JP4265305B2 - Printing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a printing apparatus that prints information such as a title of data recorded on a recording medium on the surface of a recording medium such as an optical disc as a printing object.
[0002]
[Prior art]
Conventionally, Japanese Patent Application Laid-Open No. 2003-72155 is known as a printing apparatus that prints a title or the like on the surface of an optical disc such as a CD-R (Compact Disk-Recordable).
This printing apparatus performs printing using an ink ribbon on an optical disk supported by a tray by a printing mechanism having a thermal head. The width of the optical disk on the tray is the effective print width of the thermal head. Printing is performed in a rectangular area whose length corresponds to the moving distance of the thermal head.
[0003]
The tray is provided with an engaging portion that engages with the outer peripheral edge portion of the optical disc on the upper surface of the tray so as to securely hold the optical disc and correspond to the printing mechanism. Is attached with a sheet-like cushioning member made of a rubber material having moderate friction and buffering properties.
[0004]
Therefore, since the optical disk is placed on the tray via the buffer member, it is protected from external force by the buffering action of the buffer member during the printing operation and the attachment / detachment operation to the tray, and is not damaged such as a scratch. The optical disk is stably held by the frictional action of the buffer member and does not inadvertently move on the tray, enabling printing with excellent print quality.
[0005]
On the other hand, the optical disk to be printed by the printing apparatus may be plain with no characters or figures on the surface (label surface) in advance, but characters such as product names or manufacturer names, or ruled lines or figures. Some of these are pre-printed (pre-printed).
[0006]
When the user prints an arbitrary character string or the like on the surface of the optical disc on which such pre-printing has been performed, it is necessary to set a position avoiding those pre-printed portions as a printing area by the printing apparatus. In addition, it is necessary to print the character string printed in the print area in parallel with the preprinted characters and symbols. Otherwise, the printing portion by the printing apparatus is inclined with respect to the pre-printing portion, resulting in an unbalanced printing landscape.
[0007]
Therefore, in the printing apparatus, in order to enable alignment with respect to the position and orientation of the printing area formed on the optical disk by the printing mechanism, a transparent line provided with a ruled line serving as an index portion for alignment on the tray is provided. An alignment member made of a sheet material is provided.
[0008]
This alignment member covers a part of the optical disk mounted on the tray and is mounted on the tray, and the user is provided on the tray after mounting the optical disk to be printed on the tray. It is necessary to adjust the alignment by rotating the optical disk on the tray by the inclination if the pre-printed part is tilted with reference to the index section for positioning. .
[0009]
[Patent Document 1]
JP 2003-72155 A
[0010]
[Problems to be solved by the invention]
As described above, in the conventional printing apparatus, after the optical disk is once mounted on the tray, the orientation of the printing part by the printing apparatus is not inclined corresponding to the orientation of the pre-printing part. The optical disk is rotated and adjusted, but since the optical disk is in close contact with the buffer member disposed on the upper surface of the tray, the rotation of the optical disk is hindered by friction with the buffer member, and the alignment operation is performed. In addition, if the optical disk is handled with excessive force against friction, the disk surface in contact with the buffer member of the optical disk may be damaged.
[0011]
The present invention has been made paying attention to such points, and the orientation of the recording medium is adjusted so that the recording medium supported by the supporting means via the buffer member rotates to correspond to the printing orientation by the printing means. It is an object of the present invention to make it possible to facilitate the rotation adjustment operation of the recording medium performed on the support means, and to provide a printing apparatus that does not cause any damage to the recording medium during the adjustment operation.
[0012]
[Means for Solving the Problems]
  According to a first aspect of the present invention, there is provided a printing apparatus including a printing unit that performs printing on a recording medium and a buffer member.,The recording medium to be printed by the printing means is placed on and supported on the buffer member, and the recording medium is printed on the recording medium by a first position where the recording medium can be attached and detached. Supporting means movably provided at position 2;A recording medium support member, which is made of a material having a lower frictional resistance than the buffer member, and is provided to place and support the central portion of the recording medium supported by the support means;Of the support meansFrom the second positionIn conjunction with the movement to the first positionThe recording medium support member that supports the central portion of the recording medium is moved upward with respect to the support means so that the recording medium placed on the buffer member is separated upward from the buffer member.On the other hand, the support meansFrom the first positionIn conjunction with the movement to the second positionThe recording medium support member is supported in a state in which the central portion of the recording medium is supported so that the recording medium supported by the recording medium support member and spaced apart upward from the buffer member is brought into contact with the buffer member. A recording medium support member displacement means for moving the recording medium downward with respect to the support means;It is characterized by having.
