JP6008588B2 - Playback device - Google Patents

Description

  The present invention relates to an optical disc reproducing apparatus including an operation disk unit that stores audio data read from an optical disc in a storage unit and instructs a reading speed and a reading order of the audio data stored in the storage unit.

  A disc jockey (Disc Jockey) is rubbed during playback of audio data recorded on an optical disc such as an analog record or compact disc (CD) in a dance club. There is a case where special reproduction called scratch reproduction for generating sound effects such as sound is performed. When a DJ performs scratch playback using an analog record player, the DJ is forced to manually rotate the analog record being played in the clockwise direction, which is the normal rotation direction, or counterclockwise, which is the opposite direction. Generates a rubbing sound. Also, there is a DJ playback device capable of performing scratch playback similar to scratch playback by this analog record player (see, for example, Patent Document 1).

  This DJ playback apparatus includes an operation disk unit and a storage unit (memory), stores audio data reproduced from a CD in a memory, detects that a finger has been touched on the operation disk unit, and has an operation disk unit. By rotating clockwise or counterclockwise, the audio data reading speed and reading order stored in the memory are controlled, and a sound effect equivalent to a rubbing sound by an analog record is generated. As described above, when the audio data recorded on the CD is reproduced by the DJ reproducing apparatus, the DJ touches the operation disk portion with a finger and rotates it in the same manner as the analog record. Similar scratch reproduction can be performed.

  This DJ playback device plays back audio data recorded on a CD at a standard speed (hereinafter referred to as normal playback) when a finger is not touched on the operation disk. When a finger is touched on the operation disk part and rotated, the CD player detects the rotation speed and rotation direction of the operation disk part, and reproduces it from the CD and stores it in the memory according to the detected rotation speed and rotation direction. Scratch playback is performed to change the reading speed and reading order of audio data.

Japanese Patent Laid-Open No. 2008-135147

  The reproduction apparatus disclosed in Patent Document 1 includes a substrate having a sensor pattern separated from the operation disk portion by a certain distance at a position below the operation disk portion, and the operation disk portion bends when touched by a finger. Thus, it is detected whether or not the finger touches the operation disk part by detecting the value of the change in capacitance due to the sensor pattern.

  In order for the sensor pattern separated from the operation disk part as disclosed in Patent Document 1 by a certain distance to detect the capacitance, the sensor pattern is prevented from erroneously detecting the capacitance. In order to achieve this, it is necessary to always keep the distance between the operation disk portion and the sensor pattern constant. For this reason, for example, if the operation disk part is deteriorated and deformed over time, or if the operation disk part is plastically deformed by being pressed and bent over a long period of time, the distance between the operation disk part and the sensor pattern is reduced. Since it cannot be kept constant, it becomes impossible to accurately detect whether or not a finger is touched on the operation disk.

  In addition, in order for the sensor pattern that is spaced apart from the operation disk part by a certain distance as disclosed in Patent Document 1 to detect capacitance, it is necessary to detect whether or not a finger touches the operation disk part. Since it is necessary to provide the substrate having the above-described sensor pattern separately from the operation disk portion, the cost of the reproducing apparatus increases.

  As a means for preventing a substrate having a sensor pattern from being provided separately from the operation disk portion, for example, a rotating operation disk portion is provided with the sensor pattern as described above, and the finger touched the operation disk portion by this sensor pattern. It is conceivable to detect whether or not. However, for example, when the sensor pattern disclosed in Patent Document 1 is provided in the operation disk unit, the capacitance detected by the sensor pattern is output to the detection unit or control unit provided in the housing of the playback device. Requires at least two signal lines. For this reason, in order to output the capacitance detected by the sensor pattern provided in the rotating operation disk unit to the detection unit and the control unit inside the housing with two or more signal lines, the rotating operation disk unit and the rotation A new configuration is required to connect the housing not to be connected with two or more signal lines, and the substrate having the above-described sensor pattern for detecting whether or not the finger touches the operation disk portion is provided. Similar to the configuration provided separately from the operation disk portion, the cost of the playback device increases.

  The present invention can accurately detect whether or not a finger is touched on the operation disk part in a playback device capable of performing special reproduction by touching and rotating the finger on the operation disk part, An object of the present invention is to provide a playback device that can reduce the cost of the playback device.

  In order to solve the above problems, the invention according to claim 1 of the present application includes a reading unit that reads audio data recorded on an optical disc, a storage unit that stores audio data read by the reading unit, and the storage unit. And a rotating operation unit for instructing the reading speed and reading order of the audio data stored in the operation disk unit including an electrode sheet unit that is rotatably supported and detects a capacitance; A rotating shaft fixed to a disk portion and electrically connected to the electrode sheet, a bearing portion that supports the rotating shaft and is electrically connected to the rotating shaft, and the rotation shaft and the bearing portion through the bearing A touch discriminating unit that discriminates whether or not a finger is touched on the operation disc unit based on a change in capacitance value of the capacitance of the operation disc unit detected by the electrode sheet unit; Seat is characterized in that it comprises a plurality of circular electrodes each diameter was substantially around the center of the electrode sheet portion comprises a thin electrode pattern having conductivity on the lower surface to form different concentric.

  The invention according to claim 2 of the present application is the reproducing apparatus according to claim 1, wherein the plurality of circular electrodes of the electrode sheet portion are adjacent to each other as they become circular electrodes from the inside to the outside. The width to the electrode is formed so as to gradually decrease, and the thickness of each circular electrode is formed so as to gradually increase from the inner side to the outer circular electrode. To do.

  Invention of Claim 3 of this application is the reproducing | regenerating apparatus of Claim 1, As for the said electrode sheet | seat part, the thickness of these circular electrodes is respectively substantially the same, The said circular electrode is adjacent. The widths are substantially the same.

  According to a fourth aspect of the present invention, in the reproducing apparatus according to any one of the first to third aspects, the electrode sheet portion is formed as a thin disk having conductivity and is an abbreviation of the electrode sheet portion. A central electrode disposed in the center and electrically connected to the rotating shaft; and a plurality of circular electrodes and straight electrodes electrically connecting the central electrodes in a straight line, each formed of a thin electrode pattern having conductivity. It is characterized by that.

  The invention according to claim 5 of the present application is the playback device according to any one of claims 1 to 4, wherein the touch discriminating unit is configured such that the operation disc unit is touched by touching the operation disc unit. It is determined that the touch to the operation disk portion 5 is turned ON when the electrostatic capacity discharge count is equal to or less than a predetermined threshold A, and the electrostatic capacity discharge count of the operation disk portion is equal to or less than the threshold A. Even if not, it is determined that the touch to the operation disk portion has been turned ON when the electrostatic discharge count of the operation disk portion has decreased by a predetermined change value H2 or more within a predetermined time T2. Features.

