JP3905260B2 - Electronics - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a flap control mechanism for an electronic device that controls an opening / closing operation of a flap provided in an electronic device main body for recording / reproducing or storing a recording medium such as a CD or a DVD.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, some electronic devices that reproduce or record information recording media such as CDs (compact discs), DVDs, and cassette tapes are provided with a flap on the front surface of the device body. An example is shown in FIGS.
[0003]
FIG. 18 is an external view of a main part of a CD player P0 as an electronic device used in a conventional vehicle. FIG. 18 (a) shows the CD player P0 with the flap 102 in a closed state, and FIG. ) Shows the CD player P0 in which the flap 102 is in the open state, and FIG. 18C shows the CD player P0 in the case where the flap 102 is in the open state and the CD is in the ejection position.
[0004]
The CD player P0 is a so-called slot-in type player, and as shown in the figure, an insertion port 101 for inserting a CD is provided on the front side of the apparatus main body. A flap 102 is provided so that the CD insertion slot 101 can be opened and closed. When the flap 102 is in the open state, the opening of the insertion slot 101 is exposed to the outside of the player, and when the flap 102 is in the closed state, the opening of the insertion slot 101 is blocked from the outside of the player. The flap 102 is provided with an operation button 103 for performing various operations of the CD player P0 and a display unit 104 including a liquid crystal panel for displaying the operation state of the CD player P0, and constitutes an operation panel of the electronic device. is doing. Further, the flap 102 is appropriately opened and closed with respect to the apparatus main body based on the opening command and the closing command from the operation button 103.
[0005]
FIG. 19 is a diagram showing the internal configuration of the CD player P0 from the upper surface side of the CD player P0. FIG. 19A shows the case where the CD is placed at the playback position, and FIG. The case where the CD is placed at the ejection position is shown.
[0006]
Inside the CD player P0, a reproducing mechanism including a loading mechanism 105, optical sensors 106 and 107 for detecting the presence or absence of a CD, a turntable, a clamper, and a pickup (not shown) are provided.
[0007]
The loading mechanism 105 is composed of two rotating rollers 105 a and 105 b formed in a pair of left and right in the vicinity of the insertion port 101. The optical sensors 106 and 107 are provided with the optical sensor 106 on the insertion port 101 side with respect to the rotating rollers 105a and 105b, and the optical sensor 107 on the opposite side of the insertion port 101, and according to the detection result of each optical sensor. Drive control of the rotating roller is performed.
[0008]
Next, an operation for the user to insert and eject a CD will be described.
As shown in FIG. 18A, in the CD player P0, in the initial state, the flap 102 is closed, and the insertion slot 101 is closed by the flap 102. In this state, when the user issues a command to open the flap 102 by pressing the operation button 103, the flap 102 moves so as to slide on the insertion slot 101 along the direction of the arrow shown in FIG. The opening operation is performed, and the open state shown in FIG. Thereby, the insertion slot 101 is exposed to the outside of the player. In this state, the user inserts the CD from the insertion slot 101, and a loading mechanism 105 (see FIG. 19) provided in the main body of the CD player P0 is automatically loaded to control the CD as the storage position. It carries in to a reproduction | regeneration position (state of Fig.19 (a)).
[0009]
That is, when a CD is inserted from the insertion slot 101, first, the optical sensor 106 detects the insertion of the CD, and the loading mechanism 105 starts to drive accordingly. The CD is inserted into the apparatus main body while being sandwiched between a pair of rotating rollers 105a and 105b and a guide arm (not shown) fixedly disposed above the apparatus main body. As a result, the CD is carried to the reproduction position shown in FIG. Thereafter, the loading mechanism 105 can release the holding of the CD by the rotating rollers 105a and 105b, and can rotate the CD by engaging the center hole of the CD at the reproduction position with a turntable (TT) and a clamper (not shown). To hold. As described above, the CD is conveyed to the reproduction position.
[0010]
Next, when the user takes out the CD in the CD player P0, first, by pressing the operation button 103, the flap 102 is instructed to be opened to open the flap 102. By pressing the operation button 103, a CD ejection command (discharge command) is issued. When the eject command is issued, the loading mechanism 105 carries out the CD at the reproduction position to the discharge position shown in FIG.
[0011]
That is, when an eject command is issued, the turntable (TT) and the clamper that are engaged and held in the center hole of the CD are both separated from the CD, and the rotating rollers 105a and 105b are raised to a position where they contact the CD. .
[0012]
Thereafter, the CD is discharged by the rotating rollers 105a and 105b. Here, the optical sensor 107 always detects the CD until the CD reaches the ejection position, and is fixedly arranged at a position where the CD is not detected when the CD reaches the ejection position. The optical sensor 107 detects the CD. At the point in time when the rotation is stopped, the rotational driving of the rotating rollers 105a and 105b is stopped.
[0013]
As a result, as shown in FIG. 18C, the CD at the ejection position is held stationary by the loading mechanism 105 in a state where a part of the CD protrudes from the insertion port 101 to the outside. Therefore, the user can take out the CD by pulling it out by hand.
[0014]
Next, the closing operation of the flap 102 will be described.
When the flap 102 is in the open state as shown in FIGS. 18B and 18C or FIGS. 19A and 19B, the user presses the operation button 103, whereby the flap 102 When the close command is issued, the CD player P0 first detects the detection state of the optical sensor 106.
[0015]
The CD player P0 starts the closing operation of the flap 102 when the optical sensor 106 does not detect the CD. On the other hand, when the optical sensor 106 detects a CD, this flap command is ignored and the flap 102 is kept open, or the detected CD is carried into the apparatus main body, and then the flap 102 Initiate closing. That is, the CD player P0 opens and closes the flap 102 in accordance with the detection result of the optical sensor 106. This prevents the CD inserted into the insertion slot 101 from inadvertently colliding with the flap 102 due to the flap 102 closing command.
[0016]
[Problems to be solved by the invention]
As described above, in the conventional CD player P0, in order to prevent the CD inserted into the insertion slot 101 from inadvertently colliding with the flap 102 due to the flap 102 closing command, It is necessary to provide an optical sensor 106 for detecting the presence or absence,
It was a factor of product cost increase.
[0017]
The present invention has been made in view of the above-described problems, and has a simple structure, and a recording medium inserted into the recording medium insertion slot may inadvertently collide with the flap due to a flap closing command. It is an object of the present invention to provide a flap control mechanism of an electronic device that can be controlled so as not to cause any trouble.
[0018]
[Means for Solving the Problems]
  According to a first aspect of the present invention, there is provided an electronic device having an openable / closable flap, which is provided in a main body of the electronic device, wherein a recording medium can be inserted and ejected when the flap is in an open state, and the flap When the recording medium is in a closed state, a recording medium insertion port provided at a position where the recording medium cannot be inserted and ejected, and a recording medium inserted from the recording medium insertion port is carried into the electronic device main body, And a part of the recording medium in the electronic device main body is discharged to a discharge position where the part protrudes from the electronic device main body.With rollerA loading means; a control means for controlling the operation of the loading means and the opening / closing operation of the flap; and a detection means provided in the vicinity of the discharge position for detecting the presence or absence of the recording medium. The recording medium is provided at a position outside the detection area when the recording medium is positioned at the discharge position, and the control means causes the flap to be closed.A direction in which the recording medium is inserted into the electronic device main body for a time required for the movement of the recording medium when the recording medium is carried from the discharge position into the detection area of the detection unit according to a command. After the roller is rotated, the detection result of the detection means is detected, and when the recording medium is detected by the detection means, the flap closing operation is not started, and the recording medium is detected by the detection means. If no detection is made, the flap closing operation is started.It is characterized by that.
[0019]
The invention described in claim 2An electronic device provided with an openable / closable flap, which is provided in an electronic device main body, wherein the recording medium can be inserted and ejected when the flap is in an open state, and when the flap is in a closed state, A recording medium insertion slot provided at a position where insertion and ejection are impossible, and a recording medium inserted from the recording medium insertion slot is carried into the electronic device main body and is recorded in the electronic device main body A loading means having a roller for discharging a medium to a discharge position where a part of the medium protrudes from the electronic device main body, a control means for controlling the operation of the loading means and the opening / closing operation of the flap, and provided in the vicinity of the discharge position Detecting means for detecting the presence or absence of the recording medium, wherein the detecting means is configured such that the recording medium is in the discharge position on a passage area of the recording medium. The control means causes the recording medium to be carried from the discharge position into the detection area of the detection means in response to a command for closing the flap. The detection means detects the detection result after rotating the roller in the direction of inserting the recording medium into the electronic device main body for the time required for the movement of the recording medium, and the detection means When the recording medium is detected, the loading means performs a loading operation of the recording medium and starts the flap closing operation after the recording medium reaches a position where the flap closing operation is not hindered. If the recording medium is not detected by, the flap closing operation is started.It is characterized by that.
[0020]
The invention according to claim 3An electronic device provided with an openable / closable flap, which is provided in an electronic device main body, wherein the recording medium can be inserted and ejected when the flap is in an open state, and when the flap is in a closed state, A recording medium insertion slot provided at a position where insertion and ejection are impossible, and a recording medium inserted from the recording medium insertion slot is carried into the electronic device main body and is recorded in the electronic device main body Loading means having a roller for discharging a medium to a discharge position where a part of the medium protrudes from the electronic device main body, control means for controlling the operation of the loading means and the opening / closing operation of the flap, and a passage area of the recording medium A pair of abutting portions that protrude into the recording medium and are in contact with the periphery of the recording medium are formed in the vicinity of the recording medium insertion opening with an interval therebetween, and the recording medium insertion operation and ejection movement A pair of centering means provided so as to be openable in a plane parallel to the recording surface of the recording medium, and the pair of abutting portions operated by contacting the inserted and ejected peripheral edge of the recording medium. And a pair of contact portions that are separated from the predetermined distance when the recording medium in the electronic device main body is discharged and positioned at the discharge position. And the control means carries the recording medium from the discharge position to a position where a predetermined distance from the pair of contact portions is detected in response to a command for closing the flap. And detecting the detection result of the detection mechanism after rotating the roller in the direction in which the recording medium is inserted into the main body of the electronic device for a time required for the movement of the recording medium. Without starting the closing operation of the flap when the detection of the recording medium is made mechanism to start the closing operation of the flap when the detection of the recording medium by the detection mechanism is not performedIt is characterized by that.