[0014]
  According to a second aspect of the present invention, there is provided a printing apparatus comprising: a printing unit that performs printing on a recording medium; and a buffer member.,The recording medium to be printed by the printing means is placed on and supported on the buffer member, and the recording medium is printed on the recording medium by a first position where the recording medium can be attached and detached. Supporting means movably provided at position 2;A recording medium support member made of a material having a lower frictional resistance than the buffer member and provided for mounting and supporting the central portion of the recording medium supported by the support means; and the recording medium support member mounted on the buffer member The recording medium support member that supports the central portion of the recording medium is moved upward with respect to the support means so that the recording medium is spaced upward from the buffer member. The recording medium support member is moved downward with respect to the support means in a state where the central portion of the recording medium is supported so that the recording medium supported by and spaced apart from the buffer member contacts the buffer member. A recording medium supporting member displacing means to be moved;When the support means is in the first position,Recording medium support member displacement meansAnd operating means for manually operating the device.
[0016]
  A printing apparatus according to claim 3 of the present inventionThe printing means for printing on the recording medium and a buffer member are arranged, the recording medium printed by the printing means is placed on and supported by the buffer member, and the recording medium is detachable. And a support means movably provided at a position 1 and a second position at which printing is performed on the recording medium by the printing means, and a material having a smaller frictional resistance than the buffer member. A recording medium support member provided for mounting and supporting the center of the recording medium to be supported; and in conjunction with the movement of the support means from the second position to the first position, The support means is moved downward relative to the recording medium support member so as to separate the buffer member downward from the recording medium whose central portion is supported by the recording medium support member, while the first of the support means. of In conjunction with the movement of the recording medium to the second position, the recording member is placed in contact with the recording medium so that the buffer member spaced downward from the recording medium whose central portion is supported by the recording medium supporting member is in contact with the recording medium. And a support means displacing means for moving the support means upward relative to the recording medium support member in a state where the medium support member supports the central portion of the recording medium.
[0017]
  A printing apparatus according to claim 4 of the present inventionThe printing means for printing on the recording medium and a buffer member are arranged, the recording medium printed by the printing means is placed on and supported by the buffer member, and the recording medium is detachable. And a support means movably provided at a position 1 and a second position at which printing is performed on the recording medium by the printing means, and a material having a smaller frictional resistance than the buffer member. A recording medium support member provided for placing and supporting the central portion of the recording medium to be supported, and the buffer member are separated downward from the recording medium whose central portion is supported by the recording medium support member. Therefore, the support means is moved downward with respect to the recording medium support member, and the buffer member spaced downward from the recording medium whose central portion is supported by the recording medium support member is A support means displacing means for moving the support means upward relative to the recording medium support member in a state where the recording medium support member supports a central portion of the recording medium so as to contact the recording medium; And an operating means for manually operating the supporting means displacing means when in the first position.
[0018]
  A printing apparatus according to claim 5 of the present inventionBeforeRecording medium support member,in frontSupporting the circumference of a circular hole formed in the center of an optical disc as a recording mediumTo do.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0020]
FIG. 1 is a perspective view showing the overall appearance of the printing apparatus according to the first embodiment of the present invention, FIG. 2 is a plan view showing the structure of the main part inside the printing apparatus, and FIG. 3 is the structure of the main part. FIG.
The printing apparatus 1 includes a case 1a as an apparatus main body, and a key input unit 2 and a liquid crystal display unit 3 are provided on the upper surface of the case 1a. In addition, an opening 4 is provided on the front surface of the case 1 a, and a printer cover 5 that covers the printer unit 25 inside the case 1 a is provided above the opening 4. It is discharged toward the outside of 1a.
[0021]
The key input unit 2 includes a character input key for inputting characters and symbols, a character size key for inputting and setting a character size, a Kanji conversion key for editing the input character, a no-conversion key, and a liquid crystal display unit 3 Cursor keys that move the cursor displayed on the screen, specific function keys that are operated when various input data and selection data are confirmed, specific function start instructions, etc. are executed, and input character strings and images are printed Control keys necessary for operation in addition to the printing key for the printer, the power key for turning the apparatus on and off, and the like. Further, the tray is moved on the front side of the case 1a to move the tray 15 in and out of the case 1a. A key 12 is provided.
[0022]
A base 6 is provided inside the case 1a, and a tray 15 for supporting a plate-like recording medium 45 such as a CD-R (hereinafter referred to as an optical disk) is provided on the base 6. In addition, a printer unit 25 is provided inside the case 1a for printing a title or the like related to data recorded in the optical disc 45 on the surface (label surface) of the optical disc 45 supported by the tray 15. .
[0023]
4 to 7 show the structure of the tray 15. The tray 15 has a rectangular plate shape, and an opening 50 is formed in the substantially central portion thereof. A bracket 51 is attached to the lower surface of the tray 15 so as to face the opening 50, and a rotating table 52 is rotatably mounted on the tray 15, and appropriate friction and buffering are provided on the upper surface of the rotating table 52. A sheet-like buffer member 53 made of a rubber material having a property is attached.
[0024]
A rotary shaft 55 is loosely inserted into the bracket 51 so as to pass through the center of the opening 50, a disk receiver 56 as a recording medium support member is provided at the upper end portion of the rotary shaft 55, and a gear 57 is provided at the lower end portion. It has been.