  According to a sixth aspect of the present invention, in the reproducing apparatus according to the fifth aspect, the touch discriminating unit determines that the touch-on discrimination is performed immediately before the electrostatic discharge count of the electrostatic capacity of the operation disk unit is equal to or less than the threshold A. If it is determined that the touch on the operation disk portion is turned on, the operation disk portion is increased when the electrostatic capacity discharge count of the operation disk portion increases by the threshold A + the predetermined change value H1 or more. Even when it is determined that the touch on the operation disk is OFF and the electrostatic capacity discharge count of the operation disk portion does not exceed the threshold value A + the change value H1, the electrostatic capacity discharge count of the operation disk portion is determined in advance. When the change to the predetermined change value H3 or more increases within the time T3, it is determined that the touch on the operation disk portion is turned off.

The invention according to claim 7 of the present application is the playback apparatus according to claim 5, wherein the touch discriminating unit determines that the touch is turned on immediately before the discharge count of the electrostatic capacity of the operation disk unit is within the time T <b> 2. When it is determined that the touch to the operation disk portion is turned ON because the change value H2 is decreased by more than the change value H2, the operation disk is turned on when the electrostatic capacity discharge count of the operation disk portion exceeds the calculated threshold value B. Even when it is determined that the touch to the part is OFF and the electrostatic capacity discharge count of the operation disk part does not exceed the threshold value B, the electrostatic capacity discharge count of the operation disk part changes within the time T3. It is characterized in that it is determined that the touch to the operation disk portion is turned OFF when the value increases by a value H3 or more.

  According to the present invention, it is possible to accurately detect whether or not a finger has been touched on the operation disk part in a playback device capable of performing special playback by touching and rotating the operation disk part. At the same time, it is possible to provide a reproducing apparatus that can reduce the cost of the reproducing apparatus.

The block diagram which shows the structure of the reproducing | regenerating apparatus which is one Example of this invention. Sectional drawing which shows the rotation operation part 50 of the reproducing | regenerating apparatus 1 of a present Example. The bottom view which shows the electrode sheet | seat part 15 of the operation disk part 5 of a present Example. The figure which shows a process until the touch to the operation disc part 5 is turned ON after the touch to the operation disc part 5 of a present Example is OFF, and the touch to the operation disc part 5 is turned OFF again after that. The figure which shows a process until the touch to the operation disc part 5 is turned ON after the touch to the operation disc part 5 of a present Example is OFF, and the touch to the operation disc part 5 is turned OFF again after that. The figure which shows a process until the touch to the operation disc part 5 is turned ON after the touch to the operation disc part 5 of a present Example is OFF, and the touch to the operation disc part 5 is turned OFF again after that. The flowchart figure which shows the operation | movement which the touch discrimination | determination part 31 discriminate | determines whether the touch to the operation disk part 5 of a present Example was turned ON or OFF. The flowchart figure which shows the operation | movement which the touch discrimination | determination part 31 discriminate | determines whether the touch to the operation disk part 5 of a present Example was turned ON or OFF. The flowchart figure which shows the operation | movement which the touch discrimination | determination part 31 discriminate | determines whether the touch to the operation disk part 5 of a present Example was turned ON or OFF. The bottom view which showed the other example of the electrode part 150 of the electrode sheet part 15 shown in FIG. 3 in the electrode sheet part of a present Example.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing the configuration of a playback apparatus according to an embodiment of the present invention.

  The reproduction apparatus 1 includes a reproduction unit 20, a signal processing unit 21, a memory control unit 22, a RAM (Random Access Memory) 23, a DAC (Digital to Analog Converter) 24, an output terminal 25, a control unit 26, a storage unit 27, and an operation unit. 30 and a display unit 40.

  The control unit 26 comprehensively controls the operation of the playback device 1 described below. The playback unit 20 plays back compressed and / or uncompressed digital audio data recorded on a portable or external recording medium. Examples of the recording medium include CD (Compact Disc), DVD (Digital Versatile Disc), externally connectable external memory, and the like. The playback unit 20 plays back the compressed digital audio data recorded on the recording medium in units of tracks, converts the data into a predetermined format, and outputs it.

  The digital audio data reproduced by the reproduction unit 20 is input to the signal processing unit 21. The signal processing unit 21 performs processing such as demodulation of digital audio data and extraction of a synchronization signal, and outputs the digital audio data to the memory control unit 22.

  The memory control unit 22 controls the input digital audio data to be written in the RAM 23. The RAM 23 stores the input digital audio data. The memory control unit 22 controls the digital audio data stored in the RAM 23 to be read from the RAM 23.

  Data read from the RAM 23 is output to the DAC 24. The DAC 24 converts digital audio data into an analog audio signal. The analog audio signal converted by the DAC 24 is output from the output terminal 25. When outputting to a device capable of digital input, the DAC 24 may not be provided and output may be performed in a predetermined digital format.

  The display unit 40 is composed of a liquid crystal display device or the like, and displays the playback time, track number, etc. of the currently playing track.

  The operation unit 30 includes a touch determination unit 31, a rotation operation unit 50, a reproduction start button (not shown), a reproduction stop button, an eject button, and the like. The playback start button and the playback stop button receive instructions regarding playback control when pressed. The rotation operation unit 50 receives an instruction for scratch reproduction or the like from an operation disk unit described later. The touch determination unit 31 determines whether or not a finger is touched on the operation disk unit 5 based on the capacitance of the operation disk unit 5 detected by the electrode sheet unit 15 described later.

FIG. 2 is a cross-sectional view showing the rotation operation unit 50 of the reproducing apparatus 1 of the present embodiment.
The rotation operation unit 50 includes a housing 2, a rotation shaft 3, a bearing unit 4, an operation disk unit 5, a scale unit 6, and an optical sensor unit 7.

The housing 2 includes a hole 201 penetrating vertically, and the rotation shaft 3 is inserted into the hole 201. The rotating shaft 3 is formed from a conductive member such as a steel member. The bearing portion 4 is fixed to the housing 2 and supports the lower portion of the rotating shaft 3. The bearing portion 4 is formed of a conductive member such as a steel member, and inputs the electrostatic capacity of the operation disk portion 5 detected by the electrode sheet portion 15 described later via the bearing portion 4, The capacitance signal is output to the touch determination unit 31 shown in FIG. The rotating shaft 3 is prevented from falling downward because the bearing portion 4 supports the lower portion.

