The present invention relates to a tape cassette that is removeably installed in a tape printer.
Conventionally, when a box-shaped tape cassette is installed in a cassette housing portion of a tape printer, the tape cassette is vertically inserted such that that plane surfaces (that is, the top and bottom surfaces) of the tape cassette match the upwardly-opening cassette housing portion. More specifically, when a user vertically installs the box-shaped tape cassette having side surfaces with a certain height in the cassette housing portion, the user sandwiches the side surfaces with his or her fingers and maintains the plane surfaces substantially horizontal.
However, it may be difficult for the user to maintain the plane surfaces substantially horizontal at the installation of the tape cassette, due to the arrangement positions of a tape and an ink ribbon housed inside the tape cassette. In such a case, the tape cassette may be inserted in the cassette housing portion in an inclined state. If printing is performed while the inclined tape cassette is installed in the tape printer, a feeding failure of the tape or ink ribbon, or a printing failure of a print head may occur.
An object of the present invention is to provide a tape cassette that can be accurately and smoothly installed in and removed from a tape printer.
Exemplary embodiments herein provide a tape cassette that includes a generally rectangular box-like housing, a first and second cavities, at least one tape, and a third cavity. The generally rectangular box-like housing has a top wall, a bottom wall, and a side wall defining a periphery of the housing. The first and second cavities extend from the bottom wall and disposed between a tape containing area and the periphery at opposite ends of a diagonal of the generally rectangular box-like housing. The tape containing area is defined within the periphery, and the diagonal connects a first corner portion and a second corner portion of the generally rectangular box-like housing. The at least one tape is wound and mounted within the housing in the tape containing area. The at least one tape includes a first tape disposed in a first area. The first tape has a hole at a center of winding, and the first area is one of two areas formed by dividing the housing with respect to a line connecting the first and second cavities. The third cavity extends in the hole of the first tape from the bottom wall.
Exemplary embodiments of the present disclosure will be described below in detail with reference to the accompanying drawings in which:
Exemplary embodiments embodying the present invention will be described below with reference to the drawings. The configurations of the apparatuses, the flowcharts of various processing and the like described below and shown in the drawings are merely exemplary and do not intend to limit the present invention.
In the following explanation, the upper side, the lower side, the lower left side, the upper right side, the lower right side and the upper left side in
In actuality, a group of gears, including gears 91, 93, 94, 97, 98 and 101 shown in
A tape printer 1 and a tape cassette 30 according to a first embodiment will be explained below with reference to
First, an outline configuration of the tape printer 1 according to the first embodiment will be explained. Hereinafter, the tape printer 1 configured as a general purpose device will be explained as an example. As the general purpose device, the tape printer 1 may commonly use a plurality of types of tape cassettes 30 with various types of tapes. The types of the tape cassettes 30 may include a thermal type tape cassette 30 that houses a heat-sensitive paper tape only, a receptor type tape cassette 30 that houses a print tape and an ink ribbon, and a laminated type tape cassette 30 that houses a double-sided adhesive tape, a film tape and an ink ribbon.
As shown in
A discharge slit 9, from which the printed tape is discharged to the outside of the tape printer 1, is provided to the rear of the left side of the main unit cover 2. A discharge window 11 is formed on the left side face of the cassette cover 6 such that when the cassette cover 6 is in a closed state, the discharge slit 9 is exposed to the outside. Substantially at the center of the front face of the cassette cover 6, a hook-shaped latching lock 4, which projects downward from the lower surface of the cassette cover 6, is provided. The main unit cover 2 is provided with a lock hole 7 at a position corresponding to the latching lock 4, and the latching lock 4 is fitted and engaged with the lock hole 7 when the cassette cover 6 is closed, thereby preventing unintentional release of the cassette cover 6.
Next, an internal configuration within the main unit cover 2 will be explained with an emphasis on the cassette housing portion 8 with reference to
As shown in
In addition, the gear 94 is meshed with a gear 97, the gear 97 is meshed with a gear 98, and the gear 98 is meshed with a gear 101. A tape drive shaft 100 is standing upward on the upper surface of the gear 101. The tape drive shaft 100 has a substantially cylindrical shape, and drives to rotate a tape feed roller 46, which will be described later. The tape drive shaft 100 is provided with a plurality of cam members 100A extending from the base end of the shaft toward the leading end at the outer periphery to be radial in a plan view (refer to
If the tape feed motor 23 is driven to rotate in the counterclockwise direction in a state where the tape cassette 30 is installed in the cassette housing portion 8, the ribbon take-up shaft 95 is driven to rotate in the counterclockwise direction via the drive gear 91, the gear 93 and the gear 94. The ribbon take-up shaft 95 causes the ribbon take-up spool 44, which is fitted with the ribbon take-up shaft 95, to rotate. Furthermore, the rotation of the gear 94 is transmitted to the tape drive shaft 100 via the gear 97, the gear 98 and the gear 101, to thereby drive the tape drive shaft 100 to rotate in the clockwise direction. The tape drive shaft 100 causes the tape feed roller 46, which is fitted with the tape drive shaft 100 by insertion, to rotate.
Two positioning pins 102 and 103 are provided at the periphery of the cassette housing portion 8. The positioning pin 102 is provided at the left edge portion of the cassette housing portion 8 corresponding to a pin hole 53 described later formed in the bottom surface of the tape cassette 30. The positioning pin 102 defines a height position (a position in the vertical direction) and a horizontal position (a position in the horizontal direction) of the tape cassette 30 at the left edge side of the tape cassette 30 installed in the cassette housing portion 8. The positioning pin 103 is provided at the right edge portion of the cassette housing portion 8 corresponding to a common portion 32 described later positioned at the rear right side of the tape cassette 30. The positioning pin 103 defines the height position of the tape cassette 30 at the right edge side of the tape cassette 30 installed in the cassette housing portion 8.