[0021]
The invention according to claim 4An electronic device provided with an openable / closable flap, which is provided in an electronic device main body, wherein the recording medium can be inserted and ejected when the flap is in an open state, and when the flap is in a closed state, A recording medium insertion slot provided at a position where insertion and ejection are impossible, and a recording medium inserted from the recording medium insertion slot is carried into the electronic device main body and is recorded in the electronic device main body Loading means having a roller for discharging a medium to a discharge position where a part of the medium protrudes from the electronic device main body, control means for controlling the operation of the loading means and the opening / closing operation of the flap, and a passage area of the recording medium A pair of abutting portions that protrude into the recording medium and are in contact with the periphery of the recording medium are formed in the vicinity of the recording medium insertion opening with an interval therebetween, and the recording medium insertion operation and ejection movement A pair of centering means provided so as to be openable in a plane parallel to the recording surface of the recording medium, and the pair of abutting portions operated by contacting the inserted and ejected peripheral edge of the recording medium. And a pair of contact portions that are separated from the predetermined distance when the recording medium in the electronic device main body is discharged and positioned at the discharge position. And the control means carries the recording medium from the discharge position to a position where a predetermined distance from the pair of contact portions is detected in response to a command for closing the flap. And detecting the detection result of the detection mechanism after rotating the roller in the direction in which the recording medium is inserted into the main body of the electronic device for a time required for the movement of the recording medium. When the recording medium is detected by the mechanism, the recording medium is carried in by the loading means, and the flap closing operation is started after the recording medium reaches a position that does not interfere with the flap closing operation. When the recording medium is not detected by the detection mechanism, the flap closing operation is started.
[0041]
[Action]
According to the present invention, when the closing command for the flap in the open state is issued, the control means causes the loading means to carry in, and then the detection means provided at a predetermined position in the electronic device main body performs the recording of the recording medium. Since the presence / absence is detected and it is determined whether or not to start the closing operation of the recording medium insertion slot according to the detection result, the control means, for example, when the recording medium is not detected by the detecting means Since it can be determined that the recording medium is not inserted into the recording medium insertion slot, it can be determined that the flap does not accidentally collide with the recording medium even when the flap closing operation is started. The control means can determine that the recording medium is at a position partially protruding from the recording medium insertion port, such as a discharge position, when the recording medium is detected by the detecting means. It can be determined that the closing operation should not be started immediately. As a result, the control means can determine in advance whether or not it collides with the recording medium when the flap is closed in response to the flap closing command in the open state.
[0042]
Further, the small diameter recording medium is provided on the passing area before reaching the discharge position, and the large diameter recording medium is provided at a position for detecting the presence or absence of the large diameter recording medium when the large diameter recording medium is positioned at the discharge position. By providing the first detection means, when a closing command for the flap in the open state is made, the control means detects the presence or absence of a large-diameter recording medium from the detection result of the first detection means, and the large diameter If the recording medium is not detected, the presence or absence of a small-diameter recording medium is detected based on the detection result of the first detection means after the loading means is carried in, and the flap is detected according to the detection result of the first detection means. In the case where the recording medium is detected by the first detection means, it is controlled to stop the flap closing operation or to drive the loading means in the loading direction. Control or control As a result, the control means can determine in advance whether or not it will collide with the recording medium if the flap is closed in response to the flap closing command in the open state. .
[0043]
In addition, by providing a detection mechanism for detecting a predetermined distance between the pair of abutting portions of the pair of centering means, when the closing command for the flap in the open state is issued, the control means controls the loading means. Whether or not the flap closing operation is started according to the detection result of the detection mechanism after the recording medium in the discharge position is moved to a position that can be detected by the detection mechanism by carrying in for a predetermined time. Therefore, the control means can determine in advance whether or not it will collide with the recording medium when the flap is closed in response to the flap closing command in the open state.
[0044]
By providing a first detection mechanism for detecting the separation of the first distance between the pair of contact portions as the detection mechanism for detecting the separation of the pair of contact portions included in the pair of centering means, the control means When the command means closes the flap in the open state, the first detection mechanism detects whether or not the large-diameter recording medium is positioned at the discharge position. If the first detection mechanism has not detected the separation of the first distance, after the loading means is carried in, the first detection mechanism detects the first distance by the first detection mechanism. By detecting whether or not the separation of the recording medium is detected, it is determined whether or not the small-diameter recording medium is currently inserted into the insertion slot. Immediate response to a closing command for a flap The flap can be determined whether impinging on the recording medium and the closing operation in advance Te.
[0045]
DETAILED DESCRIPTION OF THE INVENTION
Next, preferred embodiments of the present invention will be described below with reference to the drawings. In the configuration of each of the following embodiments, the same reference numerals are given to the same components as those of the conventional CD player P0 described above.
(First embodiment)
First, a first embodiment will be described below.
1 and 2 are diagrams showing a CD player P1 according to the first embodiment of the present invention.
FIG. 1 is an external view of the main part of the CD player P1, FIG. 1A shows the CD player P1 with the flap 102 closed, and FIG. 1B shows the CD when the flap 102 is open. A player P1 is shown, and FIG. 1C shows the CD player P1 when the CD (compact CD) is in the ejection position when the flap 102 is open.
[0046]
FIG. 2 is a diagram showing the internal configuration of the CD player P1 from the upper surface side of the CD player P1, and shows a case where the flap 102 is in an open state. 2A shows a case where the CD is placed in the reproduction position (storage position), FIG. 2B shows a case where the CD is placed in the ejection position, and FIG. Shows a case where the loading mechanism 105 carries in the loading operation for a predetermined time. In FIGS. 2A to 2C, CD indicates a case of a CD having a diameter of 12 cm (hereinafter referred to as 12 cm CD) by a solid line, and a case of a CD having a diameter of 8 cm (hereinafter referred to as 8 cm CD) by a dotted line. In the following description, when these CDs having different diameters are generically referred to, they are simply referred to as CDs.
The CD player P1 is a so-called CD slot-in type player, like the CD player P0.
[0047]
As shown in FIGS. 1 and 2, the CD player P1 includes an insertion slot 101 for inserting a CD as a recording medium, a flap 102 that can be opened and closed with respect to the apparatus body, a CD ejection command and a flap. An operation button 103 as a command means for performing various operations of the CD player P1 including an open command and a close command of 102, a control means (not shown) for controlling each part of the device, a loading mechanism 105 as a loading means, And an optical sensor 1 as detection means for detecting the presence or absence of a CD. In addition, the flap control mechanism of the electronic device in the present embodiment includes an insertion port 101 as a recording medium insertion port, an operation button 103, a control unit, a loading mechanism 105, and the optical sensor 1.
[0048]
The optical sensor 1 is provided at a predetermined position in the main body of the CD player P1 and detects the presence or absence of a CD. In the present embodiment, the optical sensor 1 is fixedly disposed at a position outside the detection area of the optical sensor 1 when the CD is positioned at the ejection position on the passing area through which the CD is conveyed. . Therefore, the optical sensor 1 does not detect the CD when the CD is at the ejection position.
[0049]
In the CD player P1, as with the conventional CD player P0 described above, the flap 102 is provided so as to be openable and closable with respect to the apparatus main body provided with the insertion port 101, and displays the operation state of the operation button 103 and the CD player P1. An operation panel provided with a display unit 104 made up of a liquid crystal panel or the like is configured. Further, the flap 102 controls the control means to appropriately perform the opening / closing operation with respect to the device main body based on the opening command and the closing command from the operation button 103.
The control means determines that the flap 102 is in an open state or a closed state based on the opening / closing position of the flap 102 with respect to the device main body. That is, the control means determines that the flap 102 is in a closed state when the flap 102 is in the position of FIG. 1A with respect to the apparatus main body, and the flap 102 is in the position of FIG. If it is, it is determined that the flap 102 is open.
[0050]
As shown in FIG. 1A, in the CD player P1, when the flap 102 is in the closed state, the insertion port 101 is blocked by the flap 102, and the CD cannot be inserted and ejected. Further, when the flap 102 is in the closed state, the user issues an opening command of the flap 102 with the operation button 103, so that the control means (not shown) causes the flap 102 to follow the direction of the arrow shown in FIG. The flap 102 is in an open state by sliding the insertion port 101 and exposing the insertion port 101 to the outside.
[0051]
When the flap 102 is open, the CD can be inserted and ejected. When the flap 102 is in the open state, the user inserts one CD (12 cm CD or 8 cm CD) from the insertion port 101, and the optical sensor 1 detects the CD. When the optical sensor 1 detects a CD, the control means drives the loading mechanism 105 and the CD is fixedly arranged above the inside of the apparatus main body by a pair of rotating rollers 105a and 105b arranged below the CD. After being held between the guide arms that are not pressed, the rotary rollers 105a and 105b are controlled to rotate in the direction in which the CD is inserted into the apparatus. Thereby, as shown in FIG. 2A, the CD is carried to the reproduction position where the center hole of the CD is arranged coaxially with the turntable (TT).
[0052]
Thereafter, the loading mechanism 105 releases the holding of the CD by the rotating rollers 105a and 105b, and engages the center hole of the CD at the reproduction position with a turntable (TT) provided in the loading mechanism 105 and a clamper (not shown). To hold the CD rotatably. As described above, the CD is held at the playback position and can be played back by the turntable (TT) and the clamper. When the CD is at the reproduction position (including during the reproduction of the CD), the flap 102 can be closed by issuing a closing command for the flap 102 with the operation button 103.
