Patent Application
20080018041
The invention will be described with reference to the accompanying drawings, wherein like numbers reference like elements.
Hereinafter, a sticky note printer (stack of paper printer) including a paper feed unit according to an embodiment of the invention will be described with reference to accompanying drawings. The sticky note printer is one of units forming a sticky note printing system (a paper printing system). The sticky note printer rolls up the uppermost sticky note of a stack of sticky note (stack of papers) to be set. After that, while peeling the rolled-up sticky note, the sticky note printer performs printing on the basis of print data edited on a personal computer and then discharges the printed sticky note. First, a sticky note printing system will be described.
As shown in
The personal computer 3 includes a personal computer body 5, a keyboard 6 and a mouse 7 that are connected to the personal computer body 5 and are used to input data, and a display 8 for displaying the result of input. A CD-ROM 9 in which data relating to the sticky note printer 2 such as application software (program) or a device driver is stored is detachably provided in the personal computer body 5. When various detection signals, various orders, or various data are input from the keyboard 6, the personal computer 3 processes various data in accordance with the program stored in the CD-ROM 9 so as to control the sticky note printer 2.
As a matte of course, the sticky note printer 2 may have a function of creating and editing print data and a function of controlling each unit so as to be independently used to print the sticky note H1.
As shown in
The printer case 15 is formed to have a small size as a whole, and a sticky note inlet 17 through which a sticky note holder 20 to be described below passes to enter the printer case in a lateral direction is formed on the side surface of the printer case 15. Further, a slit-shaped paper outlet 16 through which printed sticky note H1 are discharged to the outside of the printer case is formed at the central portion on the front surface of the printer case 15. The paper outlet 16 has a width corresponding to the width of the sticky note holder 20 so that the three sticky note H1 having a minimum width are discharged while being parallel in a width direction. In addition, an open-close lid 18, which includes a ribbon cartridge C (see
The stacks of sticky note H of sticky note are composed of a plurality of sticky note H1 of which fixed ends 91 each partially have an adhesive on the lower surface. That is, the stacks of sticky note H of sticky note include a plurality of sticky note H1, which has the same shape (rectangular shape) and size and is stacked while fixed ends 91 of sticky note each partially have an adhesive on the lower surface. The sticky note H1 can be peeled from the stacks of sticky note H of sticky note one by one and be re-adhered to an object such as a notebook after peeling. Further, a stack of sticky note H of sticky note having a minimum width, and a stack of sticky note having a width different from a width corresponding to an integral multiple of the minimum width are used as the stacks of sticky note H of sticky note in this embodiment. The stacks of sticky note H of sticky note are formed to have substantially the same length in a longitudinal direction. In addition, stacks of sticky note H of sticky note having different colors (three colors in this embodiment) are used as the stacks of sticky note H of sticky note. For this reason, a case where three kinds of sticky note H1 that have a minimum width and different colors are used will be described below.
As shown in
As shown in
The sticky note case 30 includes a guide 36 and a pair of position regulators 37, which are integrally formed. The guide 36 is formed in a frame shape having four sides, and guides the three placing stages 31 so that the three placing stages 31 are horizontally transferred up and down. The pair of position regulators 37 protrude from the front and rear upper ends of the guide 36, respectively, to press free ends 90 of the stacks of sticky note H of sticky note to be rolled up and the fixed ends 91 each having an adhesive. An opening 38 through which a push-up portion 76 to be described below passes is formed at a position close to the free ends of the stacks of sticky note H of sticky note on the bottom surface of the sticky note case 30, and a detection opening 39 corresponding to the detecting unit 24 is formed at a position close to the fixed ends on the bottom surface of the sticky note case 30.
Each of the placing stages 31 includes a plate-shaped upper stage 43 on which a stack of sticky note H of sticky note is placed, a plate-shaped lower stage 44 coming in contact with the bottom surface of the sticky note case 30, and a coil spring 45 provided between the upper stage 43 and the lower stage 44. The placing surface of the upper stage 43 is formed to have the same length and width as the stack of sticky note H of sticky note, which is to be placed, having a minimum width, and the lower stage 44 is formed to also have the same size as the upper stage 43. Further, the push-up portion 76 comes in contact with the upper surface of the lower stage 44 through the opening 38, and the detecting unit 24 comes in contact with the lower stage 44 through the detection opening 39.