[0025]
The disk receiver 56 is made of a plastic material with low friction and good sliding, and is integrally attached to the rotary shaft 55. An elevating member 59 as a recording medium moving means is provided between the disk receiver 56 and the bracket 51. The elevating member 59 is disposed in the opening 50 of the tray 15 and is rotatable with respect to the rotation shaft 55. The disc receiver 56 is rotatably mounted on the elevating member 59 and is fitted so as to be movable in the axial direction.
[0026]
The turntable 52 and the buffer member 53 have an opening 54 at the center, and a disk receiver 56 is disposed in the opening 54. The disk receiver 56 rotates together with the rotary base 52 and the buffer member 53 provided on the rotary base 52 as the rotary shaft 55 rotates, and is fitted in the opening 54 so as to be movable in the axial direction. .
The gear 57 provided at the lower portion of the rotation shaft 55 is attached to the rotation shaft 55 so as to rotate integrally with the rotation shaft 55 and is movable in the axial direction with respect to the rotation shaft 55. A leaf spring 60 is provided between the gear 57 and the rotary shaft 55, and the lifting member 59 is elastically pressed downward by the leaf spring 60 via the disk receiver 56.
On the upper surface of the bracket 51, a plurality of concave portions 61 having a hemispherical shape are uniformly formed on the same circumference around the rotation shaft 55. A plurality of hemispherical convex portions 62 corresponding to the concave portions 61 are integrally formed on the lower surface of the elevating member 59 so as to protrude.
A lever 64 protrudes from a part of the peripheral surface of the elevating member 59, the lever 64 extends toward the side of the tray 15, and its tip protrudes to the outside through an opening 65 formed in the side wall of the tray 15. ing. The lever 64 is elastically biased in one direction by a spring 66.
[0027]
When the tray 15 is housed in the case 1a, as shown in FIG. 4, the tip of the lever 64 abuts against the side wall of the case 1a by the biasing force of the spring 66. As shown in the figure, the respective convex portions 62 fall into the concave portions 61 and are fitted, and this fitting keeps the upper surface of the disk receiver 56 and the upper surface of the buffer member 53 substantially flush with each other.
[0028]
When the tray 15 moves to the front side of the case 1a and is discharged from the case 1a, the lever 64 is separated from the side wall of the case 1a as shown in FIG. As shown in FIG. 7 and FIG. 8, the raising / lowering member 59 is rotated clockwise, and the projections 62 are separated from the depressions 61 and ride on the upper surface of the bracket 51. The elevating member 59 moves upward against the elastic force of the leaf spring 60, and the upper surface of the disk receiver 56 is displaced to a position above the level of the upper surface of the buffer member 53. The turning range of the lever 64 is restricted to a predetermined range by a stopper 67 provided in the opening 65.
[0029]
An alignment index 68 is provided on the upper surface of the tray 15 so as to be adjacent to the edge of the turntable 52. The index 68 is formed by a straight line extending along the width direction of the tray 15.
[0030]
As shown in FIGS. 2 and 3, the tray 15 is guided along guide rails 7a and 7b provided on the base 6 so as to be arranged on both the left and right sides in the case 1a, and can move in and out of the case 1a. To do.
[0031]
A rack 8 is provided on one side edge of the tray 15, while a stepping motor (tray drive) that rotates the drive gear 9 forward and backward via a drive gear 9 and a gear train 10 that mesh with the rack 8 in the case 1 a. A motor 11 is provided.
[0032]
Then, the motor 11 is driven to rotate forward by the operation of the tray moving key 12, and the tray 15 at the storage position in the case 1a is discharged out of the case 1a from the opening 4 formed in the front surface of the case 1a. By operating the key 12, the motor 11 is driven in reverse to move the tray 15 positioned outside the case 1a to the storage position in the case 1a.
[0033]
The case 1a is provided with a position detection switch SW1 for detecting that the tray 15 has moved to the storage position in the case 1a, and the tray 15 is moved to a discharge position outside the case 1a where the optical disk 45 can be attached and detached. A position detection switch SW2 is provided for detecting the occurrence of this, and the drive of the motor 11 is controlled based on the signals of the position detection switches SW1 and SW2, so that the tray 15 stops at a predetermined stop position inside and outside the case 1a. Controlled. These position detection switches SW1 and SW2 are actuated by a switch operating projection (not shown) provided on the tray 15.
[0034]
A stepping motor (rotary base drive motor) 21 is provided on the back surface of the tray 15 as a drive source, and the power of the motor 21 is transmitted to the gear 57 of the rotary shaft 55 via the gear train 22 and is rotated by the transmission of this power. The shaft 55, the disk receiver 56, and the turntable 52 are integrally rotated in the clockwise direction.