[0053]
When the CD is instructed to be ejected by the operation button 103 when the CD is in the reproduction position, the control means first controls the flap 102 to be opened by this instruction. That is, when the flap 102 is in the closed state, the flap 102 is opened to expose the insertion port 101 to the outside. If the flap 102 is already open, the control means drives the loading mechanism 105 while keeping the flap 102 open to hold the CD between the rotating rollers 105a and 105b and the guide arm. Then, both the turntable (TT) and the clamper that are engaged and held in the center hole of the CD are separated from the CD, and then the rotating rollers 105a and 105b are rotated in the direction in which the CD is discharged out of the apparatus.
[0054]
Here, the optical sensor 1 detects the CD when the CD is moving on the passing area from the reproduction position to immediately before the discharge position, and does not detect the CD when the CD reaches the discharge position. Therefore, when the optical sensor 1 detects the CD, the control means drives the loading mechanism 105 to convey the CD toward the discharge position, and then the CD by the optical sensor 107 is detected. By stopping the driving of the rotating rollers 105a and 105b when this detection is not performed, the CD can be transported to the discharge position shown in FIG. FIG. 2B shows a state in which 8 cm CD and 12 cm CD are placed at the respective discharge positions according to the detection result of the optical sensor 1.
[0055]
The CD transported to the ejection position is held stationary by a pair of rotating rollers 105a and 105b included in the loading mechanism 105 and the guide arm with a part of the CD projecting outside from the insertion port 101. As a result, the user can take out the CD at the ejection position by manually pulling out the CD.
[0056]
Next, the control operation performed by the control means of the CD player P1 when a command to close the flap 102 is given to the CD player P1 with the flap 102 opened by operating the operation button 103 will be described.
FIG. 3 is a flowchart showing a control operation performed by the control means when the flap player 102 is instructed to close the CD player P1 with the flap 102 open.
[0057]
When the flap 102 is instructed by the operation of the operation button 103, the control means starts (starts) the control operation in FIG. 3, and then proceeds to step S11 where the pair of rotating rollers 105a and 105b and the guide Regardless of whether the arm holds the CD or not, the rotation rollers 105a and 105b are rotated for a predetermined time in the direction in which the CD is inserted into the apparatus, and the process proceeds to step S12.
[0058]
That is, in step S11, the control means, when the closing command for the flap 102 is issued in a state where the CD is at the ejection position and each rotating roller and the guide arm hold the CD, each rotating roller Is controlled so that the CD is carried into the apparatus for the predetermined time. As a result, the CD is carried to the position shown in FIG.
[0059]
The position of the CD shown in FIG. 2 (c) is a position where the CD at the discharge position is carried into the apparatus for a predetermined time by the pair of rotating rollers 105a and 105b and the guide arm. ), The position when the CD is 8 cm CD and the position when the CD is 12 cm CD are displayed in an overlapping manner. As can be seen from FIG. 2C, the optical sensor 1 is a CD that has been loaded for a predetermined time by the pair of rotating rollers 105a and 105b and the guide arm of the loading mechanism 105, regardless of whether the CD is 8 cm CD or 12 cm CD. Therefore, the optical sensor 1 detects the CD immediately after the CD loading operation for the predetermined time.
[0060]
Of course, in step S11, when the flap 102 is instructed in a state where the rotating rollers 105a and 105b and the guide arm do not sandwich the CD, the optical sensor 1 The CD is not detected immediately after the rotating rollers 105a and 105b are rotated for the predetermined time.
[0061]
The control means proceeds to step S12 after the control operation in step S11 described above. In step S12, the control means detects the detection result of the optical sensor 1 by ON / OFF of the detection output of the optical sensor 1. If the optical sensor 1 does not detect the CD, the detection output of the optical sensor 1 is OFF. Therefore, this is detected, and the process proceeds to step S13 to stop the rotational driving of each of the rotating rollers 105a and 105b, and after controlling to close the flap 102, the control operation according to this flowchart is terminated. Thereby, the flap 102 is closed and the insertion port 101 is closed to the outside.
[0062]
In step S12, when the optical sensor 1 detects a CD, the control means detects that the detection output of the optical sensor 1 is ON, and moves to step S14 to further carry in the loading mechanism 105. Control to start the closing operation of the flap 102 after the CD has reached a position where there is no hindrance to the closing operation of the flap 102 and the flap 102 is closed. The control operation according to the flowchart ends. As a result, the flap 102 is closed without inadvertently colliding with the CD, and the insertion port 101 is closed against the outside.
[0063]
When the flap 102 is in the open state and the CD player P1 having the CD at the playback position is instructed to close the flap 102, the control means detects the CD in step S12. In this case, since the detection output of the optical sensor 1 is turned ON, this is detected, and the process proceeds to step S14. Since it can be known before, in step S14, the flap 102 can be controlled to be closed without driving the loading mechanism 105.
[0064]
As described above, in the CD player P1, when the flap 102 is instructed to be closed, the optical sensor 1 can detect the presence / absence of the CD and the detection of the CD ejection position.
As a result, in the CD player P1, when the flap 102 is instructed to close, the control means performs the control operation of FIG. 3 described above, so that the CD moves from the insertion port 101 of the CD player P1 to the playback position. Even in the case where the CD is located, the CD does not accidentally collide with the flap 102.
[0065]
In the first embodiment described above, the CD player P1 as an electronic apparatus according to the present invention is a CD slot-in type player that reproduces 12 cm CD and 8 cm CD, and the presence / absence of CD is detected by the optical sensor 1 as the detecting means. However, the present invention is not limited to this, and is provided with detection means for detecting the presence or absence of a CD in two different detection areas in the device. Detection of the presence or absence of each CD of 8 cm CD and detection of each discharge position may be performed. Such an embodiment will be described below with reference to a second embodiment.
[0066]
(Second Embodiment)
FIG. 4 is a view showing the inside of the CD player P2 in the second embodiment of the present invention from the upper surface side of the CD player P2. FIG. 4A shows the 12 cm CD and the 8 cm CD at the reproduction position (storage position). 4B shows a case where 12 cm CD and 8 cm CD are placed at the respective discharge positions, and FIG. 4C shows a case where 12 cm CD and 8 cm CD are loaded from the respective discharge positions by the loading mechanism 105. This shows the case where time loading operation is performed. In FIGS. 4A to 4C, 12 cmCD is indicated by a solid line and 8 cmCD is indicated by a dotted line as in the case of FIG.
[0067]
Similarly to the CD player P1, the CD player P2 is a so-called CD slot-in type player. Here, the CD player P2 is described as a CD player capable of reproducing a 12 cm CD as a large diameter recording medium and an 8 cm CD as a small diameter recording medium. To do.
[0068]
The CD player P2 includes an optical sensor 2 as a detection unit in addition to the components of the CD player P1 described above, and the control unit is configured to control each unit including the detection result of the optical sensor 2. Therefore, in this embodiment, the CD player P2 has two detection means, that is, the optical sensor 1 as the first detection means and the optical sensor 2 as the second detection means.
[0069]
The optical sensor 1 is fixedly disposed at a position outside the detection area of the optical sensor 1 when the 8 cm CD is positioned at the discharge position on the passing area through which the 8 cm CD is conveyed, and the 12 cm CD is positioned at the discharge position. Is provided at a position where the presence or absence of a 12 cm CD is detected, and the presence or absence of these CDs is detected within a narrow detection region.
[0070]
As can be seen from FIGS. 4A and 4B, the optical sensor 1 detects the 12 cm CD when the 12 cm CD is located at any position on the passing area from the reproduction position to the ejection position.
[0071]
The optical sensor 2 is provided on a passing area through which a 12 cm CD is transported, and detects the presence or absence of a CD in a narrow detection area. In the present embodiment, the optical sensor 2 is fixedly disposed at a position that deviates from the detection area when the 12 cm CD reaches the ejection position.
[0072]
The optical sensor 1 and the optical sensor 2 are arranged as described above, and when a closing command for the 1 flap 102 in the open state is issued, the control means first determines the 8 cmCD and 12 cmCD according to the detection result of the optical sensor 1. The detection of the presence or absence of the ink and the discharge position of 8 cm CD are performed, and the discharge position of 12 cm CD is detected by the optical sensor 2.
[0073]
Next, a control operation performed by the control means of the CD player P2 when a closing command for the flap 102 is issued by operating the operation button 103 to the CD player P2 in which the flap 102 is open will be described.
[0074]
FIG. 5 is a diagram showing a control operation flowchart performed by the control means when a command to close the flap 102 is issued to the CD player P2 in which the flap 102 is open.
When a command to close the flap 102 is issued by operating the operation button 103, the control means starts (starts) the control operation in FIG. 5, and then proceeds to step S21 where the detection result of the optical sensor 1 is displayed as the optical sensor. Detected by ON / OFF of 1 detection output. In step S21, when the control means detects the CD based on the detection result of the optical sensor 1 (sensor output ON) (for example, in the case of 12 cm CD in FIG. 4B), the control means then proceeds to step S25, The loading mechanism 105 is driven in the carrying-in direction to carry the detected CD (12 cm CD) to a position where there is no hindrance to the closing operation of the flap 102, and then control is performed to start the closing operation of the flap 102. When 102 is closed, the control operation according to this flowchart is terminated. Thereby, the flap 102 is closed without inadvertently colliding with the 12 cm CD, and the flap 102 is closed.
[0075]
In step S21, if the CD is not detected by the detection result of the optical sensor 1 (sensor output OFF), the control means can determine that the 12 cm CD is not currently mounted on the CD player P2. Therefore, in order to detect whether or not the 8 cm CD is mounted, the process proceeds to step S22.
