JP7386092B2 - electronic pen - Google Patents

Description

The present invention relates to an electronic pen equipped with a touch sensor.

Electronic pens are capable of inputting digital characters as an alternative to writing instruments in stationery, and making selections as an alternative to input using a mouse or touch panel, and have recently been used in electronic devices such as smartphones and tablets. An electronic pen usually outputs the coordinates of that position to the electronic device when the pen tip points at the surface of the electronic device.

Regarding this, Patent Document 1 discloses a technique for attaching a side switch to a rod-shaped electronic pen. This side switch can be assigned as the left and right button functions of the mouse, or can be assigned other functions.

Further, Patent Document 2 discloses a technique for attaching a dial instead of a side switch to a grip portion of a stick-shaped electronic pen.

Japanese Patent Application Publication No. 9-6518 Japanese Patent Application Publication No. 2000-56913

However, in the electronic pens described in Patent Documents 1 and 2, the gripping part is round, so when the electronic pen is provided with a plurality of side switches or the electronic pen is provided with a plurality of dials, it is difficult to distinguish between switches or dials. It is difficult to remove, and the operability cannot be said to be sufficient.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide an electronic pen with high operability for the user.

An electronic pen according to a first aspect of the present invention includes a rod-shaped casing, a core disposed at the tip of the casing, and a transmitter that transmits a position detection signal from the core. In the pen, the rod-shaped housing has a plurality of side surfaces provided such that a cross section in a direction perpendicular to the axis of the housing forms a polygonal portion, and a first side of the plurality of side surfaces. , a first touch sensor section to which a first function is assigned; and a second touch sensor section provided on a second side surface, which is different from the first side surface, among the plurality of side surfaces, and to which a second function, which is the same as or different from the first function, is assigned. a second touch sensor section, and a control section that controls functions of the first touch sensor section and the second touch sensor section.

According to this configuration, since the first touch sensor section and the second touch sensor section are provided on any two of the plurality of side surfaces, the side surfaces and the touch sensor sections are each in a one-to-one correspondence. This allows the user to judge from the side which touch sensor part to operate, thereby increasing the operability of the electronic pen.

According to the present invention, it is possible to provide an electronic pen with high operability for the user.

1 is an overall configuration diagram of a position detection system incorporating an electronic pen according to an embodiment of the present invention. 1 is a perspective view showing an example of the external configuration of an electronic pen according to an embodiment of the present invention. 1 is a diagram illustrating a circuit example of an electrical configuration of an electronic pen according to an embodiment of the present invention. FIG. FIG. 1 is a block diagram showing a functional configuration of an electronic pen according to an embodiment of the present invention. It is a flowchart showing the flow of processing executed by the electronic pen according to the embodiment of the present invention. FIG. 7 is an external perspective view showing an electronic pen according to a modified example. FIG. 7 is an external perspective view showing an electronic pen according to another modification of the embodiment of the present invention. (A) is a diagram showing a modification of the arrangement of the touch sensor section in the electronic pen shown in FIG. 7, and is a diagram seen from the core side of the electronic pen. (B) is a diagram showing another modification of the arrangement of the touch sensor section in the electronic pen shown in FIG. 7, and is a diagram seen from the core side of the electronic pen. (C) is a diagram of the electronic pen shown in FIG. 7 viewed from the core side when the cross-sectional shape of the electronic pen is triangular. (D) is a diagram showing a modification of the electronic pen shown in (B). (A) is a diagram showing electrodes that constitute a touch sensor. (B) is a diagram showing a top sheet constituting a touch sensor for a hexagonal electronic pen. (C) is a diagram showing a topsheet that is a modification of the topsheet shown in (B). (D) is a diagram showing a top sheet for a triangular electronic pen, which is still another modification of the top sheet shown in (B). FIG. 7 is an external view showing an electronic pen according to another modification of the embodiment of the present invention. 11 is an external view showing a socket according to a modification of the socket shown in FIG. 10. FIG.

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention (hereinafter referred to as "the present embodiment" as appropriate) will be described below with reference to the accompanying drawings. In order to facilitate understanding of the explanation, the same components and steps in each drawing are denoted by the same reference numerals as much as possible, and redundant explanation will be omitted.

<Overall configuration of position detection system>
FIG. 1 is an overall configuration diagram of a position detection system 1 incorporating an electronic pen 10 according to the present embodiment.

As shown in FIG. 1, the position detection system 1 includes an electronic pen 10 and an electronic device 12.

The electronic pen 10 is configured to be able to instruct the position of the electronic device 12 . Further, the electronic pen 10 is configured to be able to communicate with the electronic device 12 in one direction or in both directions. The type of electronic pen 10 is not particularly limited, but for example, it may be of the so-called "active capacitive coupling type" in which it actively generates a signal from the electrical energy it stores and transmits it to the electronic device 12. Good too. Further, the electronic pen 10 may be of the so-called "electromagnetic induction type" in which a signal from the electronic device 12 is received by a resonant circuit and the received signal is fed back to the electronic device 12. In the present embodiment, a case where the type of electronic pen 10 is an "active capacitive coupling method" will be described below.