[0035]
The tray 15 is provided with a rotation position detection switch SW3 for detecting the rotation position of the turntable 52 in order to determine the rotation stop position of the turntable 52. The detection switch SW3 is operated by switch action portions 19a and 19b provided at two positions on the outer peripheral edge of the turntable 52 at intervals of 180 °, and is controlled to stop the rotation of the turntable 52 by the operation.
[0036]
Further, a disk detection switch SW4 for detecting whether or not the optical disk 45 is mounted on the turntable 52 is provided in the case 1a.
[0037]
The printer unit 25 is a thermal transfer printer, and is provided in the case 1a so as to face the turntable 52 of the tray 15. The printer unit 25 includes a bridge-shaped printer frame 26. The printer frame 26 has leg portions 27a and 27b provided at both ends fixed to the base 6 in the case 1a, and the leg portions 27a and 27b are connected to each other. The horizontal frame portion 27c is arranged so as to be biased from the rotation center portion of the turntable 52 toward the front surface side of the case 1a.
[0038]
The printer frame 26 supports a carriage 31 on which a thermal head 32 is mounted, and forms a travel path for reciprocating the carriage 31 along a rotary table 52. A guide for guiding the carriage 31 in a slidable manner. The rack 29 is provided in parallel with the horizontal frame portion 27c, and meshes with the drive gear 34 provided on the carriage 31 when the carriage 31 travels along the surface of the horizontal frame portion 27c facing the rotary table 52. A guide rail 30 for guiding the carriage 31 is provided. The carriage 31 is a self-propelled system that reciprocates along the rack 29 by driving a drive gear 34 that meshes with the rack 29 by a stepping motor (carriage drive motor) 33 mounted on the carriage 31.
[0039]
The index 68 provided on the upper surface of the tray 15 is in a relationship parallel to the moving direction of the carriage 31.
[0040]
A ribbon cartridge 40 containing an ink ribbon for thermal transfer printing is mounted on the front side of the carriage 31. The ribbon cartridge 40 can be replaced by opening the printer cover 5 provided on the front surface of the case 1a. Yes.
[0041]
Although not shown, the carriage 31 has a head moving mechanism for moving the thermal head 32 to a printing position and a non-printing position by a cam mechanism or the like using a motor 33 as a driving source, and a ribbon using the motor 33 as a driving source. A ribbon take-up mechanism that drives the take-up shaft 35 to take up the ink ribbon is provided.
[0042]
In the printer unit 25, the carriage 31 is moved along the guide rail 30 from the left side to the right side in FIG. 3 by forward rotation of the motor 33, and the thermal head 32 is brought into contact with the optical disk 45 by the head moving mechanism. The ribbon take-up shaft 35 is driven by the ribbon take-up mechanism to take up the ink ribbon used for the thermal transfer. Further, by reverse rotation driving of the motor 33, the thermal head 32 is moved to the non-printing position and held at that position, and the carriage 31 is moved back along the guide rail 30 from the right side to the left side. The ribbon winding mechanism is provided with a one-way clutch mechanism, and the ribbon winding shaft 35 is not driven when the carriage 31 returns.
[0043]
In FIG. 1, an area (area or print area) A on the optical disk 45 indicated by a broken line is a printable area in one printing operation of the printer unit 25. In the printing apparatus, printing is performed by the printer unit 25 in a state where the tray 15 is stored in a predetermined storage position in the case 1a and the turntable 52 is stopped. Similarly, the area (area or printing area) B is a printable area in the next printing operation of the printer unit 25. After the printing on the area A, the turntable 52 is rotated by 180 ° and then the turntable 52 is stopped. In this state, printing in area B is performed. The width of these strip-shaped areas A and B corresponds to the width of the heating element array of the thermal head 32, and the length corresponds to the distance the thermal head 32 moves during the printing operation.
[0044]
FIG. 9 shows the configuration of the electric circuit of the printing apparatus 1 according to the present embodiment. The printing apparatus 1 includes a control unit 80. The control unit 80 includes a key input unit 2 for inputting characters and symbols to be printed, and a display RAM for outputting display data to the liquid crystal display unit 3. A display control unit 81, a drive circuit 82 for driving the tray drive motor 11, a drive circuit 83 for driving the turntable drive motor 21, and a drive circuit 84 for driving the carriage drive motor 33. A drive circuit 85 for driving the thermal head 32, position detection switches SW1, SW2 for detecting the movement position of the tray 15, and a rotation position detection switch SW3 for detecting the rotation position of the turntable 52; A disk detection switch SW4 for detecting the mounting of the optical disk 45 on the turntable 52 and a tray movement key 12 for instructing movement of the tray 15 are connected. That. In addition, image sensors and optical sensors 20a, 20b, and 20c are connected via a data conversion unit 89 that converts an analog signal into a digital signal.
[0045]
Further, font ROM 86, ROM 87, and RAM 88 are connected to the control unit 80, and the font ROM 86 stores display dot patterns for a large number of characters and symbols, and the print dot patterns are large and small character sizes. It is remembered.