[0076]
In step S <b> 22, the control unit detects the presence or absence of 8 cm CD by the optical sensor 1 after causing the loading mechanism 105 to carry in for a predetermined time.
Therefore, when the flap 102 is instructed in a state where the 8 cm CD is at the discharge position and the rotary rollers 105 a and 105 b and the guide arm hold the 8 cm CD, the control means sets the rotary rollers to the above-described positions. Control is performed so that 8 cm CD is carried into the apparatus for a predetermined time. As a result, 8 cmCD is arranged at the position shown in FIG. 4C, and 8 cmCD is detected by the optical sensor 1.
[0077]
Further, when the flap 102 is instructed to close while the rotary rollers do not hold the 8 cm CD, the control means controls the rotary rollers to rotate for the predetermined time in step S22. The absence of 8 cm CD is detected by the optical sensor 1.
[0078]
The control means proceeds to step S23 after the operation in step S22.
In step S23, the control means determines that there is 8 cmCD when the detection result of the optical sensor 1 is detected (sensor output ON), and then proceeds to step S25 to move the loading mechanism 105 in the loading direction. When the detected 8 cm CD is carried to a position where there is no hindrance to the closing operation of the flap 102 and then the closing operation of the flap 102 is started, and the flap 102 is closed. The control operation according to this flowchart is terminated. As a result, the flap 102 is closed without inadvertently colliding with the CD, and the flap 102 is closed.
[0079]
In step S23, the control means determines that 8 cmCD is not currently inserted into the insertion slot 101 when 8 cmCD is not detected based on the detection result of the optical sensor 1 (the sensor output is OFF). After shifting to S24 and performing control to close the flap 102, the control operation according to this flowchart is terminated. As a result, the flap 102 is closed without colliding with the CD, and the flap 102 is closed.
[0080]
As described above, in the CD player P2, when the flap 102 is instructed to close, the control means performs the control operation of FIG. 5 described above, so that the 12 cm CD or 8 cm CD can be moved from the reproduction position to the discharge position of the CD player P2. Even when the CDs are arranged at positions, any CD does not inadvertently collide with the flap 102.
[0081]
In the first embodiment and the second embodiment described above, the detection means for detecting the presence or absence of the recording medium by the optical sensor is used. However, the detection means in the present invention is not limited to these, and the peripheral edge of the recording medium. You may comprise by the detection mechanism detected by contact | abutting. Such an embodiment will be sequentially described below according to a third embodiment and a fourth embodiment.
[0082]
(Third embodiment)
The CD player P3 in the third embodiment is configured to include a switch 3 and a centering means 4 as a detection mechanism instead of the optical sensor 1 in each configuration of the CD player P1 described above.
[0083]
6 to 10 are views showing the inside of the CD player P3 according to the third embodiment of the present invention from the upper surface side of the CD player P3, and all show a case where the flap 102 is in an open state.
FIG. 6 is a diagram showing the structure of each part of the switch 3 and the centering means 4 provided in the main body of the CD player P3 from the upper surface side of the CD player P3.
FIG. 7 is a diagram sequentially showing how the 12 cm CD is carried into the CD player P3. FIG. 7A shows a state before the 12 cm CD is inserted into the CD player P3, and FIG. ) Shows a state in which a 12 cm CD is inserted from the insertion port 101 by the user and is brought into contact with the pair of centering pins 9 and 10 of the centering means 4 and pushed in the loading direction. FIG. A state in which the loading mechanism 105 is moving toward the reproduction position by the loading operation is shown.
[0084]
FIG. 8 is a diagram showing a state in which the CD player P3 is placed at each position after the 12 cm CD is loaded. FIG. 8A shows a case where the 12 cm CD is placed at the reproduction position (storage position). FIG. 8B shows the case where the 12 cm CD is placed at the discharge position, and FIG. 8C shows the case where the 12 cm CD is placed at the position where the loading mechanism 105 has carried the carry-in operation from the discharge position for a predetermined time. Is shown.
[0085]
FIG. 9 is a diagram sequentially illustrating how the 8 cm CD is carried into the CD player P3. FIG. 9A illustrates a state before the 8 cm CD is inserted into the CD player P3, and FIG. ) Shows a state in which an 8 cm CD is inserted from the insertion port 101 by the user and abuts against the pair of centering pins 9 and 10 of the centering means 4 and is pushed in the carrying-in direction. FIG. A state in which the loading mechanism 105 is moving toward the reproduction position by the loading operation is shown.
[0086]
FIG. 10 is a diagram showing a state in which the 8 cm CD is placed in each position in the CD player P3 after being loaded, and FIG. 10A shows that the 8 cm CD is placed in the reproduction position (storage position). FIG. 10B shows a case where 8 cm CD is placed at the discharge position, and FIG. 10C shows that the 8 cm CD is placed at a position where the loading mechanism 105 has carried the carry-in operation from the discharge position for a predetermined time. Shows the case.
Note that the CD player P3 is a so-called CD slot-in type player, as in the above-described embodiments.
[0087]
As shown in FIG. 6, the centering means 4 includes a pair of plate-like centering arms (L) 5 and centering arms (R) 6 that are perpendicular to the bottom of the fixed chassis provided in the main body of the CD player P3, for example. It is rotatably supported by shafts 7 and 8 standing in the direction. A centering pin (L) 9 and a centering pin (R) 10 as a pair of abutting portions are respectively inserted into the tip portions of the centering arm (L) 5 and the centering arm (R) 6 from the insertion slot 101. In this case, the CD is fixed in a direction perpendicular to the CD insertion direction in a plane parallel to the CD recording surface and protrudes into the CD passage area. The centering arm (L) 5 and the centering arm (R) 6 are connected to one end of each of the connecting arm (L) 11 and the connecting arm (R) 12 by connecting pins 13 and 14. The other ends of the connecting arm (L) 11 and the connecting arm (R) 12 are connected by a connecting pin 15.
[0088]
The connecting pin 15 penetrates a long hole 16 formed at the bottom of the main body of the CD player P3 so as to extend along the CD insertion direction. As shown in FIG. 6, locking portions 17 that lock the connecting pins 15 are formed on the left and right inner walls of the long hole 16. The locking portion 17 is formed by cutting away from the middle part of the left and right inner walls of the long hole 16 in the left-right direction (that is, the direction perpendicular to the CD insertion direction). When the long hole 16 slides along one side wall, it is formed so as to be engaged with a notch portion of the engaging portion 17 on the sliding side. Further, the connecting pin 15 penetrating the long hole 16 is always pulled by the tension spring 18 in the direction in which the CD is inserted.
[0089]
Accordingly, the pair of centering pins 9 and 10 formed on the centering arm (L) 5 and the centering arm (R) 6 respectively connected to the connecting arm (L) 11 and the connecting arm (R) 12 are connected to the tension spring 18. The restoring force is always biased in the direction in which the distance between the two is reduced. As can be seen from FIG. 6, the pair of centering pins 9, 10 are at the initial position where the distance between them is the smallest when the connecting pin 15 is locked to one end of the long hole 16 on the turntable (TT) side. As the connecting pin 15 reciprocates along the extending direction of the long hole 16, the centering arm (L) 5 and the centering arm (R) 6 are symmetrical with respect to the axes 7 and 8, respectively. Since it rotates in the direction, the interval widens from side to side with the connecting pin 15 as the center.
[0090]
When the pair of centering pins 9 and 10 are placed in the above-described initial position, they are arranged in the vicinity of the insertion port 101 at a distance slightly smaller than the outer diameter of 8 cm CD as a recording medium having a small diameter. Note that the centering means 4 and the insertion port 101 have a center position between a pair of centering pins 9 and 10 placed at an initial position and a center position of the opening width 101 of the insertion port 101. They are arranged so as to have a positional relationship on the center line in the insertion direction. The pair of centering pins 9 and 10 are arranged at positions where they do not come into contact with the CD (8 cm CD and 12 cm CD) when the CD is located at the reproduction position.
[0091]
The centering means 4 is configured as described above. When the CD is inserted from the insertion slot 101, the centering means 4 is pushed while abutting against the peripheral edge of the CD in which the pair of centering pins 9 and 10 are inserted. An opening operation can be performed in a direction substantially perpendicular to the CD insertion direction in a plane parallel to the recording surface.
[0092]
The switch 3 is a mechanical switch that is turned ON / OFF by the switching operation of the switch lever. In this embodiment, the centering arm (L) 5 is moved by pressing the pair of centering pins 9 and 10 against the periphery of the CD. It is configured to be turned on when it is rotated and the switch lever is pressed.
[0093]
As shown in FIG. 10B, the switch 3 is turned off when either 12 cm CD or 8 cm CD is located at the discharge position. At this time, the pair of centering pins 5 and 6 are in contact with the CD located at the discharge position, and are slightly opened from the initial position of the pair of centering pins 5 and 6.
[0094]
Further, as shown in FIGS. 7C and 8C, when the loading mechanism 105 is carried in for a predetermined time with respect to a CD (either 12 cm CD or 8 cm CD) located at the ejection position, the CD is centered. Since the pins 5 and 6 are spread out, the centering arm (L) 5 rotates. As a result, the pair of centering pins 5 and 6 that come into contact with the CD (either 12 cm CD or 8 cm CD) is separated by a predetermined distance.
[0095]
The switch 3 is provided at a position where the switch is pressed by the centering arm (L) 5 when the loading mechanism 105 is carried in for a predetermined time with respect to a CD (either 12 cm CD or 8 cm CD) located at the ejection position. ing.
As a result, when the loading mechanism 105 is carried in for a predetermined time with respect to a CD (either 12 cm CD or 8 cm CD) located at the ejection position, the switch 3 detects the switch ON, so that the pair of centering pins 5 and 6 are The separation of a predetermined distance is detected.
