device that performs NFC communication, and includes an LED disposed on the front of the device, a cover disposed on the front of the LED, and an antenna board. An NFC antenna in which a spiral coil is pattern-formed on the surface of the antenna, the antenna substrate has a through window formed inside the coil, and at a position where the LED is inserted into the through window. And at a position substantially in contact with the back surface of the cover.

  Further, one configuration example of the electronic device according to the present invention is disposed between the front surface of the LED and the rear surface of the cover, at a position inserted into the through window, and receives light from the LED. The camera further includes a lens for guiding to the cover.

  Further, one configuration example of the electronic device according to the present invention further includes an internal substrate that is disposed inside the electronic device along a depth direction of the electronic device and has the LED mounted on a front side of the electronic device. The internal substrate has a concave portion formed at an end of the substrate on the front side of the device, for supporting the antenna substrate on the rear surface of the cover.

  Further, an NFC antenna according to the present invention is an NFC antenna used for NFC communication, wherein an antenna substrate having a spiral coil pattern formed on a surface thereof, and an antenna formed inside the coil of the antenna substrate, And a penetrating window for penetrating the component.

  Further, one configuration example of the NFC antenna according to the present invention is such that the antenna substrate is located at a position where an LED arranged on the front of the device of the electronic device is inserted into the through window, and is disposed on the front of the device. The cover is arranged at a position substantially in contact with the rear surface of the cover.

  ADVANTAGE OF THE INVENTION According to this invention, even if LED is arrange | positioned at the front of apparatus, since LED can be inserted in the penetration window of an antenna board, interference between LED and NFC antenna can be avoided. Therefore, it is not necessary to reduce the size of the NFC antenna in order to avoid such interference, and an NFC antenna having a sufficient size so that NFC communication with a portable terminal can be performed at a certain distance from the electronic device can be performed. It can be mounted on the front of the device.

It is an explanatory view showing an electronic device. FIG. 2 is a block diagram illustrating a circuit configuration of the electronic device. It is an external view of an NFC antenna. FIG. 2 is an explanatory diagram illustrating a main part of the electronic device according to the first embodiment. FIG. 9 is an explanatory diagram illustrating a main part of an electronic device according to a second embodiment. FIG. 11 is an explanatory diagram illustrating a main part of an electronic device according to a third embodiment. FIG. 14 is an explanatory diagram illustrating a main part of an electronic device according to a fourth embodiment.

Next, embodiments of the present invention will be described with reference to the drawings.
[First Embodiment]
First, an electronic device 1 according to a first embodiment of the present invention will be described with reference to FIG. 1, FIG. 2, and FIG. 1A and 1B are explanatory diagrams showing an electronic device, FIG. 1A is a front view, and FIG. 1B is a side view. FIG. 2 is a block diagram illustrating a circuit configuration of the electronic device. FIG. 3 is an external view of the NFC antenna.

[Electronics]
The electronic device 1 is an electronic device such as an IO module or a controller used in an air conditioning control system or an industrial control system. As shown in FIG. 1, the case 2 of the electronic device 1 has a rectangular shape as a whole, and is mounted on a DIN rail such as a panel alongside other electronic devices.

  As shown in FIG. 2, the electronic device 1 includes an NFC antenna 10, a wireless I / F circuit 21, a power supply circuit 22, a storage circuit 23, a device I / F circuit 24, and a high-order I / F circuit 25 as main circuit units. , A display circuit 26, an operation input circuit 27, and a control circuit 28.

  As shown in FIG. 3, the NFC antenna 10 is a board unit in which a spiral coil 12 functioning as a wireless antenna for NFC communication is formed in a wiring pattern on an antenna board 11 made of a printed wiring board. .

The wireless I / F circuit 21 has a function of performing NFC communication with a portable terminal (not shown) such as a smartphone by transmitting and receiving radio waves via the NFC antenna 10.
The power supply circuit 22 has a function of supplying power generated from a commercial power supply to each circuit unit. At this time, when the commercial power is not supplied, the power received from the wireless I / F circuit 21 by the power circuit 22 may be supplied to each circuit unit, or the power generated from the commercial power may be supplied to the wireless I / F. Power may be transmitted from the F circuit 21 to the NFC communication partner.

The storage circuit 23 is formed of a storage device such as a semiconductor memory, and has a function of storing various processing data and programs used for the operation of the electronic device 1.
The device I / F circuit 24 has a function of performing data transmission with various devices (not shown) such as field devices connected via wiring.
The host I / F circuit 25 has a function of performing data communication with a host device (not shown) connected via a communication line.

The display circuit 26 includes a display device such as an LED 4 or an LCD, and has a function of displaying an operation state of the electronic device 1 in accordance with an instruction from the control circuit 28.
The operation input circuit 27 includes an operation input element such as a switch or a button, and has a function of detecting an operation of an operator and outputting the operation to the control circuit 28.