[0046]
The ROM 87 includes a display control program for controlling the display control unit 81 in correspondence with the character code data input from the key input unit 2, a control program for performing all control related to the printing process of the printing apparatus 1, and the like. It is remembered.
[0047]
Further, the control unit 80 is connected to an interface circuit 90 and configured to be able to transmit and receive data to and from an external device such as a computer device.
[0048]
When printing is actually performed in the areas A and B on the surface of the optical disk 45, first, the tray moving key 12 is operated to move the tray 15 from the storage position in the case 1a to the discharge position on the front side thereof.
[0049]
In accordance with this movement, the lever 64 of the elevating member 59 is detached from the side wall portion of the case 1a, and by this separation, the elevating member 59 is rotated in the clockwise direction by the elastic force of the spring 66. Riding on the bracket 51 raises the elevating member 59 upward.
[0050]
When the elevating member 59 is raised, the disk receiver 56 is pushed upward together with the rotary shaft 55 by the elevating member 59, and the upper surface of the disk receiver 56 is disposed above the level of the upper surface of the buffer member 53 by this raising.
[0051]
After the tray 15 is moved to the discharge position, the optical disk 45 is placed on the disk receiver 56, and the circular hole 45 a at the center is fitted to the upper end of the rotating shaft 55. When pre-printing P is applied to the surface (label surface) of the optical disk 45, the optical disk 45 placed on the disk receiver 56 is rotated so that the orientation of the pre-printing P is an index 68 on the upper surface of the tray 15. So that it is parallel to
[0052]
At this time, the disk receiver 56 is located above the upper surface of the buffer member 53 of the turntable 52. Therefore, the optical disk 45 placed on the disk receiver 56 does not contact the buffer member 53, and the buffer member 53 is in a state of facing with a slight gap between them.
[0053]
Therefore, when adjusting the parallelism of the pre-printing P by rotating the optical disk 45, the optical disk 45 does not rub against the buffer member 53, and the disk receiver 56 supporting the optical disk 45 has a small frictional resistance. Therefore, the optical disk 45 can be smoothly rotated so that the orientation of the pre-printing P can be adjusted easily and efficiently so as to be parallel to the index 68. Since there is no friction between them, there is no fear of damaging the disk surface of the optical disk 45.
[0054]
After the optical disk 45 is mounted on the tray 15 and aligned, the tray moving key 12 is operated to move the tray 15 from the discharge position to the storage position in the case 1a.
[0055]
When the tray 15 moves into the case 1a, the lever 64 of the elevating member 59 contacts the side wall of the case 1a according to the movement, and the elevating member 59 is integrated with the lever 64 by this contact. The projection 62 on the lower surface of the elevating member 59 falls into the recessed portion 61 by this rotation, and the disc receiver 56 that supports the optical disc 45 together with the elevating member 59 and the rotation by this depression. The shaft 55 moves downward, and the optical disk 45 comes into close contact with the buffer member 53 on the turntable 52 by this movement.
[0056]
Thus, when the tray 15 is housed in the case 1a, the optical disk 45 mounted on the tray 15 is in close contact with the buffer member 53 and stably supported on the turntable 52.
[0057]
After the tray 15 is arranged at the storage position in the case 1a, predetermined printing is performed on the area A shown in FIG. 1 on the surface of the optical disc 45 by the first printing operation of the printer unit 25.
After the end of the first printing operation, the rotary base 52 and the optical disk 45 rotate 180 ° integrally with the rotary shaft 55 and the disk receiver 56, and after the rotation stops, the optical disk is rotated by the second printing operation of the printer unit 25. Predetermined printing is performed on the area B in the area B shown in FIG. Thereafter, the tray 15 is moved from the storage position in the case 1a to the discharge position outside the case 1a, whereby the optical disk 45 after printing can be taken out.
The optical disk 45 is pre-aligned so that the pre-print P is parallel to the index 68. Therefore, the character strings printed in the areas A and B are arranged in parallel with the pre-print P, and thus have a good appearance. A well-organized printing landscape is obtained.
[0058]
In the first embodiment described above, the disk receiver 56 is moved relative to the tray 15 held at a fixed position so that the buffer member 53 on the tray 15 and the optical disk 45 are brought into contact with and separated from each other. In the second embodiment, the buffer member 53 on the tray 15 and the optical disk 45 are brought into contact with and separated from each other by holding the optical disk 45 in a fixed position and moving the tray 15.
[0059]
FIG. 10 shows a second embodiment. In this embodiment, an elevating member 59 as a support means displacing means is provided on the tray 15. The elevating member 59 is fitted to the rotating shaft 55 so as to be rotatable and movable in the axial direction, and a plurality of convex portions 62 are formed on the lower surface of the elevating member 59 on the same circumference centering on the rotating shaft 55. Are formed uniformly, and a recess 61 corresponding to the protrusion 62 is formed on the upper surface of the tray 15.