[0096]
In the present embodiment, the switch 3 is a CD (either 12 cm CD or 8 cm CD) depending on the switch ON state when a CD (either 12 cm CD or 8 cm CD) located at the ejection position is loaded by the loading mechanism 105 for a predetermined time. The separation of a predetermined distance between the pair of centering pins 5 and 6 that come into contact with each other is detected.
[0097]
In other words, at least the predetermined time during which the loading mechanism 105 moves the 12 cm CD and the 8 cm CD positioned at the discharge position by the loading operation, the switch 3 detects the separation of the predetermined distance between the pair of centering pins 5 and 6. Is set to a time when
[0098]
The CD player P3 is configured as described above. When the flap 102 in the open state is instructed, the control means causes the loading mechanism 105 to carry in for a predetermined time, and then the detection result of the switch 3 is displayed. Accordingly, control is performed to determine whether or not to start the closing operation of the flap 102.
[0099]
Next, operations for carrying in and ejecting a 12 cm CD from the CD player P3 will be described below with reference to FIGS.
In the initial state where the CD is not inserted in the CD player P3, the pair of centering pins 9 and 10 are placed at the above-described initial position (see FIG. 7A). Further, since the opening width of the insertion port 101 is slightly wider than the outer diameter of the 12 cm CD, when the user inserts the 12 cm CD into the insertion port 101, the center of the 12 cm CD is the center of the insertion port 101. There is no significant deviation from the center of the opening width.
[0100]
Therefore, after the periphery of the 12 cm CD abuts the pair of centering pins 9 and 10 almost simultaneously, the centering pins 9 and 10 are spread evenly. As a result, the centering pins 9 and 10 are opened equally in the opposite direction of 12 cm CD in the plane parallel to the recording surface of 12 cm CD, so that the centering arms 5 and 6 provided with the centering pins 9 and 10 respectively Accordingly, the connecting pin 15 and the connecting arm (L) 11 are connected to the centering arms 5 and 6 via the connecting pin 13 and the connecting arm (R) 12, respectively. It moves in the direction opposite to the insertion direction of 12 cm CD in the long hole 16 (see FIG. 7B).
[0101]
As described above, when the centering arm (L) 5 rotates as the 12 cm CD is inserted, the centering arm (L) 5 presses the switch lever of the switch 3 (see FIG. 7C). . As a result, the switch 3 as the detection mechanism is switched on, so that the control means of the CD player P3 detects this, starts driving the loading mechanism 105, and a pair of rotating rollers 105a disposed below the CD. , 105b, the CD is held by being pressed against a guide arm (not shown) fixedly disposed above the apparatus main body, and then the rotating rollers 105a, 105b are rotated in the direction in which the 12 cm CD is inserted into the apparatus. As a result, the 12 cm CD is carried to the reproduction position as shown in FIG.
[0102]
Thereafter, the loading mechanism 105 releases the holding of the 12 cm CD by the rotating rollers 105 a and 105 b and engages the center hole of the 12 cm CD in the reproduction position with a turntable (TT) provided in the loading mechanism 105 and a clamper (not shown). 12 cm CD is held rotatably. When the 12 cm CD is located at the reproduction position, the connecting pin 15 is returned to one end on the turntable (TT) side of the long hole 16 by the restoring force of the tension spring 18, and accordingly, the pair of centering pins 9, 10 becomes 12 cm CD. It is spaced apart from the peripheral edge and is returned to the initial position. As described above, the 12 cm CD is held at the reproduction position by the turntable (TT) and the clamper (see FIG. 8A).
[0103]
In addition, when the CD ejection command is issued by the operation button 103 when the 12 cm CD is located at the reproduction position, the loading mechanism 105 holds the 12 cm CD between the rotating rollers 105a and 105b and engages with the center hole of the 12 cm CD. Both the turntable (TT) and the clamper that were held together are separated from the 12 cm CD, and then the rotating rollers 105a and 105b are rotated for a predetermined time in the direction in which the 12 cm CD is ejected to move the 12 cm CD to the ejection position. To do.
[0104]
In this case, the centering means 4 performs the same operation as the operation in the 12 cm CD insertion direction described above as the 12 cm CD described above is ejected, so that the centering arm (L) 5 rotates while the centering arm (L) 5 is rotating. By engaging with the switch lever and pressing the switch lever (see FIG. 7 (c)), the switch 3 as the detection mechanism is switched on. However, after the rotation rollers 105a and 105b have rotated for the predetermined time, 12 cm CD Is positioned at the discharge position, the centering arm (L) 5 is separated from the switch lever of the switch 3, so that the switch 3 is switched off (see FIG. 8B).
[0105]
Next, operations for carrying in and ejecting an 8 cm CD from the CD player P3 will be described below with reference to FIGS.
As described above, the insertion opening 101 of the CD player P3 is formed with a width that is slightly wider than the outer diameter of 12 cm CD, so that the opening width is wider than the outer diameter of 8 cm CD. Therefore, when the user inserts 8 cm CD into the insertion slot 101, the opening width has a considerable margin, so the center of the 8 cm CD is not necessarily inserted in alignment with the center position of the opening width of the insertion slot 101. Absent.
[0106]
That is, for example, when the user inserts an 8 cm CD from a position considerably shifted to the left from the center line of the long hole 16 (see FIG. 9A), the peripheral edge of the 8 cm CD is a pair of centering pins 9 and 10. First, after contacting the centering pin 9, the centering pin 9 is pressed. As a result, the centering arm (L) 5 is rotated, and the connection pin 15 connected to the centering arm (L) 5 via the connection pin 13 and the connection arm (L) 11 is accordingly moved to the right side of the long hole 16. Slide along the CD ejection direction. As a result, the connecting pin 15 is locked to a notch portion of the locking portion 17 formed on the right side wall side of the long hole 16. When the connecting pin 15 is locked, the centering arm (L) 5 is locked and stopped. As a result, the centering pin 9 is locked and stopped.
[0107]
As a result, when the 8 cm CD in contact with the centering pin 9 is further pushed in the insertion direction by the user, the 8 cm CD moves in the direction of the centering pin 10 around the peripheral portion in contact with the centering pin 9 (FIG. 9). (See (b)). As a result, the 8 cm CD presses the centering pin 10 after contacting the centering pin 10 while the peripheral edge is in contact with the centering pin 9. When the centering pin 10 is pressed, the centering arm (R) 6 rotates, and accordingly, the connecting arm (R) 12 connected to the centering arm (R) 6 is pressed by the connecting pin 14.
[0108]
As a result, the connecting pin 15 connected to the connecting arm (R) 12 is pushed and moved from the notched portion of the locking portion 17 being locked into the elongated hole 16, so that the centering pin 9 is unlocked. In addition, with the 8 cm CD in contact with the pair of centering pins 9 and 10, the center hole of the 8 cm CD is positioned on the center line of the long hole 16 in the CD insertion direction. As a result, 8 cm CD is centered with respect to the inlet 101 (see FIG. 9C).
[0109]
In the case of the 8 cm CD, when the centering arm (L) 5 rotates as the user continues the insertion operation after the above-described centering, the centering arm (L) 5 engages with the switch lever of the switch 3. Then press the switch lever (see FIG. 9C). As a result, the switch 3 as the detection mechanism is switched on, so that the control means of the CD player P3 detects this, starts driving the loading mechanism 105, and a pair of rotating rollers 105a disposed below the 8 cm CD. , 105b, the 8 cm CD is pressed and held by a guide arm (not shown) fixedly arranged above the inside of the apparatus body, and then the rotating rollers 105a and 105b are rotated in the direction in which the 8 cm CD is inserted into the apparatus.
[0110]
As a result, the 8 cm CD is carried to the reproduction position as shown in FIG. Thereafter, the loading mechanism 105 releases the holding of the 8 cm CD by the rotating rollers 105 a and 105 b and engages the center hole of the 8 cm CD at the reproduction position with a turntable (TT) provided in the loading mechanism 105 and a clamper (not shown). 8 cm CD is held rotatably. When 8 cmCD is located at the reproduction position, the connecting pin 15 is returned to one end of the long hole 16 on the turntable (TT) side by the restoring force of the tension spring 18, and accordingly, the pair of centering pins 9, 10 is moved to 8 cmCD. Thus, the 8 cm CD is held at the reproduction position by the turntable (TT) and the clamper (see FIG. 10A).
[0111]
In addition, when the 8 cm CD is in the reproduction position and the CD ejection command is issued by the operation button 103, the loading mechanism 105 holds the 8 cm CD between the rotating rollers 105a and 105b and engages with the center hole of the 8 cm CD. The held turntable (TT) and the clamper are both separated from the 8 cm CD, and then the rotating rollers 105a and 105b are rotated for a predetermined time in the direction in which the 8 cm CD is discharged, thereby moving the 8 cm CD to the discharge position. .
[0112]
In this case, the centering means 4 performs the same operation as the above-described operation in the 8 cm CD insertion direction as the above-mentioned 8 cm CD is ejected, so that the centering arm (L) 5 rotates while the centering arm (L) 5 is rotating. By engaging with the switch lever and pressing the switch lever (see FIG. 9 (c)), the switch 3 as the detection mechanism is switched on. However, after the rotation rollers 105a and 105b have rotated for the predetermined time, 8 cm CD Is positioned at the discharge position, the centering arm (L) 5 is separated from the switch lever of the switch 3, so that the switch 3 is switched off (see FIG. 10B). In FIG. 10B, the discharge position of 8 cm CD is indicated by a solid line, and for comparison with the discharge position, the discharge position of 12 cm CD is indicated by a dotted line, and the respective positions are superimposed.
[0113]
Next, the control operation performed by the control means of the CD player P3 when a command to close the flap 102 is given to the CD player P3 with the flap 102 opened by operating the operation button 103 will be described.