The operation disk portion 5 forms a thin disk shape, has a recess 502 on the upper surface, and a hole 501 in the center. The operation disk portion 5 is made of an acrylic member, a volica member or the like having a high relative dielectric constant, and includes an electrode sheet portion 15 that forms a thin disk shape. The electrode sheet portion 15 has a diameter slightly smaller than the inner diameter of the recess 502 and is placed on the bottom surface of the recess 502. The operation disk portion 5 is fixed to the rotation shaft 3 in a state where the rotation shaft 3 is inserted into the hole 501. The rotary shaft 3 is disposed at a position where the upper tip portion projects slightly upward from the bottom surface of the recess 502.

The scale unit 6 forms a disk shape and includes a hole 601 at the center. The scale unit 6 is disposed below the operation disk unit 5, and is fixed to the rotation shaft 3 with the rotation shaft 3 being inserted into the hole 601 .

The operation disk portion 5 freely rotates about the rotation shaft 3 pivotally supported by the bearing portion 4 as a central axis. Since the scale portion 6 has the hole 601 inserted and fixed to the rotary shaft 3 in the same manner as the operation disk portion 5, when the operation disk portion 5 is rotated, the scale portion 6 also rotates in the same manner as the operation disk portion 5. Rotates at the same speed and direction of rotation.

  The scale portion 6 is provided with a slit portion 602 on the outer peripheral portion. The slit part 602 is formed, for example, by printing with a rectangular paint or a printing paint containing carbon.

  The optical sensor unit 7 includes two optical sensors (not shown) in order to detect the rotation speed and direction of the scale unit 6 that rotates together with the operation disk unit 5, and is disposed at a position where the slit unit 602 can be detected. In this state, it is fixed to the housing 2. When the optical sensor unit 7 detects the slit unit 602, the optical sensor unit 7 generates a pulse signal a and a pulse signal b having different phases (for example, a phase difference of 90 °) from the two optical sensors, and outputs them to the control unit 26.

  The control unit 26 determines the rotation direction of the operation disk unit 5 based on the phase difference between the input pulse signal a and pulse signal b. For example, when the phase difference between the pulse signal a and the pulse signal b is 90 °, the pulse signal a is at a position of + 90 ° with respect to the pulse signal b when the operation disk portion 5 is rotated in the clockwise direction. It becomes a phase difference. Further, when the operation disk portion 5 is rotated in the counterclockwise direction, the pulse signal a has a phase difference of −90 ° with respect to the pulse signal b. In addition, the control unit 26 determines the rotational speed of the operation disk unit 5 from the number of pulses of either the pulse signal a or the pulse signal b input at a certain time.

FIG. 3 is a bottom view showing the electrode sheet portion 15 of the operation disk portion 5 of the present embodiment.
As shown in FIG. 3, the electrode sheet portion 15 includes an electrode portion 150 made of a conductive member on the lower surface portion.

  The electrode unit 150 includes a first circular electrode 1501, a second circular electrode 1502, a third circular electrode 1503, a fourth circular electrode 1504, a fifth circular electrode 1505, and a sixth circular electrode. An electrode 1506, a center electrode 1507, and a straight electrode 1508 are provided.

  The first circular electrode 1501 to the sixth circular electrode 1506 are formed of a thin electrode pattern having conductivity, and form concentric circles having different diameters with the center of the electrode sheet portion 15 as the center. The center electrode 1507 forms a thin disk shape having conductivity, and is disposed at the approximate center of the electrode sheet portion 15. The straight electrode 1508 is formed of a thin electrode pattern having conductivity, and electrically connects the first circular electrode 1501 to the sixth circular electrode 1506 and the center electrode 1507 in a straight line.

  As shown in FIG. 3, the first circular electrode 1501 to the sixth circular electrode 1506 are gradually reduced in width from the inner side to the outer side circular electrode as they become the outer circular electrodes. In addition, the thickness of each circular electrode is formed so as to gradually increase from the inner side to the outer circular electrode.

  In the present embodiment, the diameter A of the sixth circular electrode 1506 that forms the circle with the largest outer shape among the first circular electrode 1501 to the sixth circular electrode 1506 is about 150 mm, The width B from the second circular electrode 1501 to the second circular electrode 1502 and the width C from the second circular electrode 1502 to the third circular electrode 1503 are about 8.2 mm, respectively. The width D from the electrode 1503 to the fourth circular electrode 1504 is about 6.8 mm, the width E from the fourth circular electrode 1504 to the fifth circular electrode 1505 is about 5.4 mm, and the fifth A width F from the circular electrode 1505 to the sixth circular electrode 1506 is set to about 4.0 mm.

  In this embodiment, the thickness of the first circular electrode 1501 is about 0.8 mm, the thickness of the second circular electrode 1502 is about 0.9 mm, and the third circular electrode 1503 has a thickness of about 0.9 mm. The thickness is about 1.0 mm, the thickness of the fourth circular electrode 1504 is about 1.1 mm, the thickness of the fifth circular electrode 1505 is about 1.2 mm, and the sixth circular electrode 1506 is Is about 1.3 mm thick.

  When the electrode sheet 15 is placed in the recess 502 of the operation disk portion 5, the center electrode 1507 is disposed at a position where the tip portion above the rotating shaft 3 slightly protrudes from the bottom surface of the recess 502. By being in contact with the rotary shaft 3, this is electrically connected to the rotary shaft 3.

  Further, since the bearing portion 4 is formed of a conductive member as described above, it is electrically connected to the rotating shaft 3 that is pivotally supported.

As shown in FIG. 3, when the electrode sheet portion 15 is placed in the recess 502, the capacitance of the electrode sheet portion 15 is detected by the first circular electrode 1501 to the sixth circular electrode 1506. Is done. The straight electrode 1508 outputs the capacitance detected by the first circular electrode 1501 to the sixth circular electrode 1506 to the central electrode 1507. The center electrode 1507 outputs the electrostatic capacity of the operation disk portion 5 detected by the first circular electrode 1501 to the sixth circular electrode 1506 via the straight electrode 1508 to the bearing portion 4 via the rotary shaft 3. . The bearing unit 4 outputs the input capacitance to the touch determination unit 31 shown in FIG.

  The touch determination unit 31 includes a capacitance type touch sensor IC, and based on the change in the capacitance value of the capacitance of the operation disk unit 5 input from the bearing unit 4, whether the finger is touched on the operation disk unit 5. Determine whether or not.