[0060]
A turntable 52 is disposed on the elevating member 59, and a buffer member 53 is attached to the upper surface of the turntable 52. The turntable 52 is fitted to a disc receiver 56 attached to the rotary shaft 55 so as to be movable in the axial direction, and is fitted so as to rotate integrally with the disc receiver 56. The rotating shaft 55 is supported so as to maintain a fixed position that does not move in the axial direction with respect to the tray 15.
[0061]
When the tray 15 is discharged out of the case of the printing apparatus, as shown in FIG. 10A, each convex portion 62 of the elevating member 59 falls into each concave portion 61 of the tray 15, and the elevating member 59 and the turntable 52 is disposed at the lowered position, and the upper surface of the disk receiver 56 is positioned above the upper surface of the buffer member 53 in the turntable 52.
[0062]
In this state, the optical disk 45 is placed on the disk receiver 56, and the circular hole 45 a at the center is fitted to the upper end of the rotating shaft 55. When pre-printing is performed on the surface (label surface) of the optical disk 45, the optical disk 45 placed on the disk receiver 56 is rotated so that the pre-printing direction is parallel to the index on the upper surface of the tray 15. Adjust so that
[0063]
At this time, as in the case of the first embodiment, the disk receiver 56 is positioned above the upper surface of the buffer member 53 of the turntable 52, so that the optical disk 45 placed on the disk receiver 56 is buffered. The optical disk 45 is not in contact with the member 53 and is opposed to the buffer member 53 with a slight gap therebetween. Therefore, when the optical disk 45 is rotated to adjust the parallelism of pre-printing, the optical disk 45 is buffered. There is no friction with the member 53. Therefore, the optical disk 45 can be smoothly rotated so that the pre-printing direction can be adjusted easily and efficiently so as to be parallel to the index. Thus, there is no fear of damaging the disk surface of the optical disk 45.
[0064]
After the optical disk 45 is mounted on the tray 15 and aligned, the tray 15 moves from the discharge position to the storage position in the case, and the lifting member 59 is rotated via the lever 64 during this movement. As a result of this rotation, as shown in FIG. 10B, the respective convex portions 62 on the lower surface of the elevating member 59 ride on the upper surface of the tray 15 from the concave portion 61. By this movement, the buffer member 53 on the turntable 52 is brought into close contact with the optical disk 45.
[0065]
Thereafter, a predetermined printing is performed on a predetermined area on the surface of the optical disk 45 by the first printing operation of the printer unit, and the rotary table 55 and the disk receiver 56 are integrated with the rotary shaft after the first printing operation is completed. 52 and the optical disk 45 are rotated by 180 °, and after the rotation is stopped, predetermined printing is performed on other predetermined areas on the surface of the optical disk 45 by the second printing operation of the printer unit. In this case as well, since the pre-printing of the optical disk 45 is preliminarily positioned so as to be parallel to the index, the printed character strings are arranged in parallel with the pre-printing, and therefore a nice and clean printing landscape is obtained. can get.
[0066]
In the printing apparatuses of the first embodiment and the second embodiment described above, the tray 15 includes a rotating table, and the rotating table is rotated so that printing can be performed at a plurality of locations on the optical disk. The printing apparatus according to the third embodiment described in the above is an example in which the tray structure is simplified and the rotation mechanism and the rotation drive mechanism are not provided.
[0067]
FIG. 11 shows a third embodiment. In this embodiment, the tray 15 is not provided with a turntable, and a buffer member 53 is directly attached to the upper surface of the tray 15. An optical disk 45 is placed.
[0068]
As in the first embodiment, a bracket 51 is attached to the lower surface of the tray 15, and a support shaft 70 is inserted into the bracket 51 so as to be movable in the axial direction. 56 is attached, and an elevating member 59 is provided between the disk receiver 56 and the bracket 51.
[0069]
The elevating member 59 is disposed in the opening 50 of the tray 15 and is fitted to the support shaft 70 so as to be rotatable and movable in the axial direction, and the disk receiver 56 is rotatably mounted on the elevating member 59. The support shaft 70 is elastically biased downward by a leaf spring 60.
[0070]
A plurality of recesses 61 are evenly formed on the same circumference around the support shaft 70 on the upper surface of the bracket 51, and a plurality of projections 62 corresponding to the recesses 61 are integrally formed on the lower surface of the elevating member 59. Protrusions are formed.
When the tray 15 is being discharged out of the case of the printing apparatus, as shown in FIG. 11A, the convex portions 62 of the elevating member 59 ride on the upper surface of the bracket 51 and the elevating member 59 and the disk receiver 56 are raised. The upper surface of the disk receiver 56 is positioned above the upper surface of the buffer member 53 in the tray 15.