The electronic device 12 incorporates a position detection device 12A that includes a position detection sensor, a processing IC, and the like for detecting the position indicated by the electronic pen 10. Examples of the electronic device 12 include a tablet, a smartphone, a display, a personal computer, and the like. The user U holds the electronic pen 10 with one hand and moves it while pressing the pen tip against the electronic device 12 to write pictures or characters on the electronic device 12 or a computer (not shown) connected to the electronic device 12. be able to.

<External configuration of electronic pen 10>
FIG. 2 is a perspective view showing an example of the external configuration of the electronic pen 10 according to the present embodiment.

As shown in FIG. 2, the electronic pen 10 includes, for example, a housing 20, a core body 22, an LED (Light-Emitting Diode) lamp 24, and a touch sensor section 26.

The housing 20 has a rod shape, and is provided with a plurality of side surfaces 21 such that the cross section in the direction perpendicular to the axis forms a polygonal section. The above-mentioned "axis perpendicular direction" means a direction perpendicular to the axis O direction of the housing 20. Further, the type of the above-mentioned "polygonal shape" is not particularly limited, and examples include triangular shape, quadrangular shape, hexagonal shape, and the like. Note that the above-mentioned "polygonal shape" may include one with rounded corners. In this embodiment, when the side of the housing 20 where the core body 22 is exposed is defined as a lower part 20A, and the opposite side is defined as an upper part 20B, the cross section of all or part of the lower part 20A is hexagonal, and the hexagonal It has six flat sides 21 to form a shape. The lengths of these side surfaces 21 in the axis O direction are all the same length. In addition, in FIG. 2, only three side surfaces (first side surface 21A, second side surface 21B, and third side surface 21C) among the six side surfaces 21 are illustrated.

The core body 22 extends in the direction of the axis O inside the housing 20, and its tip is exposed from the housing 20. That is, the core body 22 is arranged at the tip of the housing 20. This core body 22 is configured to be movable in the direction of the axis O in order to detect the pen pressure of the user U.

The LED lamp 24 emits light when the touch sensor section 26 is enabled. Although the position of this LED lamp 24 is not particularly limited, it is provided, for example, on the tip side of the second side surface 21B.

One or more touch sensor sections 26 are provided on all or part of the plurality of side surfaces 21. In particular, in order to achieve high operability and multifunctionality, it is preferable that a plurality of touch sensor sections 26, such as two, three, or six, be provided. In this embodiment, the touch sensor section 26 includes three touch sensor sections, namely, a first touch sensor section 26A, a second touch sensor section 26B, and a third touch sensor section 26C. These touch sensor sections 26 may be composed of one touch sensor as hardware, or may be composed of a plurality of touch sensors. When configured with one touch sensor, the touch sensor is wound around the housing 20 so as to span the first side surface 21A, the second side surface 21B, and the third side surface 21C. Moreover, one touch sensor 46 has a plurality of input areas, and the input area arranged on the first side surface 21A and the input area arranged on the second side surface 21B have different functions.

The first touch sensor section 26A is provided on the first side surface 21A among the plurality of side surfaces 21, and is assigned a first function. Further, the first touch sensor section 26A is formed longer in the axis O direction than the second touch sensor section 26B. In this embodiment, the first function is a function of transmitting operation information of the user U on the first touch sensor section 26A to the position detection device 12A of the electronic device 12. This operation information includes, for example, operation information such as a slide operation, a single tap operation, a double tap operation, and a hold operation. This slide operation includes, for example, a scroll operation, a swipe operation, a flick operation, a pinch operation, and the like.

The second touch sensor section 26B is provided on a second side surface 21B, which is different from the first side surface 21A, among the plurality of side surfaces 21, and is assigned a second function that is the same as or different from the first function. In this embodiment, the second function is assigned a function different from the first function. Specifically, the second function is a function of activating the touch sensor sections 26 other than the second touch sensor section 26B, that is, the first touch sensor section 26A and the third touch sensor section 26C.

The third touch sensor section 26C is provided on a third side surface 21C, which is different from the first side surface 21A and the second side surface 21B, among the plurality of side surfaces 21, and is assigned a third function different from the second function. In this embodiment, the third function is a function of transmitting operation information of the user U on the third touch sensor section 26C to the position detection device 12A of the electronic device 12. Note that the third touch sensor section 26C may be formed to have the same length in the axis O direction as the second touch sensor section 26B, or may be longer than the second touch sensor section 26B in the axis O direction and It may be formed shorter in the axis O direction than the one touch sensor section 26A.

<Circuit example of electronic pen 10>
FIG. 3 is a diagram showing a circuit example of the electrical configuration of the electronic pen 10 according to the present embodiment.