  When the control unit 26 determines that the finger is not touched on the operation disk unit 5 and the touch determination unit 31 determines that the operation disk unit 5 is not rotated by the pulse signal from the optical sensor unit 7, When the reproduction start button of the operation unit 30 is pressed and a reproduction start instruction is received from the operation unit 30, the memory control unit 22 is controlled to read digital audio data from the RAM 23 at a normal reproduction speed.

  When the touch discriminating unit 31 discriminates that the finger is touched to the operation disc unit 5 and the pulse signal a or the pulse signal b is input from the optical sensor unit 7, the control unit 26 determines the rotation speed of the operation disc unit 5. In addition, the memory control unit 22 is controlled so as to read the digital audio data from the RAM 23 at the reading speed and reading order corresponding to the rotation direction. The memory control unit 22 controls the reading speed and reading order of the digital audio data stored in the RAM 23 (reading audio data in ascending order or reading out in descending order). For example, when the finger is touched on the operation disk unit 5 and the operation disk unit 5 is rotated in the clockwise direction, the control unit 26 reads the digital audio data stored in the RAM 23 at a reading speed corresponding to the rotation speed. The memory control unit 22 is controlled so as to read data in ascending order. Further, when the finger is touched to the operation disk unit 5 and the operation disk unit 5 is rotated counterclockwise, the control unit 26 digital audio data stored in the RAM 23 at a reading speed corresponding to the rotation speed. The memory control unit 22 is controlled so as to read out the addresses in descending order (scratch function).

  Next, a configuration in which the touch determination unit 31 in the playback apparatus 1 according to the present embodiment determines whether or not a finger is touched on the operation disk unit 5 will be described.

In FIGS. 4 to 6, the touch on the operation disk unit 5 is turned on from the state where the touch to the operation disk unit 5 of the present embodiment is OFF, and then the pressure on the operation disk unit 5 is turned off again. It is a figure which shows a process.
4 to 6, when touching the operation disk part 5 with a finger, touching the operation disk part 5 with different means, such as touching only with the tip of the finger or touching with the palm of the finger. Shows the state.

  FIG. 7 to FIG. 9 are flowcharts showing an operation in which the touch discriminating unit 31 discriminates whether the touch on the operation disk unit 5 of this embodiment is turned on or off.

  First, an operation in which the touch determination unit 31 determines that the touch on the operation disk unit 5 is turned on will be described with reference to a flowchart shown in FIG.

  The touch discriminating unit 31 discharges the capacitance of the operation disc unit 5 in order to discriminate whether or not the finger is touched on the operation disc unit 5 based on the change in the capacitance value of the capacitance of the operation disc unit 5. Detect the count. The electrostatic capacity discharge count means that the electrostatic capacity of the operation disk unit 5 is repeated when the electrostatic capacity of the operation disk unit 5 is repeatedly charged and discharged by turning the touch of the finger on the operation disk unit 5 ON or OFF. The discharge value in the discharge state is detected as a predetermined count.

  The touch determination unit 31 includes a memory (not shown), and a predetermined capacitance discharge count threshold A, predetermined times T2 and T3, and a predetermined capacitance discharge count change value H1, H2, H3 and H4 are stored. In addition, the touch determination unit 31 stores a peak value in a state where the electrostatic discharge count of the operation disk unit 5 is the highest in the memory.

As shown in FIG. 7 , the touch determination unit 31 detects the discharge count of the electrostatic capacity of the operation disk unit 5 detected by the first circular electrode 1501 to the sixth circular electrode 1506 of the electrode sheet unit 15. (Step S1). The touch discriminating unit 31 discriminates whether or not the detected electrostatic capacity discharge count of the operation disc unit 5 is equal to or less than the threshold value A stored in the memory (step S2). In step S2, when the detected discharge count of the electrostatic capacity of the operation disk part 5 is equal to or less than the threshold value A as shown at position A in FIG. 4A, the touch determination part 31 moves to the operation disk part 5. It is determined that the touch of is turned on (step S3).

  In step S2, if the detected electrostatic discharge count of the operation disk unit 5 is not equal to or less than the threshold A, the detected electrostatic discharge count of the operation disk unit 5 is stored in the memory within the time T2 stored in the memory. It is determined whether or not the change value H2 has been decreased by more than (step S4). In step S4, when the detected electrostatic discharge count of the operation disk portion 5 does not decrease by the change value H2 or more stored in the memory within the time T2 stored in the memory, the process returns to step S1. In step S4, when the detected discharge count of the electrostatic capacity of the operation disk portion 5 decreases by the change value H2 or more stored in the memory within the time T2 stored in the memory, as in the position C shown in FIG. The touch determination unit 31 determines that the touch on the operation disk unit 5 has been turned ON (step S5).

  In step S5, when the touch determination unit 31 determines that the touch to the operation disk unit 5 is turned ON, the touch determination unit 31 detects the operation disk unit detected when the touch to the operation disk unit 5 is determined to be ON. The discharge count of the electrostatic capacity of 5 is stored in the memory (step S6).

  As described above, in the present embodiment, when the touch determination unit 31 determines that the touch to the operation disk unit 5 is turned on, the touch determination unit 31 determines that the discharge count of the electrostatic capacity of the operation disk unit 5 is in advance. When the touch to the operation disk unit 5 is turned ON when the threshold value A is less than or equal to the predetermined threshold A, on the other hand, even when the discharge count of the electrostatic capacity of the operation disk unit 5 does not become the predetermined threshold value A or less, When the electrostatic capacity discharge count of the operation disk unit 5 is decreased by the change value H2 or more within the time T2, it is determined that the touch to the operation disk unit 5 is turned on.

  As a result, when the operation disk portion 5 is touched, the electrostatic capacity discharge count of the operation disk portion 5 decreases, and the electrostatic capacity discharge count of the operation disk portion 5 becomes equal to or less than a predetermined threshold A. Sometimes, it can be determined that the touch on the operation disk unit 5 is turned ON. On the other hand, for example, when the operation disk unit 5 is touched by the tip of a finger, the electrostatic capacity of the operation disk unit 5 is discharged. Even if the count is decreased, even if the electrostatic discharge count of the operation disk unit 5 does not become the predetermined threshold A or less, the operation disk unit 5 is quickly touched and the electrostatic capacity discharge count of the operation disk unit 5 is increased. It can be determined that the touch on the operation disk unit 5 is turned ON when the change value H2 or more decreases within the time T2.

  Next, the operation in which the touch discriminating unit 31 discriminates that the touch on the operation disc unit 5 is turned off from the state in which the touch on the operation disc unit 5 is ON will be described with reference to the flowcharts shown in FIGS. To do.