As shown in
When each of the placing stages 31 ascends by the sticky note transfer unit 21, each of the placing stages 31 is horizontally transferred while being guided by the guide 36. Then, the free ends 90 and fixed ends 91 of the stacks of sticky note H of sticky note come in contact with the pair of position regulators 37, and are positioned while being pushed up by the coil spring 45. For this reason, even though sticky note H1 are fed one by one and the number of sticky note is decreased, the height level of the uppermost sticky note H1 of the stacks of sticky note H of sticky note is not changed. In this case, a position where the stack of sticky note H of sticky note is regulated by the pair of position regulators 37 is referred to as a pick-up position 48.
Meanwhile, when a stack of sticky note H of sticky note having a width two times as large as the minimum width is set, the stack of sticky note H of sticky note is placed on the two placing stages 31. Further, when a stack of sticky note H of sticky note having a width three times as large as the minimum width is set, the stack of sticky note H of sticky note is placed on the three placing stages 31. Stacks of sticky note H of sticky note having different widths can be placed on the stages as described above. Accordingly, if the width of the placing stage 31 is fitted to the minimum width of the stack of sticky note H of sticky note, even though the width of the stack of sticky note H of sticky note is multiplied several times, the stack of sticky note H of sticky note can be placed on the placing stages 31.
A sticky note feed unit 22 is formed to roll up the uppermost sticky note H1 of the stack of sticky note H of sticky note fed to the pick-up position 48. The sticky note feed unit 22 includes a feed roller 51, a driving motor 52, a reduction gear train 53, and a roller transfer 54. The feed roller 51 comes in contact with the uppermost sticky note H1 so as to roll up the uppermost sticky note H1 while being rotated, and holds the rolled-up sticky note H1 between a thermal head 50 to be described below and itself so as to feed the sticky note H1 while being rotated. The driving motor 52 is used as a driving source of the feed roller 51, and the reduction gear train 53 transmits the driving force of the driving motor 52 to the feed roller 51. The roller transfer 54 transfers the feed roller 51 to a position between the pick-up position 48 where a sticky note H1 is rolled up and the holding position 55 where a sticky note H1 is held between the thermal head 50 and the roller transfer 54.
The feed roller 51 is provided corresponding to substantially the same width as the sticky note holder 20, that is, corresponding to the three placing stages 31 in a width direction. The feed roller 51 comes in contact with the free ends 90 of all stacks of sticky note H of sticky note approaching the pick-up position 48 while being rotated. The feed roller 51 includes a roller body 58 that comes in direct contact with the sticky note H1 while being rotated, and a roller driving shaft 59 that serves as a central shaft used to rotate the roller body 58. Both ends of the roller driving shaft 59 are rotatably supported by the roller transfer 54, and the roller driving shaft 59 is rotated due to the driving force of the driving motor 52 transmitted through the reduction gear train 53. In addition, feed roller 51 has a function coming in contact with the sticky note H1 while being rotated so as to roll up the sticky note H1, and a function as a platen roller to be described below cooperating with the thermal head 50.
The roller driving shaft 59 is rotatably supported at one end of the roller transfer 54, and the roller transfer 54 includes a pair of rotary arms 60 that is rotatably supported at the other end of the roller transfer. For example, the roller transfer 54 uses one rotary arm 60 as a carrier, and includes a planetary gear mechanism using gears included in the reduction gear train 53 and a cam mechanism for rotating the rotary arm 60 by the torque of the gears. That is, the circular motion performed by the planetary gear mechanism is converted into the rotational reciprocating motion of the rotary arm 60. Due to the rotational reciprocating motion of the rotary arm 60, the feed roller 51 is transferred to a position between the pick-up position 48 and the holding position 55 while being rotated.