[0071]
In this state, the optical disk 45 is placed on the disk receiver 56, and the circular hole 45 a at the center is fitted to the upper end of the rotating shaft 55. When pre-printing is performed on the surface (label surface) of the optical disk 45, the optical disk 45 placed on the disk receiver 56 is rotated so that the pre-printing direction is parallel to the index on the upper surface of the tray 15. Adjust so that
[0072]
At this time, the disk receiver 56 is positioned above the upper surface of the buffer member 53, so that the optical disk 45 placed on the disk receiver 56 is not in contact with the buffer member 53, and is not in contact with the buffer member 53. Therefore, the optical disk 45 is not rubbed against the buffer member 53 when the optical disk 45 is rotated to adjust the parallelism of the pre-printing. Can be adjusted easily and efficiently so that the direction of pre-printing is parallel to the index, and there is no friction between the buffer member 53 and the disk surface of the optical disk 45. There is no fear of damage.
[0073]
After the optical disk 45 is mounted on the tray 15 and aligned, the tray 15 moves from the discharge position to the storage position in the case, and the lifting member 59 is rotated via the lever 64 during this movement. As a result of this rotation, as shown in FIG. 11B, the convex portions 62 on the lower surface of the elevating member 59 fall into the concave portion 61, and the disc receiver 56 and the support shaft 70 move downward together with the elevating member 59 due to this depression. By this movement, the optical disk 45 comes into close contact with the buffer member 53 on the tray 15.
[0074]
Thereafter, predetermined printing is performed on a predetermined area of the surface of the optical disc 45 by a printing operation of the printer unit. After this printing, the tray 15 is discharged from the storage position in the case to the discharge position outside the case.
[0075]
Here, when printing on another area of the surface of the optical disk 45, for example, an area on the opposite side of the print portion, the optical disk 45 is manually rotated by 180 °, and the print portion and the pre-printing direction are set in the tray 15. Align the position so that it is parallel to the index on the top surface.
[0076]
When the tray 15 is moved from the storage position to the discharge position, the elevating member 59 is rotated via the lever 64 according to the movement, and each convex portion 62 on the lower surface of the elevating member 59 is rotated by the rotation. Riding on the upper surface, the disk receiver 56 is moved upward together with the elevating member 59, and the optical disk 45 is separated from the buffer member 53. Therefore, the optical disk 45 can be smoothly rotated and aligned.
[0077]
Thereafter, the tray 15 is moved again to the storage position in the case, and predetermined printing is performed in the area by the printer unit. Also in this case, since the optical disk 45 is pre-positioned so that the pre-printing and the index are parallel, the printed character strings and the like are arranged in parallel with the pre-printing, so that a nice and clean printing landscape is obtained. can get.
[0078]
By the way, in each of the above embodiments, the elevating member 59 is automatically rotated in accordance with the movement of the tray 15 so that the disc receiver 56 or the rotary table 52 is displaced up and down. A configuration may be adopted in which the elevating member 59 is rotated to displace the disk receiver 56 or the turntable 52 up and down so that the optical disk 45 and the buffer member 53 are brought into contact with and separated from each other.
[0079]
FIG. 12 shows an example in which a mechanism for contacting and separating the tray 15 and the optical disk 45 by manual operation is provided. As shown in the figure, a manual lever 64a provided on the elevating member 59 is disposed so as to protrude from the front surface of the tray 15. By operating the manual lever 64a, the user can rotate the elevating member 59 to displace the disc receiver 56 or the rotary table 52 up and down, thereby bringing the optical disc 45 and the buffer member 53 into contact with each other.
[0080]
【The invention's effect】
  As described above, claim 1 of the present invention.And 3According to the printing apparatus according to the present invention, when manually rotating the recording medium placed on the support means,,RecordThe recording medium can be moved relative to the buffer member so as to be separated from the buffer member, so that the recording medium does not rub against the buffer member. The alignment can be adjusted easily and efficiently, and since there is no friction between the recording medium and the buffer member, there is no fear of damaging the recording medium. When the recording medium is placed on the support means when the support means is disposed at the first position,,RecordThe recording medium and the buffer member are kept apart from each other. Therefore, the recording medium can be smoothly rotated and the alignment thereof can be adjusted easily and efficiently. When the support means moves to the second position, the recording medium and the buffer member come into contact with each other and the recording medium is stably supported.
[0081]
  Claim 2 of the present inventionAnd 4According to the printing apparatus according toRecording medium support member displacement means or support means displacement meansSince the operation means for manually operating the recording medium is provided, the operation means can be operated to arbitrarily bring the recording medium into contact with the buffer member.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an overall appearance of a printing apparatus according to a first embodiment of the present invention.
FIG. 2 is a plan view showing a structure of a main part inside the printing apparatus.
FIG. 3 is a front view showing the structure of the main part.
FIG. 4 is a plan view showing a state when the tray is stored in the printing apparatus.
5 is a cross-sectional view taken along line AA in FIG.
FIG. 6 is a plan view showing a state when the tray is ejected in the printing apparatus.
7 is a cross-sectional view taken along line BB in FIG.