  As shown in the position A of FIG. 4A and step S3 of FIG. 7, the touch on the operation disk unit 5 is turned ON when the detected electrostatic discharge count of the operation disk unit 5 is equal to or less than the threshold value A. If the touch determination unit 31 determines that the result is reached, the process proceeds to step A shown in FIG. Further, as shown in the position C of FIG. 5A and step S5 of FIG. 7, the operation disc portion is caused by the decrease of the detected electrostatic discharge count of the operation disc portion 5 by the change value H2 or more within the time T2. When the touch determination unit 31 determines that the touch to 5 is turned on, the process proceeds to step B shown in FIG.

  As shown in step A of FIG. 8, the detected discharge count of the electrostatic capacity of the operation disk unit 5 becomes equal to or less than the threshold value A as shown in the position A shown in FIG. After the touch determination unit 31 determines that the touch is turned on, the touch determination unit 31 detects the operation disk unit 5 detected by the first circular electrode 1501 to the sixth circular electrode 1506 of the electrode sheet unit 15. A discharge count of the capacitance is detected (step S7). The touch determination unit 31 determines whether or not the detected electrostatic discharge count of the operation disk unit 5 is equal to or greater than the threshold value A + change value H1 stored in the memory (step S8). In step S8, when the detected electrostatic discharge count of the operation disk unit 5 is equal to or greater than the threshold value A + H1, as in the position B shown in FIG. 4B, the touch determination unit 31 moves to the operation disk unit 5. It is determined that the touch of is turned off (step S9).

  In step S8, when the detected electrostatic discharge count of the operation disk unit 5 does not exceed the threshold A + change value H1, the detected electrostatic discharge count of the operation disk unit 5 falls within the time T3 stored in the memory. It is determined whether or not the change value H3 stored in the memory is increased (step S10). In step S10, when the detected discharge count of the electrostatic capacity of the operation disk unit 5 does not increase by the change value H3 or more stored in the memory within the time T3 stored in the memory, the process returns to step S7. In step S10, when the detected discharge count of the electrostatic capacity of the operation disk portion 5 increases by the change value H3 or more stored in the memory within the time T3 stored in the memory, as in the position D shown in FIG. 5B. The touch determination unit 31 determines that the touch on the operation disk unit 5 has been turned off (step S9).

  As shown in Step B of FIG. 9, the operation disk is caused by the fact that the detected discharge count of the electrostatic capacity of the operation disk portion 5 has decreased by the change value H2 or more within the time T2 as in the position C shown in FIG. After the touch determination unit 31 determines that the touch to the unit 5 has been turned ON, the touch determination unit 31 determines that the touch to the operation disk unit 5 stored in the memory is ON in step S6 of FIG. Based on the detected electrostatic discharge count of the operation disk unit 5 (discharge count at the time of touch-on determination) and the peak value (peak value) of the electrostatic discharge count of the operation disk unit 5 stored in the memory, Threshold value B = (discharge count at touch ON determination) + {(peak value) − (discharge count at touch ON determination) × 0.3} is calculated (step S11).

Next, the touch determination unit 31 detects the discharge count of the electrostatic capacitance of the operation disk unit 5 detected by the first circular electrode 1501 to the sixth circular electrode 1506 of the electrode sheet unit 15 (step S12). ). The touch determination unit 31 determines whether or not the detected electrostatic capacity discharge count of the operation disk unit 5 is equal to or greater than the calculated threshold value B (step S13). In step S13, when the detected discharge count of the electrostatic capacity of the operation disk unit 5 is equal to or greater than the threshold value B as in the position E shown in FIG. 6, the touch determination unit 31 performs the touch on the operation disk unit 5. It is determined that it is turned off (step S14).

  In step S13, if the detected electrostatic discharge count of the operation disk unit 5 does not exceed the threshold B, the detected electrostatic discharge count of the operation disk unit 5 is stored in the memory within the time T3 stored in the memory. It is determined whether or not the change value H3 has been increased by more than the specified change value (step S15). In step S15, when the detected electrostatic discharge count of the operation disk unit 5 does not increase by the change value H3 or more stored in the memory within the time T3 stored in the memory, the process returns to step S12. In Step S15, when the detected discharge count of the electrostatic capacity of the operation disk portion 5 increases by the change value H3 or more stored in the memory within the time T3 stored in the memory, as in the position D shown in FIG. 5B. The touch determination unit 31 determines that the touch on the operation disk unit 5 has been turned off (step S14).

  As described above, in this embodiment, the touch determination unit 31 determines that the touch on the operation disk unit 5 is turned ON because the detected electrostatic discharge count of the operation disk unit 5 is equal to or less than the threshold value A. When the touch discriminating unit 31 discriminates that the touch on the operation disc unit 5 is turned off, the electrostatic capacity discharge count of the operation disc unit 5 is set to a predetermined threshold A as shown in FIG. It is determined that the touch on the operation disk portion 5 is turned OFF when the change value H1 or more becomes greater than or equal to H1, while the electrostatic capacity discharge count of the operation disk portion 5 does not exceed the predetermined threshold A + change value H1 or more. Even in this case, it is determined that the touch on the operation disk unit 5 is turned OFF when the electrostatic capacity discharge count of the operation disk unit 5 increases by the change value H3 or more within the time T3.

  In this embodiment, when the touch on the operation disk unit 5 is turned ON because the detected electrostatic discharge count of the operation disk unit 5 has decreased by the change value H2 or more within the time T2, the touch determination unit 31 turns on. When the touch discriminating unit 31 discriminates that the touch on the operation disc unit 5 is turned off after the discrimination, as shown in FIG. 9, the threshold value B calculated by the discharge count of the electrostatic capacity of the operation disc unit 5 is calculated. When it is above, it is determined that the touch to the operation disk unit 5 is turned OFF. On the other hand, even when the electrostatic capacity discharge count of the operation disk unit 5 does not exceed the calculated threshold value B, When the discharge count of the capacitance increases within the time T3 by the change value H3 or more, it is determined that the touch on the operation disk portion 5 is turned off.