FIG. 11 is a flowchart illustrating a control operation performed by the control unit when a command to close the flap 102 is issued to the CD player P3 in which the flap 102 is open.
[0114]
When the flap 102 is instructed by the operation of the operation button 103, the control means starts (starts) the control operation in FIG. 11, and then proceeds to step S31 where the pair of rotating rollers 105a and 105b and the guide Regardless of whether the arm holds the CD or not, the rotation rollers 105a and 105b are rotated for a predetermined time in the direction in which the CD is inserted into the apparatus, and then the process proceeds to step S32.
[0115]
That is, in step S31, the control means, when the closing command for the flap 102 is issued in a state where the CD is at the ejection position and each rotating roller and the guide arm hold the CD, each rotating roller Is controlled so that the CD is carried into the apparatus for the predetermined time. As a result, if the CD is 12 cm CD, it is carried to the position shown in FIG. 8C, and if the CD is 8 cm CD, it is carried to the position shown in FIG.
[0116]
As can be seen from FIG. 8C and FIG. 10C, when the CD is carried in for a predetermined time by the pair of rotating rollers 105a and 105b and the guide arm included in the loading mechanism 105, either the 8 cm CD or the 12 cm CD is detected. Even in this case, the centering arm (L) 5 switches on the switch 3, so that the switch 3 detects this and detects the CD (12 cm CD and 12 cm CD) after the CD loading operation for the predetermined time from the discharge position. The separation of the predetermined distance between the pair of centering pins 5 and 6 in contact with 8 cm CD) is detected. As a result, the control means detects that the switch 3 has detected the separation of the predetermined distance by the switch ON.
[0117]
As a matter of course, in step S31, when the flap 102 is instructed to be closed in a state where the rotating rollers 105a and 105b and the guide arm do not hold the CD, the switch 3 is set in step S32. Immediately after the rotation rollers 105a and 105b are rotated for the predetermined time, the detection result of the switch 3, that is, the switch OFF is detected.
[0118]
The control means proceeds to step S32 after the control operation of step S31 described above. In step S32, the control means turns on the switch 3 based on the detection result of the switch 3, that is, the switch 3 is a pair of centering pins that come into contact with the CD (12 cm CD and 8 cm CD) located after the CD loading operation for a predetermined time from the ejection position. If it is detected that the distance between the distances 5 and 6 has been detected, the process proceeds to step S34 where control is performed to further drive the loading mechanism 105 in the loading direction so that the CD does not interfere with the closing operation of the flap 102. After reaching the position, control is performed so as to start the closing operation of the flap 102. When the flap 102 is in the closed state, the control operation according to this flowchart is terminated.
[0119]
That is, when the switch 3 is turned on in step S32, the control means can determine that the CD at the ejection position has been carried in for a predetermined time, so that the control means moves to step S34 and this CD is loaded into the loading mechanism. The flap 102 can be closed after the carry-in operation is further performed at least to a position that does not hinder the closing operation of the flap 102 by 105. As a result, the flap 102 is closed without inadvertently colliding with the CD, and the insertion port 101 is closed against the outside.
[0120]
In step S32, if the control means detects that the switch 3 is OFF, that is, that the switch 3 has detected the separation of the distance between the pair of centering pins 5 and 6 located at the initial position based on the detection result of the switch 3. In step S33, the rotational driving of each of the rotating rollers 105a and 105b is stopped, and the control operation according to this flowchart is terminated after the control to close the flap 102 is performed.
[0121]
That is, when the switch 3 is OFF in step S32, that is, when it is not turned ON, the control means determines that the CD is not in the ejection position when the rotary rollers 105a and 105b are driven to rotate in step S31. Therefore, the process proceeds to step S33, and the flap 102 can be closed. As a result, the flap 102 is closed without colliding with the CD, and the insertion port 101 is closed against the outside.
[0122]
When the flap 102 is in the open state and the CD player P3 having the CD at the reproduction position is instructed to close the flap 102, the control means determines that the CD is already at the reproduction position, for example, a loading mechanism. Therefore, it is possible to perform control for closing the flap 102 without performing the control operation shown in FIG.
[0123]
As a result, in the CD player P3, when the flap 102 is instructed to close, the control means performs the control operation of FIG. 3 described above, so that the CD is moved from the insertion port 101 of the CD player P3 to the playback position. Even in the case where the CD is located, the CD does not accidentally collide with the flap 102.
[0124]
In the third embodiment described above, the switch 3 constitutes a detection mechanism, and the switch 3 is separated by a distance between the pair of centering pins 5 and 6 that abut the CD (12 cmCD and 8 cmCD) located at the ejection position. Since the distance between the pair of centering pins 5 and 6 located at the initial position is detected by the switch OFF, as can be seen from FIG. The 12 cm CD at the discharge position protrudes much larger than the 8 cm CD. In order to make the protrusion of 12 cm CD at the discharge position smaller than that of the third embodiment, a detection mechanism for detecting the discharge position of 12 cm CD is additionally provided in addition to the switch 3 described above, and the detection mechanism is inserted. You may make it detect the discharge position of 12 cmCD in the position where protrusion of 12 cmCD from the opening | mouth 101 is comparatively few. An example of such a CD player will be described in the following fourth embodiment.
[0125]
(Fourth embodiment)
The CD player P4 in the fourth embodiment includes a switch 19 as a second detection mechanism in addition to the above-described components of the CD player P3, and is configured such that the control means controls including the detection result of the switch 19. Is.
[0126]
FIG. 12 is a diagram showing the inside of the CD player P4 from the top surface side of the CD player P4 according to the fourth embodiment of the present invention, and shows the case where the flap 102 is in the open state. FIG. 12A shows the case where the CD is placed in the reproduction position (storage position), FIG. 12B shows the case where the CD is placed in the ejection position, and FIG. The CD is carried in for a predetermined time from the discharge position by the loading mechanism 105. In FIGS. 12 (a) to 12 (c), the centering means 4 and the switch 3 when the CD is 12 cmCD and the centering means 4 and the switch 3 when engaged with the CD are shown by solid lines, and when the CD is 8 cmCD and when engaged with the 8 cmCD. The centering means 4 and the switch lever of the switch 3 are indicated by dotted lines. The CD player P4 is a so-called CD slot-in type player, like the CD player P3.
[0127]
As shown in FIG. 12, the switch 19 is a mechanical switch that is turned ON / OFF by the switching operation of the switch lever, like the switch 3, and is centered when the pair of centering pins 9 and 10 are pushed to the periphery of the 12 cm CD. The arm (L) 5 is configured to be turned on by rotating and pressing a switch lever.
[0128]
The switch 19 is provided at a position where the switch is turned OFF when the 12 cm CD is positioned at the discharge position, and the distance between the pair of centering pins 5 and 6 that contact the 12 cm CD positioned at the discharge position (second distance) is increased. Detection is based on the switch OFF state at the discharge position. As can be seen from FIG. 12 (b), the distance between the pair of centering pins 5 and 6 that contact the 12 cm CD located at the discharge position (second distance) is the pair of centering pins that contact the 8 cm CD located at the discharge position. By arranging the switch 19 with respect to the switch so that it is longer than the distance between the distances 5 and 6 (first distance), the 12 cm CD located at the discharge position is the same as in the case of the third embodiment. The 12 cm CD located at the discharge position of the above can be relatively little protruded from the insertion port 101.
[0129]
Further, the switch 19 is disposed at a position where the distance between the pair of centering pins 5 and 6 due to the 8 cm CD loading and unloading operations is not detected. Therefore, in the CD player P4, the switch 3 detects the distance (first distance) between the pair of centering pins 5 and 6 in contact with the 8 cm CD positioned at the discharge position, thereby detecting the discharge position of the 8 cm CD. .
[0130]
When the 12 cm CD is located at the discharge position, both the switch 3 and the switch 19 are in the ON state. However, when both the switch 3 and the switch 19 are in the ON state, only the second distance is obtained. Control to determine that it has been detected.
[0131]
On the other hand, the switch 3 of the CD player P4 is provided at a position where the switch is turned OFF when the 8 cm CD is located at the ejection position, and the distance between the pair of centering pins 5 and 6 that abut the 8 cm CD located at the ejection position (first 1) is detected by the switch OFF state at the discharge position.
Since the configuration other than the above is the same as that of the above-described CD player P3, the description thereof is omitted because it is redundant.
[0132]
The CD player P4 is configured as described above, and when the flap 102 in the open state is instructed, the control means causes the loading mechanism 105 to carry in for a predetermined time, and then the detection result of the switch 3 is displayed. Accordingly, control is performed to determine whether or not to start the closing operation of the flap 102.
[0133]
Since the operation of the CD player P4 for carrying in and discharging the 8 cm CD is the same as the operation by the control means of the CD player P3 in FIGS. 7 and 8, the description thereof is omitted here. Further, since the operation of carrying the 8 cm CD to the CD player P4 to the reproduction position is the same as the operation by the control means of the CD player P3 in FIGS. 9 and 10, the description thereof is omitted here.
[0134]
Therefore, a case where 12 cm CD is discharged from the reproduction position to the discharge position in the CD player P4 will be described below.
In the CD player P4, when a 12 cm CD is positioned at the reproduction position shown in FIG. 12A, if a CD ejection command is issued by the operation button 103, the control means performs the same as in the third embodiment described above. Under the control, the loading mechanism 105 performs the operation of discharging the 12 cm CD. Thereby, the centering means 4 performs the same operation as the operation in the inserting direction of the 12 cm CD described in FIG. 7 as the 12 cm CD is ejected, so that the centering arm (L) 5 is rotated. The switch lever of the switch 3 as the first detection mechanism is pressed. As a result, the switch 3 is turned on. In the control means, the switch 3 is turned on.