As shown in FIG. 3, a printed circuit board 40 is provided inside the electronic pen 10. This printed circuit board 40 includes, in addition to the LED lamp 24, an IC (control circuit) 42, a battery 44, one or more touch sensors 46 constituting the touch sensor section 26, a wireless communication module 48, and a transmitting section. A signal transmitting circuit 50 and a receiving circuit 52 are provided. An LED lamp 24, a touch sensor 46, and a wireless communication module 48 are connected to the IC 42. Further, the IC 42 is connected to a signal transmitting circuit 50 and a receiving circuit 52, and is also connected to a variable capacitor 5C constituted by a pressure sensitive component of a writing pressure detecting section (not shown). A resistor 5R is connected in parallel to the variable capacitor 5C. A signal output end of the signal transmitting circuit 50 is connected to the core body 22. Further, a peripheral electrode 28 of the housing 20, which is disposed so as to cover the periphery of the core body 22, is connected to an input end of the receiving circuit 52. Power supply voltage from the battery 44 is supplied to each of the LED lamp 24, IC 42, touch sensor 46, wireless communication module 48, signal transmitting circuit 50, and receiving circuit 52.

The receiving circuit 52 receives a signal received via capacitance coupling (electric field coupling) between the peripheral electrode 28 of the housing 20 and the position detection sensor of the position detection device 12A, and receives the signal according to the received signal. It performs processing such as demodulation and sends a signal resulting from the processing to the IC 42.

The IC 42 analyzes the signal from the receiving circuit 52 and determines the specifications of the other party's position detection device 12A. Then, based on the determination result, the format of the signal output from the signal transmitting circuit 50 is controlled so that it conforms to the specifications of the other party's position detection device 12A.

The signal transmitting circuit 50 basically outputs a signal containing a position detection signal (burst signal) for position detection by the position detection device 12A and pen pressure information under the control of the IC 42. That is, the signal transmitting circuit 50 transmits a burst signal for position detection from the core body 22 under the control of the IC 42. Then, the IC 42 performs an operation of detecting pen pressure based on the capacitance of the variable capacitor 5C during a period when the signal transmitting circuit 50 is transmitting the burst signal.

In this example, the IC 42 first charges the variable capacitor 5C to a fully charged state, and then stops charging, thereby placing the variable capacitor 5C in a state of discharging through the resistor 5R. Then, the time from the start of discharge until the voltage across the variable capacitor 5C reaches a predetermined voltage is measured, and from that time, the capacitance of the variable capacitor 5C at that time is detected. . Since the capacitance of the variable capacitor 5C corresponds to the writing pressure being applied to the core body 22 at that time, the writing pressure is detected based on the detected capacitance.

The IC 42 then controls the signal transmitting circuit 50 to transmit, from the core 22, pen pressure information, for example, an encoded signal, in accordance with the detected pen pressure, after the burst signal transmission period ends. The IC 42 further performs signal generation control according to the specifications of the determined partner's position detection device 12A, such as transmitting identification information of the electronic pen 10 and displaying information on the remaining capacity of the battery 44. Make it.

Note that the wireless communication module 48 may be a wireless communication module based on the Bluetooth (registered trademark) standard, which is a short-range wireless communication standard, a wireless communication module based on infrared communication, or a wireless communication module based on the Wi-Fi (registered trademark) standard. It may also be a communication module. Further, this wireless communication module 48 may be omitted. Further, since the circuit configurations of the position detection device 12A and the position detection sensor can be well-known, description of an example of the configuration will be omitted here.

<Functional configuration of electronic pen 10>
FIG. 4 is a block diagram showing the functional configuration of the electronic pen 10 according to this embodiment.

As shown in FIG. 4, the electronic pen 10 includes, in addition to the touch sensor section 26, a control section 60, a notification section 62, and a communication section 64 as functional components.

The control unit 60 has a function of controlling the touch sensor unit 26, the notification unit 62, the communication unit 64, and the like. For example, the control unit 60 executes the first function when the first touch sensor unit 26A is operated, and executes the first function when the second touch sensor unit 26B is operated. The second function may be the same or different. In this embodiment, when the first touch sensor section 26A is operated, the first function is to transmit information on the user U's operation on the first touch sensor section 26A to the position detection device 12A. Further, in this embodiment, when the second touch sensor section 26B is operated, the second function is performed on a touch sensor section other than the second touch sensor section 26B, in other words, the first touch sensor section 26A. and enable the third touch sensor section 26C. Furthermore, in the present embodiment, when the third touch sensor section 26C is operated, as a third function, the user U's operation information on the third touch sensor section 26C is transmitted to the position detection device 12A. do. Such a control unit 60 is realized by, for example, the IC 42 and a program, although it is not particularly limited.