  Thus, after the touch discriminating unit 31 determines that the touch to the operation disc unit 5 is turned ON because the detected electrostatic discharge count of the operation disc unit 5 is equal to or less than the threshold value A, the operation disc unit When the touch discriminating unit 31 discriminates that the touch to 5 is turned off, the touch of the operation disc unit 5 is released, so that the electrostatic discharge count of the operation disc unit 5 increases, and the operation disc unit It is possible to determine that the touch on the operation disk unit 5 has been turned off when the discharge count of the electrostatic capacity of 5 has increased by a predetermined threshold A + change value H1 or more, while the touch on the operation disk unit 5 is released. As a result, even if the electrostatic capacity discharge count of the operation disk portion 5 increases, the operation disk portion 5 does not exceed the predetermined threshold value A + change value H1 even if the electrostatic capacity discharge count of the operation disk portion 5 does not exceed the predetermined threshold A + change value H1. Touch of Early release has been touched to the operation disk unit 5 when the discharge count of the capacitance of the operating disc portion 5 is increased change value H3 or within the time T3 can be judged to have become turned OFF. Further, after the touch discriminating unit 31 determines that the touch to the operation disc unit 5 is turned ON because the detected electrostatic discharge count of the operation disc unit 5 has decreased by the change value H2 or more within the time T2, the operation discriminating unit 31 determines When the touch discriminating unit 31 discriminates that the touch on the disc unit 5 has been turned off, when the electrostatic capacity discharge count of the operation disc unit 5 is equal to or greater than the calculated threshold value B, On the other hand, it is determined that the touch is turned OFF, and on the other hand, even if the electrostatic capacity discharge count of the operation disk portion 5 does not exceed the calculated threshold value B, the electrostatic capacity discharge count of the operation disk portion 5 changes within the time T3. It can be determined that the touch on the operation disk unit 5 is turned OFF when the value increases by the value H3 or more.

  As described above, the reproducing apparatus 1 according to the present embodiment detects the discharge count of the electrostatic capacity of the operation disk unit 5 by the first circular electrode 1501 to the sixth circular electrode 1506 provided in the electrode sheet unit 15. Then, based on the detected change in the discharge count of the capacitance, the touch determination unit 31 can determine whether or not the finger has touched the operation disk unit 5.

  The reproducing apparatus 1 of the present embodiment detects the electrostatic capacity of the operation disk part 5 by the first circular electrode 1501 to the sixth circular electrode 1506 provided in the electrode sheet part 15, and the detected electrostatic capacity. Can be input to the touch discriminating unit 31 via the rotary shaft 3 and the bearing unit 4, so that the substrate having the sensor pattern is the operation disc unit as in the conventional configuration for discriminating the touch of the finger. Since it is not necessary to prepare separately, the manufacturing cost of the reproducing | regenerating apparatus 1 can be reduced.

  When determining whether or not a finger has been touched by a capacitive touch sensor, conventionally, a thin plate-like conductive pattern is provided over the entire area of the touch surface, and the finger is touched from above. The conductive pattern detects a change in capacitance of the touch surface, and determines whether or not the touch sensor IC is touched based on the change in capacitance detected by the conductive pattern. When the presence / absence of a touch is determined by such a conventional configuration, the change in capacitance detected by the conductive pattern increases as the touch surface becomes larger, and therefore can be determined by a relatively inexpensive touch sensor IC. Since the allowable range of capacitance is limited, it is difficult to increase the area of the touch surface.

  On the other hand, the reproducing apparatus 1 of this embodiment is not provided with a thin plate-like conductive pattern over the entire area of the touch surface, but includes a thin electrode pattern having conductivity as shown in FIG. The first circular electrode 1501 to the sixth circular electrode 1506 having concentric circles with different diameters centered on the approximate center of the portion 15 are configured to detect a change in the capacitance of the operation disk portion 5. For this reason, even if the touch surface is enlarged, the change in capacitance can be suppressed lower than in the case where a thin plate-like conductive pattern is provided over the entire area of the conventional touch surface. For this reason, the playback apparatus 1 of the present embodiment operates over a wide area, like a DJ playback apparatus that performs special playback such as scratch playback by touching the operation disk part with a finger and rotating the operation disk part. Even when a disk part is required, it is possible to determine whether or not a finger has been touched on the operation disk part by using a relatively inexpensive touch sensor IC, so that the manufacturing cost of the reproducing apparatus 1 can be reduced.

When a DJ performs a special reproduction such as scratch reproduction by touching the operation disk part and rotating the operation disk part, many DJs align two fingertips and contact the upper surface of the operation disk part. Rotate the operation disk. For this reason, the area of the two finger palms on which the DJ touches the operation disk is approximately 8 mm in length in the vertical direction of each of the two fingers, and the total width of the two fingers is 12 mm. As a result, 8 mm × 12 mm = about 100 mm ² . Further, when the DJ is placed in front of the operation disk part and touches with a finger, the position from the DJ position to the outer peripheral part of the operation disk part 5 is closer than the position to the inner peripheral part of the operation disk part 5. Therefore, when the DJ touches the outer peripheral part of the operation disk part 5, it is often touched with the tip of the finger, and when the DJ touches the inner peripheral part of the operation disk part 5, it touches with the palm of the finger. To do more.

The electrode sheet portion 15 of this example has a DJ finger palm area of about 100 mm ² ,
When the DJ touches the outer peripheral part of the operation disc part 5, the outer peripheral part of the operation disc part 5 is touched by the tip of the finger, and the inner part of the operation disc part 5 is touched by the palm of the finger. As shown in FIG. 3, the first circular electrode 1501 to the sixth circular electrode 1506 are changed from the inside to the outside as shown in FIG. The width to the adjacent electrode is formed so as to be gradually reduced, and the thickness of each electrode is also formed to be gradually increased from the inner side to the outer side electrode. Among the sixth circular electrodes 1506, the diameter of the sixth circular electrode 1506 forming a circle having the largest outer shape, and the first circular electrode 1501 to the sixth circular electrode 1506 adjacent to each other. Width to the first electrode and the first circular electrode 1501 That the thickness of 6 each electrode of the circular electrode 1506 can be an optimal touch determination by the value described above have been found by a number of verification and experiments. For this reason, the reproducing apparatus 1 according to the present embodiment can accurately determine whether or not the DJ has touched the operation disk portion with a finger in order to perform special reproduction such as scratch reproduction.

  When the DJ touches the operation disk part 5, various touches such as touching the operation disk part 5 with only the tip of a finger, touching the operation disk part 5 with the entire palm, touching with the right hand and the left hand at the same time, etc. Means are envisioned. As described above, when the operation disk unit 5 is touched by various means, the electrostatic capacity discharge count of the operation disk unit 5 changes variously. For example, the electrostatic capacity discharge count when the operation disk part 5 is touched only with the tip of the finger is larger than the electrostatic capacity discharge count when the operation disk part 5 is touched with the entire palm. Further, the electrostatic capacity discharge count when the operation disk portion 5 is touched simultaneously with the right hand and the left hand is smaller than the electrostatic capacity discharge count when the operation disk portion 5 is touched with only one hand.