[0135]
Next, the centering arm (L) 5 continues to rotate in the same direction while maintaining the switch 3 in the ON state, and presses the switch 19 (see FIG. 12B). As a result, as the second detection mechanism, The switch 19 is turned on. The control means of the CD player P4 stops the operation of the loading mechanism 105 by detecting that the switch 19 is turned on following the CD ejection command. As a result, 12 cm CD is discharged to the discharge position. At this time, when the switch 19 is turned on, the control means detects that the switch 19 has detected a distance (second distance) between the pair of centering pins 5 and 6 contacting the 12 cm CD located at the discharge position. To detect.
[0136]
Next, the control operation performed by the control means of the CD player P4 when a command to close the flap 102 is given to the CD player P4 with the flap 102 opened by operating the operation button 103 will be described.
[0137]
FIG. 13 is a flowchart showing a control operation performed by the control means when a command to close the flap 102 is issued to the CD player P4 in which the flap 102 is open.
When the flap 102 is instructed by operating the operation button 103, the control means starts (starts) the control operation in FIG. 13, and then proceeds to step S41, where the switch 3 separates the first distance. Whether or not is detected. In step S41, the control means detects that the separation of the first distance has been detected by the switch ON state of the switch 3 when 12 cmCD is located at the ejection position as described above, and the 8 cmCD is located at the ejection position. Detects that the separation of the first distance is not detected by the switch OFF state of the switch 3, and when the CD is not in the ejection position, the separation of the first distance is detected because the switch 3 is OFF. Detect not.
[0138]
When the switch 3 is turned on in step S41, that is, when the separation of the first distance is detected, the control means moves to step S42 and drives the loading mechanism 105 in the loading direction. 12 cm CD is transferred from the discharge position to a position where there is no hindrance to the closing operation of the flap 102, and then the control is performed so that the closing operation of the flap 102 is started, and the control according to this flowchart is performed when the flap 102 is closed. End the operation.
[0139]
That is, when the switch 3 is turned on in step S41, the control means can determine that the 12 cm CD is located at the discharge position. Next, the control means moves to step S42, and the 12 cm CD is loaded by the loading mechanism 105. The flap 102 can be closed after a further carry-in operation to at least a position that does not hinder the closing operation of the flap 102. Thereby, the flap 102 is closed without inadvertently colliding with the 12 cm CD, and the flap 102 is closed.
[0140]
In step S41, when the switch 3 is switched off, that is, when it is detected that the first distance is not detected, the control means moves to step S43 and then performs a pair of rotations. Regardless of whether or not the rollers 105a and 105b and the guide arm are holding the CD, the rotating rollers 105a and 105b are arranged at positions where the CD can be held, and then rotated in a direction for inserting the CD into the apparatus for a predetermined time. Then, the process proceeds to step S44.
[0141]
That is, in step S41, when the switch 3 is OFF, the control means determines that there is a possibility that the 12 cm CD is not located at the ejection position but the 8 cm CD is located at the ejection position, and then proceeds to step S43. After the transition and rotating the rotation rollers 105a and 105b for a predetermined time, it is detected in step S44 whether or not the switch 3 is turned on by 8 cm CD.
[0142]
In other words, in step S43, the control means, when the closing command for the flap 102 is issued in a state where the 8 cm CD is at the discharge position and each rotating roller and the guide arm hold the CD, each rotating roller Is rotated for a predetermined time to control the 8 cm CD to be carried into the apparatus. As a result, the 8 cm CD moves to the position shown in FIG. At this time, the switch 3 is switched on (see FIG. 12C).
[0143]
In step S44, the control means detects whether or not the separation of the first distance is detected, that is, whether or not the 8 cm CD is located at the discharge position, based on the detection result of the switch 3, and when the switch 3 is ON That is, when the separation of the first distance is detected, the process proceeds to step S42, and the loading mechanism 105 is driven in the loading direction to load the 8 cm CD to a position that does not hinder the flap 102 closing operation. Thereafter, control is performed so as to start the closing operation of the flap 102, and when the flap 102 is in the closed state, the control operation according to this flowchart is ended.
[0144]
That is, when the switch 3 is turned on in step S44, the control means can determine that the 8 cm CD at the discharge position has been carried in for a predetermined time, so the process proceeds to step S42 and the 8 cm CD is loaded into the loading mechanism. The flap 102 can be closed after the carry-in operation is further performed at least to a position that does not hinder the closing operation of the flap 102 by 105. Thereby, the flap 102 is closed without inadvertently colliding with the 8 cm CD, and the flap 102 is closed.
[0145]
In step S44, if the control means detects that the first distance is not detected by turning off the switch 3, it is determined that the CD is not currently inserted into the insertion slot 101. Then, the process proceeds to step S45, and after the control to close the flap 102 is performed, the control operation according to this flowchart is terminated.
[0146]
That is, when the switch 3 is OFF in Step S44, that is, when it is not turned ON, the control means determines that 8 cm CD is not in the discharge position when the rotary rollers 105a and 105b are driven to rotate in Step S43. Therefore, the process proceeds to step S45, and the flap 102 can be closed. As a result, the flap 102 is closed without colliding with the CD, and the flap 102 is closed.
[0147]
As a result, in the CD player P4, when the flap 102 is instructed to close, the control means performs the control operation of FIG. 13 described above, so that the CD can be moved from the insertion port 101 of the CD player P4 to the playback position. Even in the case where the CD is located, the CD does not accidentally collide with the flap 102.
[0148]
In each of the above-described embodiments, when the closing command for the flap 102 in the open state is issued, if the CD is in the ejection position, the control means controls the driving means to drive the CD in the loading direction, Although the example in which the CD is controlled to perform the closing operation of the flap 102 after reaching the position where the closing operation of the flap 102 is not hindered, the present invention is not limited thereto, and the closing of the flap 102 in the open state is not limited thereto. When the command is issued and the CD is in the ejection position, the control means ignores the flap 102 closing command and continues to keep the flap 102 open as shown in FIGS. 14 to 17 below. May be.
[0149]
FIG. 14 is a view showing another example of a control operation flowchart performed by the control means when the flap 102 is instructed to be closed to the CD player P1 in which the flap 102 is in the open state, and the steps in the flowchart of FIG. S14 is replaced with step S15.
[0150]
FIG. 15 is a diagram showing another example of a control operation flowchart performed by the control means when the flap 102 is instructed to be closed to the CD player P2 in which the flap 102 is in the open state, and the steps in the flowchart of FIG. S125 is replaced with step S26.
[0151]
FIG. 16 is a diagram showing another example of a control operation flowchart performed by the control means when the flap 102 is instructed to be closed with respect to the CD player P3 in which the flap 102 is in the open state, and the steps in the flowchart of FIG. S34 is replaced with step S35.
[0152]
FIG. 17 is a diagram showing another example of a control operation flowchart performed by the control means when the flap 102 is instructed to be closed to the CD player P4 in which the flap 102 is in the open state. S42 is replaced with step S46.
[0153]
In each of the above-described embodiments, the recording medium has been described as a CD used in a CD player as an electronic device. However, the recording medium in the present invention is not limited to this, and is a disc-shaped recording medium such as a DVD or a tape-shaped recording medium. The present invention can be applied to any recording medium that is used by being inserted into a corresponding electronic device such as a recording medium or a card-shaped recording medium. However, in the case of a recording medium other than the CD described above, the detection means provided in the electronic device is used in an arrangement and structure corresponding to each recording medium as appropriate.
[0154]
In each of the above-described embodiments, the electronic device is described as a CD player. However, the electronic device according to the present invention is used for a disk-like recording medium such as a DVD, a tape-like recording medium, or a card-like recording medium. It may be a playback device or a recording device, or may be used for an electronic device that holds these recording media in a storable manner.
[0155]
In each of the above-described embodiments, the flap 102 has been described with a structure that opens and closes by sliding on the insertion port 101 disposed on the rear surface side. However, the flap in the present invention is not limited to this, It may be configured by an open / close door having one side as a support shaft, or may be configured by a rectangular plate having a flat surface or curved surface that slides up and down or left and right.
[0156]
【The invention's effect】
According to the present invention, when an instruction to close the flap in the open state is issued, the control means performs the loading operation of the loading means for a predetermined time, and then the recording is performed by the detection means provided at a predetermined position in the electronic device body. Since the presence / absence of the medium is detected and it is determined whether or not to start the closing operation of the recording medium insertion slot according to the detection result, the control means does not detect the recording medium, for example, by the detecting means In this case, since it can be determined that the recording medium is not inserted into the recording medium insertion slot, it can be determined that the flap does not inadvertently collide with the recording medium even when the flap closing operation is started. The control means can determine that the recording medium is at a position partially protruding from the recording medium insertion port, such as a discharge position, when the recording medium is detected by the detecting means. It can be determined that the closing operation should not be started immediately. As a result, the control means can determine in advance whether or not it collides with the recording medium when the flap is closed in response to the flap closing command in the open state.
[0157]
Further, the small diameter recording medium is provided on the passing area before reaching the discharge position, and the large diameter recording medium is provided at a position for detecting the presence or absence of the large diameter recording medium when the large diameter recording medium is positioned at the discharge position. By providing the first detection means, when a closing command for the flap in the open state is made, the control means detects the presence or absence of a large-diameter recording medium from the detection result of the first detection means, and the large diameter When the recording medium is not detected, the presence or absence of a small-diameter recording medium is detected based on the detection result of the first detection means after the loading means is carried in for a predetermined time, and the detection result of the first detection means is determined. Whether the flap closing operation is to be started is determined, and if the recording medium is detected by the first detection means, control is performed to stop the flap closing operation or the loading means is driven in the loading direction. To control Since to perform one of control,
As a result, the control means can determine in advance whether or not it collides with the recording medium if the flap is closed in response to the flap closing command in the open state.