The control circuit 28 has a CPU and its peripheral circuits, and has a function of executing various processes by reading and executing a program in the storage circuit 23 and causing the CPU and the program to cooperate.
The processing executed by the control circuit 28 includes a function of controlling and monitoring various devices via the device I / F circuit 24 and data relating to various devices via the high-level I / F circuit 25 between the host device and the host device. It has a function of exchanging data and a function of setting parameters for the storage circuit 23 and taking in data stored in the storage circuit 23 by performing NFC communication with the mobile terminal via the wireless I / F circuit 21. ing.

[NFC antenna mounting structure]
Next, a mounting structure of the NFC antenna 10 will be described with reference to FIGS. FIGS. 4A and 4B are explanatory diagrams illustrating main parts of the electronic device according to the first embodiment, wherein FIG. 4A is a front view, FIG. 4B is a side view, and FIG. It is. Hereinafter, in a state in which the electronic device 1 is mounted, the horizontal (left / right) direction is X, the vertical (up / down) direction is Y, and the depth direction is Z in front view.

  As shown in FIG. 4, an internal substrate 3 is arranged inside the case 2 along the depth direction Z, and the end of the internal substrate 3 on the front side of the device has the operation of the electronic device 1. One or more LEDs 4 for displaying a state are mounted. At this time, the LED 4 is mounted in a direction of emitting light in the front view direction along the internal substrate 3.

A cover 5 is arranged on the front of the LED 4 on the front of the case 2, and an NFC antenna 10 is arranged on a back 5 A of the cover 5.
Further, on the front of the case 2, in addition to the cover 5, connectors (modular jacks) 6A and 6B for connecting a communication line to a higher-level device and a terminal block 6C, and transmission lines for various devices are connected. Terminal block 6D is arranged.

  In the antenna substrate 11, at a position where the LED 4 is arranged in a front view, a through window 13 for penetrating the LED 4 (electronic component) is formed. For this reason, if the antenna substrate 11 is arranged at a position where the LED 4 is inserted into the through window 13, the antenna substrate 11 can be arranged at a position substantially in contact with the back surface 5 </ b> A of the cover 5. Therefore, the NFC antenna 10 and the LED 4 can be arranged at a position almost in contact with the back surface 5A of the cover 5 without the NFC antenna 10 and the LED 4 interfering with each other. Thus, light from the LED 4 is emitted from the front of the device via the cover 5.

  The coil 12 of the NFC antenna 10 is electrically connected to the internal board 3 via a pair of connectors CN. In the example of FIG. 4, a connection structure in which one of the connectors CN is soldered to the end of the coil 12 and the other is soldered to the wiring pattern of the internal board 3 is not limited to this. . For example, a general connection structure may be used, such as electrically connecting the end of the coil 12 and the wiring pattern of the internal substrate 3 via a wiring member such as a wiring cord or a flexible substrate.

[Effects of the First Embodiment]
As described above, in the present embodiment, the electronic device 1 has the LED 4 disposed on the front of the device, the cover 5 disposed on the front of the LED 4, and the spiral coil 12 formed on the surface of the antenna substrate 11 in a pattern. A through window 13 into which the LED 4 is inserted is formed inside the coil 12 of the antenna substrate 11, and the antenna substrate 11 is positioned at a position where the LED 4 is inserted into the through window 13. And, it is arranged at a position almost in contact with the back surface 5A of the cover 5.

  Thereby, even when the LED 4 is arranged on the front of the device, the LED 4 can be inserted into the through window 13 of the antenna substrate 11, so that interference between the LED 4 and the NFC antenna 10 can be avoided. Therefore, it is not necessary to significantly reduce the size of the NFC antenna 10 in order to avoid such interference. The electronic device 1 can be mounted on the front of the device.

[Second embodiment]
Next, the electronic device 1 according to the present embodiment will be described with reference to FIG. FIGS. 5A and 5B are explanatory diagrams illustrating main parts of an electronic device according to the second embodiment, where FIG. 5A is a front view, FIG. 5B is a side view, and FIG. It is.
In the present embodiment, a case will be described in which a columnar lens 7 is disposed between the front surface of the LED 4 and the rear surface 5A of the cover 5.

As shown in FIG. 5, the lens 7 in the present embodiment is formed of a transparent member having a columnar shape for guiding light from the LED 4 to the cover 5, and is provided between the front surface of the LED 4 and the back surface 5A of the cover 5. In addition, it is arranged at a position where it is inserted into the through window 13 of the antenna substrate 11.
As a result, light emitted from the LED 4 toward the front of the device is guided to the cover 5 via the lens 7. For this reason, it is not necessary to insert the LED 4 into the through window 13, and it is sufficient that the position of the LED 4 and the through window 13 match when viewed from the front. The degree can be increased.