  When the touch determination unit 31 determines that the touch to the operation disk unit 5 is turned on, the reproduction apparatus 1 of the present embodiment is configured so that the capacitance of the operation disk unit 5 is increased by touching the operation disk unit 5. When the discharge count decreases and the electrostatic capacity discharge count of the operation disk unit 5 falls below a predetermined threshold A, it is determined that the touch to the operation disk unit 5 is ON, while the operation disk unit 5 Even if the electrostatic capacity discharge count of the operation disk part 5 decreases by touching the operation disk part 5, even if the electrostatic capacity discharge count of the operation disk part 5 does not fall below the predetermined threshold A, the operation disk part 5 For a DJ, it is determined that the touch to the operation disk part 5 is turned on when the electrostatic touch count of the operation disk part 5 is decreased by the change value H2 or more within the time T2 by being touched quickly. Ideal for most playback devices To be able to touch ON determination of work disc portion 5 has been found by a number of verification and experiments.

  In addition, when the touch determination unit 31 determines that the touch on the operation disk unit 5 is turned off, the reproduction apparatus 1 of the present embodiment detects the electrostatic capacity of the operation disk unit 5 detected by the determination that the touch is turned on immediately before. When it is determined that the touch on the operation disk unit 5 is turned ON because the discharge count of the operation disk is less than or equal to the threshold value A, the touch of the operation disk unit 5 is released and the capacitance of the operation disk unit 5 is reduced. When the discharge count increases and the discharge count of the electrostatic capacity of the operation disk unit 5 increases by a predetermined threshold A + change value H1 or more, it is determined that the touch to the operation disk unit 5 is turned OFF. When the electrostatic capacity discharge count of the operation disk part 5 increases by releasing the touch of the part 5, the electrostatic capacity discharge count of the operation disk part 5 does not exceed the predetermined threshold A + change value H1 However, the operation disk part 5 When the switch is quickly released and the discharge count of the electrostatic capacity of the operation disk unit 5 is increased by the change value H3 or more within the time T3, it is determined that the touch to the operation disk unit 5 is turned off. It has been known from many verifications and experiments that an optimum touch-off discrimination of the operation disk unit 5 can be performed in a DJ reproducing apparatus.

    In addition, when the touch determination unit 31 determines that the touch on the operation disk unit 5 is turned off, the reproduction apparatus 1 of the present embodiment detects the electrostatic capacity of the operation disk unit 5 detected by the determination that the touch is turned on immediately before. If it is determined that the touch on the operation disk unit 5 is turned ON because the discharge count of the operation disk has decreased by the change value H2 or more within the time T2, the discharge count of the electrostatic capacity of the operation disk unit 5 is equal to or greater than the calculated threshold value B. It is determined that the touch on the operation disk unit 5 has been turned OFF when the value of the operation disk unit 5 is reached. On the other hand, even when the electrostatic capacity discharge count of the operation disk unit 5 does not exceed the calculated threshold value B, By adopting a configuration in which it is determined that the touch to the operation disk unit 5 is turned off when the discharge count of the capacitance increases within the time T3 by the change value H3 or more, the optimum operation disk unit 5 in the DJ reproducing apparatus is determined. Touch OFF discrimination of Many verifications and experiments have shown that this can be done.

  Thereby, the reproducing apparatus 1 of the present embodiment can more accurately determine whether or not the DJ has touched the operation disk with a finger in order to perform special reproduction such as scratch reproduction.

  Although the reproducing apparatus 1 of the present embodiment is configured to include six circular electrodes of the first circular electrode 1501 to the sixth circular electrode 1506 in the electrode sheet portion 15, five or less circular electrodes are provided. It is good also as a structure provided, and it is good also as a structure provided with seven or more circular electrodes.

  As shown in FIG. 3, the reproducing apparatus 1 of the present embodiment has a diameter of the sixth circular electrode 1506 that forms the largest circle among the first circular electrode 1501 to the sixth circular electrode 1506. A is about 150 mm, and as the first circular electrode 1501 to the sixth circular electrode 1506 are changed from the inner to the outer circular electrodes, the width to the adjacent circular electrode gradually decreases. In addition, the first circular electrode 1501 to the sixth circular electrode 1506 are formed so that the thickness of each circular electrode gradually increases from the inner side to the outer circular electrode. The diameter of the sixth circular electrode 1506 forming a circle with the largest outer shape of the first circular electrode 1501 to the adjacent circular electrode of each of the first circular electrode 1501 to the sixth circular electrode 1506 Of the first circular electrode 1501 to the sixth circular electrode 1506 Although the thickness of each circular electrode is set to the above-described value, the thickness of the circular electrode is basically a configuration having a plurality of circular electrodes having concentric circles and different diameters. The diameter of the circular electrode and the value of the width to the adjacent circular electrode may be changed according to the application to be used.

  FIG. 10 is a bottom view showing another example of the electrode portion 150 of the electrode sheet portion 15 shown in FIG. 3 in the electrode sheet portion of the present embodiment.

  As shown in FIG. 10, the electrode sheet portion 16 includes an electrode portion 160 made of a conductive member on the lower surface portion, like the electrode sheet portion 15 shown in FIG. 3, and the electrode portion 160 is a first circular electrode 1601. , A second circular electrode 1602, a third circular electrode 1603, a fourth circular electrode 1604, a fifth circular electrode 1605, a sixth circular electrode 1606, a central electrode 1607, and a straight electrode 1608. .

  The first circular electrode 1601 to the sixth circular electrode 1606 are composed of thin electrode patterns having conductivity in the same manner as the first circular electrode 1501 to the sixth circular electrode 1506 shown in FIG. Concentric circles having different diameters are formed with the center of the electrode sheet portion 16 being substantially the center. The central electrode 1607 forms a thin disk shape having conductivity similarly to the central electrode 1507 shown in FIG. 3, and is disposed substantially at the center of the electrode sheet portion 16. The straight electrode 1608 is formed of a thin electrode pattern having conductivity similarly to the straight electrode 1508 shown in FIG. 3, and the first circular electrode 1601 to the sixth circular electrode 1606 and the central electrode 1607 are linearly electrically connected. Connect to.

  As shown in FIG. 10, the diameter L of the sixth circular electrode 1606 that forms the circle with the largest outer shape among the first circular electrode 1601 to the sixth circular electrode 1606 is about 150 mm, and The thickness M of the first circular electrode 1601 to the sixth circular electrode 1606 is approximately 1.1 mm, which is substantially the same thickness. In addition, the width from the first circular electrode 1501 to the sixth circular electrode 1506 to the adjacent circular electrode is substantially the same width, and each width N is approximately 6 mm.