The printing unit 23 includes a thermal head 50 that is disposed in the vicinity of the paper outlet 16 and has substantially the same width as the feed roller 51, and a ribbon winding mechanism (not shown) for winding the ink ribbon R of the ribbon cartridge C to be mounted. The ribbon cartridge C includes a ribbon unwinding reel 61 on which the ink ribbon R is wound so as to be freely unwound, a ribbon winding reel 62 for winding the ink ribbon R thereon, and a cartridge case (not shown) in which the ribbon unwinding reel and the ribbon winding reel are rotatably received. Further, when the feed roller 51 is transferred to the holding position 55, the ribbon winding mechanism is connected to the reduction gear train 53 so that power is supplied from the driving motor 52 to the ribbon winding mechanism, and the ribbon winding mechanism feeds the sticky note H1 and begins to wind (feed) the ink ribbon R.
While the thermal head 50 and the driving motor 52 are controlled on the basis of control signals from the personal computer 3, the printing unit 23 having the above-mentioned structure prints the sticky note H1. That is, the sticky note H1 and the ink ribbon R are held between the thermal head 50 and the feed roller 51 transferred to the holding position 55. Then, while the sticky note H1 and the ink ribbon R are fed together with each other, printing is performed on the surface of the sticky note H1 by the heating the thermal head 50.
The sticky note transfer unit 21 separately transfers the three placing stages 31 up and down, so that the stacks of sticky note H of sticky note approach the pick-up position 48 or the stand-by position 47. The sticky note transfer unit 21 includes three push-up members 70 that come in contact with the lower stages 44 of the placing stages 31 and each have an L shape, and a rotary spindle 71 by which the three push-up members 70 are rotatably and coaxially supported, and three solenoids 72 for transferring the placing stages 31 up and down through the three push-up members 70.
Each of the push-up members 70 includes a long side portion 75 and a push-up portion 76, which are integrally formed with each other. The long side portion 75 is rotated about the rotary spindle 71, and the push-up portion 76 is formed to protrude upward from one end of the long side portion 75. A seat 77 on which a plunger 73 of the corresponding solenoid 72 is seated is formed on the other end of the long side portion 75. The push-up portion 76 comes in contact with the lower stage 44 of the placing stage 31.
The solenoids 72 are provided on the front side of the sticky note holder 20. The plungers 73 of the solenoids 72 protrude downward when the solenoids 72 are driven. When the driving of each solenoid 72 is stopped, the tip of the plunger 73 comes in contact with the seat 77 of the each push-up member 70. When each of the solenoids 72 is magnetized and the plunger 73 protrudes downward, the plunger 73 pushes down the seat 77. Then, the long side portion 75 is rotated about the rotary spindle 71 and pushes up the push-up portion 76, so that the lower stage 44 is pushed up. As a result, the placing plates 31 ascend and the stacks of sticky note H of sticky note approach the pick-up position 48. For this reason, all of the placing stages 31 can ascend by the three solenoids 72, and one or more of the placing stages 31 can also ascend. In contrast, when each of the solenoids 72 is demagnetized, each of the push-up members 70 goes down by a return spring (not shown), so that the lower stages 44 descend. As a result, the stacks of sticky note H of sticky note are transferred to the stand-by position 47.
The detecting unit 24 includes three detection sensors 80 so as to correspond to the placing stages 31, and each of the detection sensors 80 is provided below the sticky note case 30. The tip of each detection sensor 80 corresponds to the detection opening 39. While the stacks of sticky note H of sticky note is in the stand-by position 47, the tip of each detection sensor 80 comes in contact with the lower stage 44. Meanwhile, while the stacks of sticky note H of sticky note is in the pick-up position 48, the tip of each detection sensor 80 is separated from the lower stage 44. The tips of the detection sensors 80 are separated form the lower stages 44 when the lower stages 11 ascend by the sticky note transfer unit 21, which allow the detection sensors to detect that the stacks of sticky note H of sticky note are transferred to the pick-up position 48. In addition, it is preferable that the printing unit be driven while the detection sensors 80 detect the approaching of the stacks of sticky note H of sticky note to the pick-up position 48.