FIG. 8 is an explanatory view showing the engagement / disengagement relationship between the convex portion of the elevating member and the concave portion of the bracket in the printing apparatus.
FIG. 9 is a block diagram showing a configuration of an electric circuit of the printing apparatus.
FIG. 10 is a sectional view showing a second embodiment of the present invention.
FIG. 11 is a sectional view showing a third embodiment of the present invention.
FIG. 12 is a plan view of a main part showing a fourth embodiment of the present invention.
[Explanation of symbols]
1 ... Printing device
1a ... Case
6 ... Base
15 ... Tray
25. Printer section
31 ... Carriage
32 ... Thermal head
45 ... Recording medium
51 ... Bracket
52. Turntable
53 ... Buffer member
55 ... Rotating shaft
56 ... Disk receiver
57 ... Gear
59 ... Lifting member
61 ... convex part
62 ... concave
64 ... Lever
64a ... Manual lever
68 ... Indicator
70 ... support shaft

Claims (5)

Printing means for printing on a recording medium;
A buffer member is disposed , and a recording medium to be printed by the printing unit is placed and supported on the buffer member , and a first position where the recording medium can be attached and detached, and the recording medium by the printing unit Supporting means movably provided at a second position where printing is performed;
A recording medium support member, which is made of a material having a lower frictional resistance than the buffer member, and is provided to place and support the central portion of the recording medium supported by the support means;
A center of the recording medium is disposed so as to separate the recording medium placed on the buffer member upward from the buffer member in conjunction with the movement of the support means from the second position to the first position. while moving the recording medium supporting member which supports the part above with respect to the support means, in conjunction from the first position of the supporting means to move to said second position, said recording medium support member The recording medium supporting member is supported with respect to the supporting means in a state where the central portion of the recording medium is supported so that the recording medium supported at the center and spaced apart upward from the buffering member is brought into contact with the buffering member. A recording medium support member displacing means for moving the recording medium downward,
A printing apparatus comprising: Printing means for printing on a recording medium;
A buffer member is disposed , and a recording medium to be printed by the printing unit is placed and supported on the buffer member , and a first position where the recording medium can be attached and detached, and the recording medium by the printing unit Supporting means movably provided at a second position where printing is performed;
A recording medium support member, which is made of a material having a lower frictional resistance than the buffer member, and is provided to place and support the central portion of the recording medium supported by the support means;
While moving the recording medium support member supporting the central portion of the recording medium upward with respect to the support means in order to separate the recording medium placed on the buffer member upward from the buffer member, The recording medium supporting member is supported in a state where the central portion of the recording medium is supported so that the recording medium supported by the recording medium supporting member and spaced apart from the buffering member is brought into contact with the buffering member. A recording medium support member displacing means that moves downward relative to the support means;
Operating means for manually operating the recording medium supporting member displacing means when the supporting means is in the first position;
A printing apparatus comprising: Printing means for printing on a recording medium;
A buffer member is disposed, and a recording medium to be printed by the printing unit is placed and supported on the buffer member, and a first position where the recording medium can be attached and detached, and the recording medium by the printing unit Supporting means movably provided at a second position where printing is performed;
A recording medium support member, which is made of a material having a lower frictional resistance than the buffer member, and is provided to place and support the central portion of the recording medium supported by the support means;
In conjunction with the movement of the support means from the second position to the first position, the buffer member is separated downward from the recording medium whose central portion is supported by the recording medium support member. While the support means is moved downward with respect to the recording medium support member, the central portion is supported by the recording medium support member in conjunction with the movement of the support means from the first position to the second position. In order to bring the buffer member spaced downward from the recorded recording medium into contact with the recording medium, the recording medium supporting member supports the recording medium supporting member while the recording medium supporting member supports the central portion of the recording medium. A supporting means displacing means for moving upwards,
A printing apparatus comprising: Printing means for printing on a recording medium;
A buffer member is disposed, and a recording medium to be printed by the printing means is placed on the buffer member Support means provided so as to be movable between a first position where the recording medium can be attached and detached and a second position where printing is performed on the recording medium by the printing means,
A recording medium support member, which is made of a material having a lower frictional resistance than the buffer member, and is provided to place and support the central portion of the recording medium supported by the support means;
The support means is moved downward relative to the recording medium support member so as to separate the buffer member downward from the recording medium whose central portion is supported by the recording medium support member. The recording medium supporting member supports the recording means in a state where the recording medium supporting member supports the central portion of the recording medium so that the buffer member spaced downward from the recording medium on which the central portion is supported contacts the recording medium. Support means displacing means for moving the medium support member upward;
Operating means for manually operating the support means displacement means when the support means is in the first position;
A printing apparatus comprising: It said recording medium support member, pre-Symbol printing apparatus according to any one of claims 1 to 4, characterized in that for supporting the periphery of the circular hole formed in the center of the optical disk as a recording medium.

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