Further, the control unit 60 causes the notification unit 62 to notify (for example, emits light) when the first touch sensor unit 26A is valid, and causes the notification unit 62 to notify the notification unit 62 when the first touch sensor unit 26A is invalid (inactive). You may also stop notifications.

Further, the control unit 60 controls the first touch sensor unit 26A when the first touch sensor unit 26A is not operated for a predetermined period of time after the first touch sensor unit 26A is enabled. may be disabled. Note that the above-mentioned "predetermined time" is not particularly limited, but is preferably about several seconds, such as 2 seconds or 5 seconds.

Further, after executing the first function, the control unit 60 may disable touch sensor units other than the second touch sensor unit 26B, in other words, the first touch sensor unit 26A and the third touch sensor unit 26C.

Further, the control unit 60 controls the control unit 60 when the first touch sensor unit 26A and the third touch sensor unit 26C are simultaneously operated in a valid state. , the first touch sensor section 26A and the third touch sensor section 26C may be disabled.

The notification unit 62 has a function of notifying the user whether or not the first touch sensor unit 26A and the third touch sensor unit 26C, other than the second touch sensor unit 26B, are valid. Notification methods include emitting light to notify, changing the color of the light (red when enabled, blue when disabled, etc.), generating vibration to notify, One way to do this is to make a sound to notify you. The notification unit 62 is not particularly limited to an LED lamp 24, a light emitting element such as a fluorescent lamp or a halogen lamp, a motor, a speaker, etc., but when the notification unit 62 emits light to notify, it may be realized by the LED lamp 24, for example. Ru.

The communication unit 64 is realized by, for example, the wireless communication module 48, the signal transmitting circuit 50, the receiving circuit 52, etc., although not particularly limited thereto. This communication unit 64 has a function of communicating with the electronic device 12 and/or the position detection device 12A.

<Processing flow>
FIG. 5 is a flowchart showing the flow of processing executed by the electronic pen 10 according to this embodiment. Note that the contents and order of the following steps can be changed as appropriate.

(Step SP10)
The control unit 60 determines whether the second touch sensor unit 26B has been operated. If the determination is affirmative, the process proceeds to step SP12, and if the determination is negative, the process returns to step SP10.

(Step SP12)
The control unit 60 enables the touch sensor units 26 other than the second touch sensor unit 26B. The process then moves to step SP14.

(Step SP14)
The control unit 60 controls the notification unit 62 to emit light, thereby notifying the user that the touch sensor units 26 other than the second touch sensor unit 26B are enabled. The process then moves to step SP16. Note that the order of step SP12 and step SP14 may be reversed.

(Step SP16)
The control unit 60 determines whether the first touch sensor unit 26A has been operated. If the determination is affirmative, the process proceeds to step SP18, and if the determination is negative, the process proceeds to step SP24.

(Step SP18)
The control unit 60 executes a first function. In this embodiment, the control unit 60 waits to execute the first function until the core 22 of the electronic pen 10 touches the surface of the position detection device 12A. Then, on the condition that the core body 22 of the electronic pen 10 is touched on the surface of the position detection device 12A, the control unit 60 performs the following functions as a first function to the position detection device 12A via the communication unit 64. The user U's operation information on the first touch sensor unit 26A is transmitted. In response to this, the electronic device 12 including the position detection device 12A executes processing according to the operation information. Specifically, if the operation information indicates a slide operation, the electronic device 12 zooms in or out of the screen, changes the brush size, scrolls the screen, etc., depending on the screen state. Furthermore, if the operation information indicates a double tap, the electronic device 12 executes a function equivalent to the right key function of a mouse. The process then moves to step SP20.

(Step SP20)
The control unit 60 disables the touch sensor units 26 other than the second touch sensor unit 26B. The process then moves to step SP22.

(Step SP22)
The control unit 60 controls the notification unit 62 to stop emitting light, thereby notifying the user that the touch sensor units 26 other than the second touch sensor unit 26B are disabled. Then, the process returns to step SP10. Note that the order of step SP20 and step SP22 may be reversed.

(Step SP24)
After a negative determination is made in step SP16, the control section 60 determines whether or not the third touch sensor section 26C has been operated. If the determination is affirmative, the process moves to step SP26, and if the determination is negative, the process moves to step SP28.

(Step SP26)
The control unit 60 executes a third function. In this embodiment, the control unit 60 waits to execute the third function until the core 22 of the electronic pen 10 touches the surface of the position detection device 12A. Then, on the condition that the core body 22 of the electronic pen 10 is touched on the surface of the position detection device 12A, the control unit 60 performs a third function via the communication unit 64 to perform the following operations on the position detection device 12A. The user U's operation information for the third touch sensor section 26C is transmitted. In response to this, the electronic device 12 including the position detection device 12A executes processing according to the operation information. Specifically, if the operation information indicates a single tap, the electronic device 12 executes a function equivalent to the left key function of a mouse. Further, if the operation information indicates a double tap, the electronic device 12 executes a menu display function. Note that this menu display function allows the user U to change the content of processing on the electronic device 12 side in accordance with operation information for the touch sensor section 26. Further, if the operation information indicates that the object is held for a predetermined time or more, the electronic device 12 enables the object to be dragged. Then, if the operation information indicates a slide operation, the electronic device 12 drags the object. Thereafter, if the operation information indicates release of the hold, the electronic device 12 fixes the dragged object. The process then moves to step SP20.