The indicating unit 25 includes three indicator lamps 82 provided on the front side of the printer case 15, and the three indicator lamps 82 are provided in a horizontal direction at positions that correspond to the three placing stages 31 (see
As shown in
Directly after the end of the rolled-up sticky note H1 passes through the lower side of the feed roller 51, the feed roller 51 is transferred to the upper side so as to be separated from the stack of sticky note H of sticky note while being rotated. Accordingly, the sticky note H1 is raised up to the upper side of the feed roller 51 due to the rotational force of the feed roller 51, so that the free end 90 rides on the feed end 51. Subsequently, the feed roller 51 on which the sticky note H190 rides is transferred to the holding position 55 by the roller transfer 54 while being rotated. When the feed roller 51 approaches the holding position and 55 so that the sticky note H1 is held between the thermal head 50 and the feed roller, the ink ribbon R begins to be fed.
The feed roller 51 comes in contact with the surface of the sticky note H1 while being rotated, so as to peel the sticky note from the stack of sticky note H of sticky note. The feed roller 51 is rotated to feed the free end to the paper outlet 16, and serves as a platen roller. That is, while the adhesive portion is peeled, the thermal head 50 and the feed roller 51 coordinate to perform printing on the surface of the sticky note H1 from the free end. Then, when the printing is completed, the feed roller 51 is transferred from the holding position 55 to the pick-up position 48 and the sticky note transfer unit 21 allows the stack of sticky note H of sticky note to approach the stand-by position 47, so that the stand-by state for printing is prepared. Further, when a stack of sticky note H of sticky note having a width two times as large as the minimum width approaches the pick-up position 48, two placing stages 31 on which the stack of sticky note H of sticky note is placed are transferred. Furthermore, when a stack of sticky note H of sticky note having a width three times as large as the minimum width approaches the pick-up position 48, all of three placing stages 31 on which the stack of sticky note H of sticky note is placed are transferred.
Hereinafter, a control system of the sticky note printing system will be described with reference to
The control unit 108 includes a CPU 110, a ROM 111, a RAM 112, a CD-ROM 9, and an input output controller (IOC) 113, which are connected with each other through buses 114. When various signals and data are input from various units of the sticky note printing system 1 to the control unit through the IOC 113, the CPU processes various data stored in the RAM 112 by using control programs stored in the CD-ROM 9 on the basis of input various signals and data, and outputs various signals and data to various units of the sticky note printing system 1 through the IOC 113. Accordingly, for example, selection data used to transfer a selected stage 31 is created on the basis of a stage selecting program 115 that is stored in the CD-ROM 9 and used to select a predetermined placing stage 31 from the three placing stages 31 by using the keyboard 6, and is transmitted to the selection data obtaining unit 103. As a result, it is possible to transfer the desired placing stage 31.
Hereinafter, a control flow relating to the selection and driving of the placing stages 31 of the sticky note printer 2, and a control flow relating to the lamp indication corresponding to the selected placing stage 31 will be described with reference to
When the stage selecting program 115 stored in the CD-ROM 9 is executed and a user selects a desired placing stage 31 by using the keyboard 6, the stage selecting program 115 creates selection data on the basis of the selection result (S1). Then, the personal computer 3 transmits the created selection data to the selection data obtaining unit 103 of the sticky note printer 2 (S2). After that, the sticky note printer 2 magnetizes a solenoid 72 corresponding to the selected placing stage 31 (S4) on the basis of the obtained selection data (S3).
The magnetized solenoid 72 allows the placing stage 31 to ascend by the push-up member 70 so that the stack of sticky note H of sticky note approaches the pick-up position. Then, since the lower stage 44 is separated from the tip of the detection sensor 80, the detection sensor 80 detects that the stack of sticky note H of sticky note is transferred to the pick-up position 48 (S5). Subsequently, the control unit 108 turns on (on and off) an indicator lamp 82 corresponding to the detection sensor 80 on the basis of the detection results (S6). As a result, the control unit 108 notifies a user that the desired placing stage 31 ascends, that is, the stack of sticky note H of sticky note approaches the pick-up position 48.