[0158]
In addition, by providing a detection mechanism for detecting a predetermined distance between the pair of abutting portions of the pair of centering means, when the closing command for the flap in the open state is issued, the control means controls the loading means. Whether or not the flap closing operation is started according to the detection result of the detection mechanism after the recording medium in the discharge position is moved to a position that can be detected by the detection mechanism by carrying in for a predetermined time. Therefore, the control means can determine in advance whether or not it will collide with the recording medium when the flap is closed in response to the flap closing command in the open state.
[0159]
By providing a first detection mechanism for detecting the separation of the first distance between the pair of contact portions as the detection mechanism for detecting the separation of the pair of contact portions included in the pair of centering means, the control means When the command means closes the flap in the open state, the first detection mechanism detects whether or not the large-diameter recording medium is positioned at the discharge position. If the first detection mechanism has not detected the separation of the first distance, the loading means is carried in for a predetermined time, and then the first detection mechanism performs the first detection by the first detection mechanism. Therefore, it is determined whether or not a small-diameter recording medium is currently inserted into the insertion slot. Command to close flaps in state Can determine flaps and immediate action in advance whether impinging on the recording medium and the closing operation.
[Brief description of the drawings]
FIG. 1 is a diagram showing a CD player P1 according to a first embodiment of the present invention.
FIG. 2 is a diagram showing a CD player P1 according to the first embodiment of the present invention.
FIG. 3 is a flowchart showing a control operation performed by the control means when a flap closing command is issued to the CD player P1 with the flap opened.
FIG. 4 is a diagram showing the inside of a CD player P2 from the upper surface side of the CD player P2 in the second embodiment of the present invention.
FIG. 5 is a flowchart showing a control operation performed by the control means when a flap closing command is issued to the CD player P2 with the flap opened.
FIG. 6 is a diagram showing the inside of a CD player P3 according to the third embodiment of the present invention from the upper surface side of the CD player P3.
FIG. 7 is a diagram showing the inside of a CD player P3 according to the third embodiment of the present invention from the upper surface side of the CD player P3.
FIG. 8 is a diagram showing the inside of a CD player P3 according to the third embodiment of the present invention from the upper surface side of the CD player P3.
FIG. 9 is a diagram showing the inside of a CD player P3 according to the third embodiment of the present invention from the upper surface side of the CD player P3.
FIG. 10 is a diagram showing the inside of a CD player P3 according to the third embodiment of the present invention from the upper surface side of the CD player P3.
FIG. 11 is a flowchart showing a control operation performed by the control means when a flap closing command is issued to the CD player P3 with the flap opened.
FIG. 12 is a diagram showing the inside of a CD player P4 from the top surface side of the CD player P4 in the fourth embodiment of the present invention.
FIG. 13 is a flowchart showing a control operation performed by the control means when a flap closing command is issued to the CD player P4 with the flap opened.
FIG. 14 is a diagram showing another example of a control operation flowchart performed by the control means when a flap closing command is issued to the CD player P1 with the flap open.
FIG. 15 is a diagram showing another example of a flowchart of a control operation performed by the control means when a flap closing command is issued to the CD player P2 with the flap opened.
FIG. 16 is a diagram showing another example of a control operation flowchart performed by the control means when a flap closing command is issued to the CD player P3 with the flap opened.
FIG. 17 is a diagram showing another example of a control operation flowchart performed by the control means when a flap closing command is issued to the CD player P4 with the flap opened.
FIG. 18 is an external view of a main part of a CD player P0 as an electronic device used for conventional in-vehicle use.
FIG. 19 is a diagram showing the inside of the CD player P0 from the top surface side of the CD player P0 when the CD is placed in the reproduction position and the ejection position by the loading mechanism provided in the apparatus main body.
[Explanation of symbols]
1, 2 ... Optical sensor
3, 19 ... switch
4 ... Centering means
5 .... Centering arm (L)
6. Centering arm (R)
7, 8 ... axis
9 ... Centering pin (L)
10 .... Centering pin (R)
11. Connection arm (L)
12 .... Connecting arm (R)
13, 14, 15... Connection pin
16. Long hole
17... Locking part
18 ... Tension spring
101 ... Insertion slot
102 ... Flap
103 ... Operation buttons
105... Loading mechanism
105a, 105b ... Rotating roller

Claims (4)

An electronic device with an openable / closable flap,
It is provided in the electronic device main body, and is provided at a position where the recording medium can be inserted and ejected when the flap is in an open state, and the recording medium cannot be inserted and ejected when the flap is in a closed state. Recording medium insertion port,
A roller for carrying the recording medium inserted from the recording medium insertion port into the electronic device main body and discharging the recording medium in the electronic device main body to a discharge position where a part of the recording medium projects from the electronic device main body ; and loading means having,
Control means for controlling the operation of the loading means and the opening / closing operation of the flap;
Provided near the discharge position, and detecting means for detecting the presence or absence of the recording medium,
The detection means is provided on a position where the recording medium deviates from the detection area when the recording medium is positioned at the discharge position on the passage area of the recording medium.
When the recording medium is carried from the discharge position into the detection area of the detection means in accordance with a command for performing the flap closing operation, the control means is only a time necessary for the movement of the recording medium. When the roller is rotated in the direction in which the recording medium is inserted into the electronic device body, the detection result of the detection means is detected, and when the recording medium is detected by the detection means, the flap is closed. An electronic apparatus characterized in that when the recording medium is not detected by the detecting means without starting the operation, the flap closing operation is started . An electronic device with an openable / closable flap,
  It is provided in the electronic device main body, and is provided at a position where the recording medium can be inserted and ejected when the flap is in an open state, and the recording medium cannot be inserted and ejected when the flap is in a closed state. Recording medium insertion port,
  A roller for carrying the recording medium inserted from the recording medium insertion port into the electronic device main body and discharging the recording medium in the electronic device main body to a discharge position where a part of the recording medium projects from the electronic device main body; Having loading means;
  Control means for controlling the operation of the loading means and the opening / closing operation of the flap;
  Provided near the discharge position, and detecting means for detecting the presence or absence of the recording medium,
  The detection means is provided on a position where the recording medium deviates from the detection area when the recording medium is positioned at the discharge position on the passage area of the recording medium.
  When the recording medium is carried from the discharge position into the detection area of the detection means in accordance with a command for performing the flap closing operation, the control means is only a time necessary for the movement of the recording medium. After detecting the detection result of the detection means after rotating the roller in the direction in which the recording medium is inserted into the electronic device main body, and when the detection of the recording medium is made by the detection means, the loading means When the recording medium is carried in, the flap closing operation is started after the recording medium reaches a position where the flap closing operation is not hindered, and the recording medium is not detected by the detecting means, the flap is started. An electronic device characterized by starting a closing operation. An electronic device with an openable / closable flap,
It is provided in the electronic device main body, and is provided at a position where the recording medium can be inserted and ejected when the flap is in an open state, and the recording medium cannot be inserted and ejected when the flap is in a closed state. Recording medium insertion port,
A roller for carrying the recording medium inserted from the recording medium insertion port into the electronic device main body and discharging the recording medium in the electronic device main body to a discharge position where a part of the recording medium projects from the electronic device main body; Having loading means;
Control means for controlling the operation of the loading means and the opening / closing operation of the flap;
A pair of abutting portions protruding into the recording medium passage region and abutting against the recording medium peripheral edge are formed in the vicinity of the recording medium insertion opening, and recording is performed on the recording medium by inserting and ejecting the recording medium. A pair of centering means provided to be openable in a plane parallel to the plane;
A detection mechanism that detects that the pair of contact portions operated by contacting the peripheral edge of the inserted and ejected recording medium are separated by a predetermined distance;
The pair of contact portions are separated from the predetermined distance when the recording medium in the electronic device main body is discharged and positioned at the discharge position;
In response to a command for closing the flap, the control means carries the recording medium from the discharge position to a position where the separation of the pair of contact portions is detected by a predetermined distance. The detection result of the detection mechanism is detected after the roller is driven to rotate in the direction in which the recording medium is inserted into the electronic device main body for the time required for the movement of the recording medium, and the detection of the recording medium by the detection mechanism is performed. The electronic device is characterized in that the flap closing operation is not started when the detection mechanism is performed, and the flap closing operation is started when the recording medium is not detected by the detection mechanism . An electronic device with an openable / closable flap,
It is provided in the electronic device main body, and is provided at a position where the recording medium can be inserted and ejected when the flap is in an open state, and the recording medium cannot be inserted and ejected when the flap is in a closed state. Recording medium insertion port,
A roller for carrying the recording medium inserted from the recording medium insertion port into the electronic device main body and discharging the recording medium in the electronic device main body to a discharge position where a part of the recording medium projects from the electronic device main body; Having loading means;
Control means for controlling the operation of the loading means and the opening / closing operation of the flap;
A pair of abutting portions protruding into the recording medium passage region and abutting against the periphery of the recording medium are formed at intervals in the vicinity of the recording medium insertion port, and recording on the recording medium is performed by inserting and ejecting the recording medium. A pair of centering means provided to be openable in a plane parallel to the plane;
A detection mechanism that detects that the pair of contact portions operated by contacting the peripheral edge of the inserted and ejected recording medium are separated by a predetermined distance;
The pair of contact portions are separated from the predetermined distance when the recording medium in the electronic device main body is discharged and positioned at the discharge position;
In response to a command for closing the flap, the control means carries the recording medium from the discharge position to a position where the separation of the pair of contact portions is detected by a predetermined distance. The detection result of the detection mechanism is detected after the roller is driven to rotate in the direction in which the recording medium is inserted into the main body of the electronic apparatus for the time necessary for the movement of the recording medium, and the detection of the recording medium by the detection mechanism is performed. When the recording medium is loaded, the loading means performs the loading operation of the recording medium and starts the flap closing operation after the recording medium reaches a position where the flap closing operation is not hindered. An electronic apparatus characterized by starting a closing operation of the flap when no detection is made.

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