(Step SP28)
After a negative determination is made in step SP24, the control section 60 determines whether or not each of the first touch sensor section 26A and the third touch sensor section 26C is not operated for a predetermined period of time. If the determination is affirmative, the process proceeds to step SP20, and if the determination is negative, the process proceeds to step SP30.

(Step SP30)
The control unit 60 determines whether or not the first touch sensor unit 26A and the third touch sensor unit 26C are simultaneously tapped while the first touch sensor unit 26A and the third touch sensor unit 26C are in a valid state. judge. If the determination is affirmative, the process proceeds to step SP20, and if the determination is negative, the process proceeds to step SP32.

(Step SP32)
The control unit 60 determines whether the second touch sensor unit 26B is operated (operation continues) for a predetermined period of time after the second touch sensor unit 26B is operated in step SP10. If the determination is affirmative, the process proceeds to step SP20, and if the determination is negative, the process returns to step SP10.

<Effects of embodiment>
As described above, in this embodiment, the electronic pen includes a rod-shaped housing 20, a core body 22 disposed at the tip of the housing 20, and a transmitter that transmits a position detection signal from the core body 22. 10, the housing 20 has the following configuration.
That is, the casing 20 is provided with a plurality of side surfaces 21 provided such that a cross section in the direction perpendicular to the axis of the casing 20 forms a polygonal portion, and a first side surface 21A among the plurality of side surfaces 21, The first touch sensor section 26A is provided with a first touch sensor section 26A to which a first function is assigned, and the second side surface 21B, which is different from the first side surface 21A among the plurality of side surfaces 21, is assigned a second function that is the same as or different from the first function. The second touch sensor section 26B includes a second touch sensor section 26B, and a control section 60 that controls the functions of the first touch sensor section 26A and the second touch sensor section 26B.

According to this configuration, the user U can hold the electronic pen 10 by placing each finger on each of the plurality of side surfaces 21, thereby making it easier for the user U to hold the electronic pen 10. Further, since the first touch sensor section 26A and the second touch sensor section 26B are provided on any two of the side surfaces 21, the side surfaces 21 and the touch sensor sections 26 are each in a one-to-one correspondence. , the user U can judge which touch sensor part to operate from the side, the user U can operate it intuitively, and the first touch sensor part 26A and the second touch sensor part 26B are This makes it possible to specify the electronic pen 10, thereby increasing the operability of the electronic pen 10.

In the present embodiment, the control unit 60 executes the first function when the first touch sensor unit 26A is operated, and when the second touch sensor unit 26B is operated. perform a second function that is different from the first function.
According to this configuration, the finger of the user U, the side surface 21, the touch sensor section 26, and their functions are associated with each other on a one-to-one basis, thereby making it possible to further improve the operability of the electronic pen 10.

Further, in this embodiment, one touch sensor 46 is provided across the first side surface 21A and the second side surface 21B, and the first touch sensor section 46A and the second touch sensor section 46B are configured by the one touch sensor 46. has been done.
According to this configuration, the number of touch sensors 46 can be reduced, thereby reducing the cost of the electronic pen 10.

Moreover, in this embodiment, one touch sensor 46 has a plurality of input areas, and the input area arranged on the first side surface 21A and the input area arranged on the second side surface 21B have different functions. .
According to this configuration, one touch sensor 46 can perform different functions in each input area.

Further, in the present embodiment, the first function of the electronic pen 10 includes a function of outputting (transmitting) operation information of the user U on the first touch sensor section 26A to the position detection device 12A.
According to this configuration, it is possible to cause the position detection device 12A to execute processing according to the operation information.

Moreover, in this embodiment, the second function is a function of enabling the first touch sensor section 26A.
According to this configuration, when the first touch sensor section 26A is not enabled by the second function, it is possible to suppress malfunction when the first touch sensor section 26A is erroneously operated.

Furthermore, in this embodiment, the electronic pen 10 further includes a notification section 62 that notifies the user whether or not the first touch sensor section 26A is enabled.
According to this configuration, the user U can easily know whether or not the first touch sensor section 26A is effective.

Furthermore, in this embodiment, the notification unit 62 is a light emitting element, and notifies the user by emitting light.
According to this configuration, the user U can easily know visually whether or not the first touch sensor section 26A is effective.

Further, in the present embodiment, the control unit 60 controls the first touch sensor unit 26A when the first touch sensor unit 26A is not operated for a predetermined period of time after the first touch sensor unit 26A is enabled. 1) Disable the touch sensor section 26A.
According to this configuration, it is possible to suppress malfunctions when the second touch sensor section 26B is erroneously operated and the first touch sensor section 26A is enabled.