When the stack of sticky note H of sticky note approaches the pick-up position 48, printing is performed using the sticky note feed unit 22 and the printing unit 23. Then, when the printing is completed, the solenoid 72 is demagnetized so that the placing stage 31 descends (S7). When the placing stage 31 descends, the lower stage 44 comes in contact with the detection sensor 80. Accordingly, it is possible to detect that the stack of sticky note H of sticky note is transferred to the stand-by position 47 (S8). Then, the indicator lamp 82 corresponding to the placing stage 31 is turned off (S9). As a result, the control unit notifies a user that the placing stage 31 descends, that is, the stack of sticky note H of sticky note approaches the stand-by position 47. Therefore, when a user selects a desired placing stage 31 on the personal computer 3, the sticky note printer 2 can transfer the placing stage 31 that is selected by the user.
According to the above-mentioned structure, for example, three stacks of sticky note H of sticky note having a minimum width are placed on the placing stages 31, and the only desired sticky note H1 approaches the pick-up position 48 by the sticky note transfer unit 21. Accordingly, it is possible to peel a sticky note from a desired stack of sticky note H of sticky note and to print the sticky note. For this reason, since the stacks of sticky note H of sticky note do not need to be changed as in the related art, it is possible to improve working efficiency. Meanwhile, stack of sticky note H of sticky note have been used in the invention, but memo pads each having an adhesive at the fixed end face may be used instead of the stacks of sticky note H of sticky note. Further, the placing stages 31 have been translated in the invention, but the only free ends may be transferred to the pick-up position 48 while the fixed ends 91 of the stacks of sticky note H of sticky note are regulated at the stand-by position 47. In addition, the indicator lamps 82 have been provided in the sticky note printer 2, but a notification image indicating that the stacks of sticky note H of sticky note are transferred may be displayed on the display 8 of the personal computer 3, instead of the indicator lamps. Further, a desired placing stage 31 has been selected in the personal computer 3, but selection button may be provided in the sticky note printer 2 so as to select the stage.
Next, a first modification of the embodiment will be described with reference to
The three plate cams 130 are provided at a regular interval (with phase difference) in a circumferential direction of the rotary body 131. The plate cams 130 are provided at different positions in a width direction so as to come in contact with the push-up members 70. For this reason, the sticky note printer 2 has a structure in which one stage 31 of three placing stages 31 is transferred. Further, although not shown in drawings, it is preferable that the printer include detection sensors for detect that each of the plate cams 130 comes in contact with the push-up members 70 and control the driving motor 132 on the basis of the results detected by the detection sensors.
When a user selects one placing stage 31 from the three placing stages 31 through the personal computer 3, a control unit 108 drives the driving motor 132 so that a desired placing stage 31 is transferred. When the rotary body 131 is rotated by the driving motor 132, the plate cam 130 corresponding to the selected placing stage 31 comes in contact with the push-up member 70. Accordingly, the placing stage 31 ascends by the push-up member 70, and the stack of sticky note H of sticky note approaches the pick-up position 48. One stage is transferred even in the above-mentioned structure. However, a desired placing stage 31 of the three placing stages 31 is transferred, so that it is possible to allow a desired stack of sticky note H of sticky note to approach the pick-up position 48.
Next, a second modification of the embodiment will be described with reference to
When printing is performed on a desired stack of sticky note H of sticky note, a desired manual operation lever 150 of the three manual operation levers 150 is pushed down so that the placing stage 31 ascends. Then, printing is performed while the placing stage 31 ascends. After the printing is completed, the manual operation lever 150 returns back. A desired placing stage 31 is transferred even in the above-mentioned structure, so that it is possible to allow a desired stack of sticky note H of sticky note to approach the pick-up position 48. Further, in this case, it is preferable that the printer include lock and unlock mechanisms for maintaining the stacks of sticky note H of sticky note approaching the pick-up position 48.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2006-199028 | Jul 2006 | JP | national |