  As described above, the configuration of the electrode sheet portion 15 shown in FIG. 3 is substantially the same as the thickness of the first circular electrode 1601 to the sixth circular electrode 1606 as in the electrode sheet portion 16 shown in FIG. The cost of the electrode sheet portion is reduced by setting the width to M and the widths of the first circular electrode 1601 to the sixth circular electrode 1606 to the adjacent electrodes being substantially the same width N. Can do.

  As shown in the process diagrams of FIGS. 4 to 6 and the flowcharts of FIGS. 7 to 9, the reproducing apparatus 1 of the present embodiment has a predetermined discharge count threshold value A, times T2 and T3 in the memory. In addition, it is configured to perform touch ON discrimination and OFF discrimination of the operation disk unit 5 based on the change values H1, H2, H3, and H4 of the electrostatic capacity discharge count, but whether or not the DJ touches the operation disk unit with a finger. If it is the structure which can discriminate | determine correctly, for example, touch ON discrimination | determination of the operation disc part 5 and touch OFF discrimination | determination only according to whether it is more than the threshold value A of the discharge count of the electrostatic capacitance previously determined in memory It is good also as a structure which performs the touch ON discrimination | determination of the operation disk part 5 and touch OFF by another structure.

  INDUSTRIAL APPLICABILITY The present invention can be usefully used in an optical disk reproducing apparatus that includes an operation disk unit that stores audio data read from an optical disk in a storage unit and instructs the reading speed and reading order of the audio data stored in the storage unit.

1 playback device, 2 housing, 201 holes,
3 rotating shaft, 4 bearing part, 5 operation disk part, 501 hole, 502 recessed part,
6 Scale part, 601 hole, 602 slit part,
7 Optical sensor part,
15 electrode sheet part, 150 electrode part,
1501 1st circular electrode, 1502 2nd circular electrode, 1503 3rd circular electrode,
1504 4th circular electrode, 1505 5th circular electrode, 1506 6th circular electrode,
1507 center electrode, 1508 linear electrode,
16 electrode sheet part, 160 electrode part,
1601 1st circular electrode, 1602 2nd circular electrode, 1603 3rd circular electrode,
1604 fourth circular electrode, 1605 fifth circular electrode, 1606 sixth circular electrode,
1607 center electrode, 1608 linear electrode,
20 playback unit, 21 signal processing unit, 22 memory control unit, 23 RAM, 24 DAC,
25 output terminals, 26 control units, 27 storage units,
30 operation unit, 31 touch discrimination unit, 40 display unit,
50 Rotation operation part

Claims (7)

A reading unit that reads audio data recorded on the optical disc, a storage unit that stores the audio data read by the reading unit, and a rotation operation unit that instructs the reading speed and reading order of the audio data stored in the storage unit; In a playback device comprising:
An operation disk portion provided with an electrode sheet portion that is rotatably supported and detects capacitance,
A rotating shaft fixed to the operation disk portion and electrically connected to the electrode sheet;
A bearing that pivotally supports the rotating shaft and is electrically connected to the rotating shaft;
A touch discriminating unit that discriminates whether or not a finger is touched on the operation disk part based on a change in electrostatic discharge count of the operation disk part detected by the electrode sheet part via the rotating shaft and the bearing part. And
The electrode sheet portion includes a plurality of circular electrodes that are formed of a thin electrode pattern having conductivity on a lower surface and form concentric circles each having a different diameter with the center at the center of the electrode sheet portion. apparatus. The playback device according to claim 1,
The plurality of circular electrodes of the electrode sheet portion are formed such that the width from the inner side to the outer circular electrode gradually decreases as the circular electrode is changed from the inner side to the outer side, and each circular electrode is formed. The reproducing apparatus is characterized in that it is formed so as to gradually increase in thickness as it becomes a circular electrode from the inside to the outside. The playback device according to claim 1,
In the electrode sheet portion, the thickness of the plurality of circular electrodes is substantially the same, and the width to the adjacent circular electrode is substantially the same. The playback apparatus according to any one of claims 1 to 3,
The electrode sheet portion is formed in a thin disk shape having conductivity and is disposed at a substantially center of the electrode sheet portion and is electrically connected to the rotating shaft;
A reproducing apparatus comprising a thin electrode pattern having conductivity, and a straight electrode electrically connecting the plurality of circular electrodes and the central electrode in a straight line. In the reproducing | regenerating apparatus of any one of Claim 1 thru | or 4,
The touch discriminating unit turns ON the touch on the operation disc unit 5 when the operation disc unit is touched and the electrostatic capacity discharge count of the operation disc unit becomes equal to or less than a predetermined threshold A. Even if the electrostatic capacity discharge count of the operation disk portion is not equal to or less than the threshold value A, the electrostatic discharge count of the electrostatic capacity of the operation disk portion is a predetermined change value H2 within a predetermined time T2. A reproduction apparatus characterized by determining that the touch to the operation disk portion is turned on when the number is decreased as described above. The playback apparatus according to claim 5, wherein
If the touch discriminating unit discriminates that the touch on the operation disc portion has been turned on because the discharge count of the electrostatic capacitance of the operation disc portion has become equal to or less than the threshold value A when the touch discriminating portion has just been touched ON. When the discharge count of the electrostatic capacity of the operation disk part increases by the threshold value A + the predetermined change value H1 or more, it is determined that the touch to the operation disk part is turned OFF, and the electrostatic capacity of the operation disk part Even when the discharge count of the operation disc does not become the threshold value A + the change value H1 or more, the operation disc when the discharge count of the electrostatic capacity of the operation disc portion increases by a predetermined change value H3 or more within a predetermined time T3. A playback device characterized by determining that the touch to the part has been turned off. The playback apparatus according to claim 5, wherein
The touch discriminating unit turns on the touch on the operation disc portion when the touch-on discriminating immediately before the discharge count of the electrostatic capacity of the operation disc portion has decreased by the change value H2 or more within the time T2. If it is determined that the touch on the operation disk portion is OFF when the electrostatic capacity discharge count of the operation disk portion is equal to or greater than the calculated threshold value B, the electrostatic capacity of the operation disk portion is determined. Even when the discharge count of the capacity does not exceed the threshold value B, when the discharge count of the electrostatic capacity of the operation disk portion increases more than the change value H3 within the time T3 , the touch to the operation disk portion is turned off. A playback device characterized by determining.

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