Further, in this embodiment, the control unit 60 disables the first touch sensor unit 26A after executing the first function.
According to this configuration, it is possible to suppress malfunctions when the first touch sensor section 26A is erroneously operated after the first function is executed.

Further, in the present embodiment, when a slide operation is performed on the first touch sensor section 26A, the control section 60 transmits operation information of the slide operation to the position detection device 12A, and The sensor section 26A is longer in the direction of the axis O of the electronic pen 10 than the second touch sensor section 26B.
According to this configuration, it becomes easier for the user U to perform a sliding operation on the first touch sensor section 26A, thereby making it possible to further improve the operability of the electronic pen 10.

Further, in the present embodiment, the electronic pen 10 is provided on a third side surface 21C, which is different from the first side surface 21A and the second side surface 21B, among the plurality of side surfaces 21, and is assigned a third function different from the second function. It further includes a third touch sensor section 26C.
According to this configuration, the electronic pen 10 can realize at least three functions, thereby making it possible to further improve the operability of the electronic pen 10.

Further, in the present embodiment, the control unit 60 simultaneously controls the first touch sensor unit 26A and the third touch sensor unit 26C in a valid state. When operated, the first touch sensor section 26A and the third touch sensor section 26C are disabled.
According to this configuration, the user U can prevent himself/herself from malfunctioning when the second touch sensor section 26B is operated by mistake and the first touch sensor section 26A is enabled.

<Modified example>
Note that the present invention is not limited to the above embodiments. In other words, the above-described embodiments may be modified as appropriate by those skilled in the art, as long as they have the characteristics of the present invention. Furthermore, the elements of the above-described embodiment and the modified examples described below can be combined to the extent technically possible, and combinations of these are also included within the scope of the present invention as long as they include the features of the present invention. .

For example, in the embodiment described above, the battery 44 is used as the driving power source for the electronic pen 10, but the electronic pen 10 may be provided with a capacitor that stores power supply voltage, and the capacitor may be used as the driving power source. In this case, the configuration in which the power supply voltage is stored in the capacitor may be configured as a charging circuit that receives power energy from the outside through electromagnetic induction or electric field coupling to charge the capacitor, or the electronic pen 10 may be further provided with a charging terminal to provide a dedicated charging circuit. The charging current may be supplied from the charging device through the charging terminal. External power energy (electromagnetic energy or electric field energy) may be supplied to the electronic pen 10 from the position detection device 12A, or may be supplied from a dedicated power supply device.

Furthermore, in the above embodiment, a case has been described in which the control unit 60 waits to execute the first function until the core body 22 touches the surface of the position detection device 12A. At this time, the control unit 60 may change the color of the light emitted by the notification unit 62 from the initial color. For example, the control unit 60 may cause the notification unit 62 to emit red light when the second touch sensor unit 26B is operated, and may cause the notification unit 62 to emit green light when the first function is in a standby state. Further, this waiting may be omitted. That is, the control unit 60 may immediately execute the first function without waiting.

Furthermore, although the above embodiment does not mention the colors of the plurality of side surfaces 21, the plurality of side surfaces 21 may have different colors. For example, among the plurality of side surfaces 21, the first side surface 21A, the second side surface 21B, and the third side surface 21C may have different colors. This allows the user to reliably distinguish between the first touch sensor section 26A, the second touch sensor section 26B, and the third touch sensor section 26C.

Further, in the above embodiment, a case has been described in which the plurality of side surfaces 21 are all the same length, but they may all be different lengths.

FIG. 6 is an external perspective view showing an electronic pen 10A according to a modification of the above embodiment.
As shown in FIG. 6, unlike the above embodiment, the electronic pen 10A has four side surfaces 21 (a first side 21A, a second side 21B, a third side 21B, and a side surface 21C, fourth side surface 21D). All of the four side surfaces 21 have the same length. Further, a first touch sensor section 26A is provided on the first side surface 21A, and a third touch sensor section 26C is provided on the third side surface 21C.
Further, the lengths of the first touch sensor section 26A and the third touch sensor section 26C in the axis O direction are made the same length. Here, in the modified example, the second touch sensor section 26B is omitted, and instead, when pressed, performs the same function (activation function) as the second touch sensor section 26B. A knock-type switch 80 is provided at the rear end of the housing 20. Further, the LED lamp 24 is provided on the rear end side of the housing 20. Note that in the electronic pen 10A, not only the second touch sensor section 26B but also the third touch sensor section 26C can be omitted.