[Third Embodiment]
Next, the electronic device 1 according to the present embodiment will be described with reference to FIG. FIGS. 6A and 6B are explanatory diagrams showing main parts of an electronic device according to the third embodiment. FIG. 6A is a front view, FIG. 6B is a side view, and FIG. 6C is a bottom view. It is.
In the present embodiment, a case where an L-shaped lens 7 is disposed between the front surface of the LED 4 and the back surface 5A of the cover 5 will be described.

  As shown in FIG. 6, the lens 7 in the present embodiment is formed of an L-shaped transparent member that is bent at a right angle from the lateral direction X to the depth direction Z. At this time, the LED 4 is mounted so as to emit light in the horizontal direction X perpendicular to the internal substrate 3, one end of the lens 7 is arranged to face the emission portion of the LED 4, and the other end is Is disposed at a position to be inserted into the through window 13.

  Thereby, the light emitted in the lateral direction X from the LED 4 is bent toward the front of the device via the lens 7 and guided to the cover 5. Therefore, there is no need to insert the LED 4 into the through window 13, and it is not necessary that the positions of the LED 4 and the through window 13 match when viewed from the front. Therefore, a general LED that emits light in a direction perpendicular to the substrate mounting surface can be used as the LED 4, and the mounting position of the LED 4 on the internal substrate 3, particularly the degree of freedom in the depth direction Z and the lateral direction X. Can be increased.

[Fourth Embodiment]
Next, the electronic device 1 according to the present embodiment will be described with reference to FIG. FIGS. 7A and 7B are explanatory diagrams showing main parts of an electronic device according to the fourth embodiment, where FIG. 7A is a front view, FIG. 7B is a side view, and FIG. 7C is a bottom view. It is.
In the present embodiment, a case where the NFC antenna 10 is supported by the internal substrate 3 will be described.

As shown in FIG. 7, a recess 3B for supporting the antenna substrate 11 on the back surface 5A of the cover 5 is provided substantially at the center of the substrate end 3A on the front side of the device among the internal substrate 3 in the present embodiment. ing.
The length of the concave portion 3B in the vertical direction Y is slightly longer than the length of the antenna substrate 11 in the vertical direction Y, and the depth of the concave portion 3B in the depth direction Z, that is, the concave portion 3B of the substrate end 3A. Has a height substantially equal to the thickness of the antenna substrate 11.

Therefore, the antenna substrate 11 is sandwiched and supported between the internal substrate 3 and the back surface 5A of the cover 5 so as to fit into the concave portion 3B.
Thus, the antenna substrate 11 can be stably fixed to the back surface 5A of the cover 5, and the size of the connector CN can be reduced.

[Expansion of Embodiment]
As described above, the present invention has been described with reference to the exemplary embodiments. However, the present invention is not limited to the above exemplary embodiments. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention. In addition, the respective embodiments can be arbitrarily combined and implemented without contradicting each other.

  DESCRIPTION OF SYMBOLS 1 ... Electronic device, 2 ... Case, 3 ... Internal board, 3A ... Board end part, 3B ... Concave part, 3C ... Convex part, 4 ... LED, 5 ... Cover, 5A ... Backside, 6A, 6B ... Connector, 6C, 6D ... Terminal block, 7 ... Lens, 10 ... NFC antenna, 11 ... Antenna board, 12 ... Coil, 13 ... Through window, 21 ... Wireless I / F circuit, 22 ... Power supply circuit, 23 ... Storage circuit, 24 ... Device I / F circuit, 25: upper I / F circuit, 26: display circuit, 27: operation input circuit, 28: control circuit.

Claims (5)

An electronic device that performs NFC communication,
An LED arranged in front of the device,
A cover arranged in front of the LED;
An NFC antenna having a spiral coil pattern formed on the surface of the antenna substrate;
The antenna substrate has a through window formed inside the coil, and is disposed at a position where the LED is inserted into the through window and at a position substantially in contact with the back surface of the cover. Electronic equipment characterized by the following. The electronic device according to claim 1,
An electronic device, further comprising a lens disposed between the front surface of the LED and the rear surface of the cover and inserted into the through window to guide light from the LED to the cover. . The electronic device according to claim 1 or 2,
Further comprising an internal substrate disposed inside the electronic device along a depth direction of the electronic device, wherein the LED is mounted on the device front side;
The electronic device according to claim 1, wherein the internal substrate has a concave portion formed at an end of the substrate on the front side of the device, for supporting the antenna substrate on a rear surface of the cover. An NFC antenna used for NFC communication,
An antenna substrate having a spiral coil pattern formed on its surface,
An NFC antenna, comprising: a penetrating window formed inside the coil in the antenna substrate to penetrate electronic components. The NFC antenna according to claim 4,
The antenna board is located at a position where an LED arranged on the front of the device of the electronic device is inserted into the through window, and at a position substantially in contact with a back surface of a cover arranged on the front of the device. An NFC antenna characterized by the following.

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