FIG. 7 is an external perspective view showing an electronic pen 10B according to another modification of the above embodiment.
As shown in FIG. 7, the electronic pen 10B is different from the above embodiment in that the housing 20 has a plurality of side surfaces 21 not only at the lower part 20A but also at the lower part 20A and the upper part 20B. Further, among the plurality of side surfaces 21, protrusions are formed on the first side surface 21A, the second side surface 21B, and the third side surface 21C as an example of the marking section 27 indicating the input area of each touch sensor section 26A, 26B, 26C. has been done. Note that the marker portion 27 is not limited to a protrusion, and may be, for example, a recessed portion, an uneven portion, a color, a letter, or the like. Furthermore, the shape and contents of the marker portion 27 may be different between the touch sensor portions 26A, 26B, and 26C.

FIG. 8(A) is a diagram showing a modification of the arrangement of the touch sensor section 26 in the electronic pen 10B shown in FIG. 7, and is a diagram of the electronic pen viewed from the core body 22 side.
As shown in FIG. 8(A), a first touch sensor section 26A, a second touch sensor section 26B, and a third touch sensor section 26C are provided in a concentrated manner. Specifically, the first touch sensor section 26A is provided on the first side surface 21A, the second touch sensor section 26B is provided on the second side surface 21B adjacent to the first side surface 21A, and the third touch sensor section 26C is provided on the second side surface 21B adjacent to the first side surface 21A. It is provided on the third side surface 21C adjacent to the second side surface 21B. Further, the LED lamp 24 is provided in front of the second touch sensor section 26B (on the core body 22 side).

FIG. 8(B) is a diagram showing another modification of the arrangement of the touch sensor section 26 in the electronic pen 10B shown in FIG. 7, and is a diagram of the electronic pen viewed from the core body 22 side.
As shown in FIG. 8(B), when the electronic pen 10B has a first side 21A, a second side 21B, a third side 21C, a fourth side 21D, a fifth side 21E, and a sixth side 21F, the first touch A sensor section 26A, a second touch sensor section 26B, and a third touch sensor section 26C are provided in a distributed manner. Specifically, the first touch sensor section 26A is provided on the fifth side surface 21E, the second touch sensor section 26B is provided on the first side surface 21A that is not adjacent to the fifth side surface 21E, and the third touch sensor section 26C is provided on the first side surface 21A that is not adjacent to the fifth side surface 21E. is provided on a third side surface 21C that is not adjacent to the first side surface 21A.

Moreover, FIG. 8(C) is a diagram of the electronic pen 10B shown in FIG. 7 when the electronic pen 10B has a triangular cross-sectional shape, as viewed from the core body 22 side.
In the electronic pen shown in FIG. 8C, a first touch sensor section 26A, a second touch sensor section 26B, and a third touch sensor section 26C are formed of separate touch sensor sections 46A, 46B, and 46C.

Moreover, FIG. 8(D) is a diagram showing a modification of the electronic pen shown in FIG. 8(B).
In the electronic pen shown in FIG. 8(D), a first touch sensor section 26A, a second touch sensor section 26B, and a third touch sensor section 26C are formed by one touch sensor 46.

FIG. 9(A) is a diagram showing the electrode 47 that constitutes the touch sensor 46. FIG. 9(B) is a diagram showing a top sheet 49A constituting the touch sensor 46 for a hexagonal electronic pen. FIG. 9(C) is a diagram showing a top sheet 49B that is a modification of the top sheet 49A shown in FIG. 9(B). FIG. 9(D) is a diagram showing a top sheet 49C for a triangular electronic pen, which is still another modification of the top sheet 49A shown in FIG. 9(B).

The electrode 47 shown in FIG. 9(A) is arranged together with any one of the topsheets 49A, 49B, and 49C shown in FIGS. 9(B) to 9(D) so that the topsheet 49A is on the outside. Then, it is attached to the housing 20 with an adhesive or the like.
As shown in FIG. 9(B), the marking portions 27 of the first touch sensor portion 26A, the second touch sensor portion 26B, and the third touch sensor portion 26C are concentrated on the left side of the figure on the top sheet 49A. They are placed side by side. In addition, on the top sheet 49B shown in FIG. 9(C), the marking portions 27 of the first touch sensor portion 26A, the second touch sensor portion 26B, and the third touch sensor portion 26C are lined up horizontally at intervals. It is provided. Further, on the top sheet 49C shown in FIG. 9(D), the marking portions 27 of the first touch sensor portion 26A, the second touch sensor portion 26B, and the third touch sensor portion 26C are provided side by side. .

Here, the inner surfaces of the marking portions 27 indicating the first touch sensor portion 26A, the second touch sensor portion 26B, and the third touch sensor portion 26C are designed so that they each feel different when touched by the user. may be formed. For example, the inner surface of the marking section 27 indicating the first touch sensor section 26A has a "smooth" feel, and the inner surface of the marking section 27 indicating the second touch sensor section 26B has a "rough" feel. The inner surface of the marker portion 27 indicating the third touch sensor portion 26C may have a “more rough” feel. Such a feeling can be achieved, for example, by changing the coefficient of friction of each surface. Thereby, the user can immediately grasp which of the first touch sensor section 26A, the second touch sensor section 26B, and the third touch sensor section 26C is being touched.

FIG. 10 is an external view showing an electronic pen 10C according to another modification of the above embodiment.
As shown in FIG. 10, the electronic pen 10C includes a housing 20 and a socket 100A. This socket 100A has six sides (first side 101A, second side 101B, third side 101C, fourth side 101D, fifth side 101E and a sixth side surface 101F). A first touch sensor section 26A is provided on the first side surface 101A. An LED lamp 24 and a second touch sensor section 26B are provided on the second side surface 101B. A third touch sensor section 26C is provided on the third side surface 101C. Further, a first electrode 102 is provided inside the socket 100A. This first electrode 102 is connected to the LED lamp 24, the first touch sensor section 26A, the second touch sensor section 26B, and the third touch sensor section 26C. On the other hand, a second electrode 104 is also provided on the outside of the housing 20 so as to be able to come into contact with the electrode 102. This second electrode 104 is connected to the battery 44.

The user inserts the distal end side (the core body 22 side) of the casing 20 into the socket 100A as described above along the arrow D1 direction, and then rotates the casing 20 in the arrow D2 direction to remove the casing. A socket 100A is removably attached to the body 20, and the first electrode 102 and the second electrode 104 are connected. As a result, the power supply voltage from the battery 44 is applied to each of the LED lamp 24, the first touch sensor section 26A, the second touch sensor section 26B, and the third touch sensor section 26C via the second electrode 104 and the first electrode 102. supplied for.

FIG. 11 is an external view showing a socket 100B according to a modification of the socket 100A shown in FIG.
As shown in FIG. 11, in the socket 100B, a first touch sensor section 26A, a second touch sensor section 26B, and a third touch sensor section 26C are provided at intervals. Specifically, a first touch sensor section 26A is provided on the first side surface 101A, a second touch sensor section 26B is provided on the third side surface 101C, and a third touch sensor section 26C is provided on the fifth side surface 101E. There is. In this way, the first touch sensor section 26A, the second touch sensor section 26B, and the third touch sensor section 26C are spaced apart from each other, that is, the first touch sensor section 26A, the second touch sensor section 26B , the third touch sensor section 26C are dispersed, thereby making it possible to further improve the operability of the electronic pen for the user.

10, 10A: electronic pen, 20: housing, 26A: first touch sensor section, 26B: second touch sensor section

Claims (12)

An electronic pen that includes a rod-shaped housing, a core disposed at the tip of the housing, and a transmitter that transmits a position detection signal from the core,
a socket that can be detachably attached to the housing;
The socket is
a plurality of side surfaces provided such that a cross section in a direction perpendicular to the axis of the socket forms a polygonal portion;
a first touch sensor section provided on a first side surface among the plurality of side surfaces and to which a first function is assigned;
a second touch sensor section provided on a second side surface different from the first side surface among the plurality of side surfaces, and to which a second function that is the same as or different from the first function is assigned ;
An electronic pen with a comprising a control unit that controls the functions of the first touch sensor unit and the second touch sensor unit,
In the control section,
The first function is executed when the first touch sensor section is operated, and the second function is different from the first function when the second touch sensor section is operated. execute,
The electronic pen according to claim 1. One touch sensor is provided across the first side surface and the second side surface,
The first touch sensor section and the second touch sensor section are composed of the one touch sensor,
The electronic pen according to claim 2. The one touch sensor has a plurality of input areas, and the input area arranged on the first side and the input area arranged on the second side have different functions,
The electronic pen according to claim 3. The first function includes a function of outputting user operation information on the first touch sensor unit.
The electronic pen according to claim 2. The second function includes a function of enabling the first touch sensor section,
The electronic pen according to claim 5. a notification unit that notifies a user whether or not the first touch sensor unit is valid;
The electronic pen according to claim 6, further comprising: The notification unit is a light emitting element, and notifies the user by emitting light.
The electronic pen according to claim 7. The control unit disables the first touch sensor unit if no operation is performed on the first touch sensor unit for a predetermined period of time after the first touch sensor unit is enabled. ,
The electronic pen according to claim 6 or 7. The control unit outputs operation information of the slide operation when a slide operation is performed on the first touch sensor unit,
The first touch sensor section is longer than the second touch sensor section in the axial direction of the electronic pen.
The electronic pen according to claim 6 or 7. A third touch sensor section provided on a third side surface different from the first side surface and the second side surface among the plurality of side surfaces, and to which a third function different from the second function is assigned;
The electronic pen according to claim 6 or 7, further comprising: When the first touch sensor section and the third touch sensor section are operated at the same time while the first touch sensor section and the third touch sensor section are in a valid state, the control section controls the first touch sensor section and the third touch sensor section. disabling the touch sensor section and the third touch sensor section;
The electronic pen according to claim 11.

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