A guide shaft 120 is standing upward at the rear right side of the cassette housing portion 8. The guide shaft 120 can be inserted in and removed from a guide hole 47, which will be described later. The guide shaft 120 is a substantially cylindrical shaft that includes two shaft portions having different diameters (a large-diameter shaft portion 120A and a small-diameter shaft portion 120B) and a taper portion 120C connecting the large-diameter shaft portion 120A and the small-diameter shaft portion 120B (refer to
The cassette housing portion 8 has an opening with a substantially rectangular shape in a plan view that substantially corresponds to the plan shape of a cassette case 31. The cassette housing portion 8 includes a cavity 8A and it cassette support portion 8B. The cavity 8A is formed as a depression that has a generally rectangular shape with rounded corners in a plan view that corresponds to the shape of a bottom surface of a cassette case 31. The cassette support portion 8B is a flat portion extending horizontally from the outer edge of the cavity 8A. The cassette support portion 8B opposes the lower surface of the common portion 32 of the tape cassette 30 installed in the cassette housing portion 8 (described later in detail).
As shown in
The positional relationships among the respective members standing upward in the cassette housing portion 8 will be explained with reference to
The tape drive shaft 100 is standing upward in a first shaft installation area 8C including a corner portion positioned on the front left side of the cassette housing portion 8. More specifically, nine areas can be formed if the cassette housing portion 8, which is substantially rectangular in a plan view, is divided into three parts in its front-rear direction and left-right direction, respectively. The first shaft installation area 8C is an area at the foremost and leftmost position among the nine areas. The first shaft installation area 8C is adjacent to the left side of the head holder 74 fixed on the center of the front portion of the cassette housing portion 8 and is positioned on the downstream side of the print position of the thermal head 10 in a tape feed direction described later.
The guide shaft 120 is standing upward in a second shaft installation area 8D including a corner portion positioned on the rear right side of the cassette housing portion 8. More specifically, the second shaft installation area 8D is an area at the rearmost and rightmost position among the nine areas described above. In other words, when the cassette housing portion 8 is seen in a plan view, the corner portion included in the second shaft installation area 8D is at a diagonal position with respect to the corner portion included in the first shaft installation area 8C.
When the cassette housing portion 8 is divided in a plan view with reference to the division line J connecting the tape drive shaft 100 and the guide shaft 120, two areas are formed. An area that occupies the part at the rear side of the division line 1 is a first installation area 8E. The other area that occupies the part at the front side of the division line J is a second installation area 8F. The auxiliary shaft 110 is standing upward in the first installation area 8E. More specifically, the auxiliary shaft 110 is positioned at the rear left side of the center of the cassette housing portion 8 in a plan view. The ribbon take-up shaft 95 is standing upward in the second installation area 8F. More specifically, the ribbon take-up shaft 95 is positioned at the front right side of the center of the cassette housing portion 8 in a plan view. The auxiliary shaft 110 and the ribbon take-up shaft 95 are positioned substantially symmetrically across the division line J in a plan view.
The positioning pin 102 is adjacently provided at the rear side of the tape drive shaft 100. The positioning pin 103 is adjacently provided at the front side of the guide shaft 120. The positioning pins 102 and 103 support the tape cassette 30 installed in the cassette housing portion 8 in the vicinity of the tape drive shaft 100 and the guide shaft 120, respectively.
The positional relationships in a plan view among the members standing upward in the cassette housing portion 8 are as described above. The height position from which each member is standing upward is different depending on whether it is standing from the cavity 8A or from the cassette support portion 81B. In other words, the members provided in the cassette support portion 8B (the guide shaft 120 and the positioning pins 102, 103) are standing upward from higher positions than the members provided in the cavity 8A (the ribbon take-up shaft 95, the tape drive shaft 100, the auxiliary shaft 110 and the head holder 74). The relationships in height among the members standing upward in the cassette housing portion 8 will be described later.
As shown in
A release lever (not shown in the figures), which moves in the left-right direction in response to the opening and closing of the cassette cover 6, is coupled to the platen holder 12. When the cassette cover 6 is opened, the release lever moves in the right direction, and the platen holder 12 moves toward a standby position shown in
When the cassette cover 6 is closed, the release lever moves in the left direction and the platen holder 12 moves toward a print position shown in
A feed path along which a printed tape is fed extends from a tape discharge aperture 49 to the discharge slit 9. A cutting mechanism 17 that cuts the printed tape at a predetermined position is provided on the feed path. The cutting mechanism 17 includes a fixed blade 18 and a movable blade 19 that opposes the fixed blade 18 and that is supported movably in the front-rear direction (in the vertical direction shown in
The configuration of the tape cassette 30 according to the first embodiment will be explained. Hereinafter, the tape cassette 30 configured as a general purpose cassette will be explained as an example. As the general purpose cassette, the tape cassette 30 may be assembled as the thermal type, the receptor type and the laminated type that have been explained above, by changing, as appropriate, the type of the tape to be mounted in the tape cassette 30 and by changing the presence or absence of the ink ribbon, and so on.
The general configuration of the tape cassette 30 will be explained with reference to
In other words, the cassette case 31 is a box-like housing that includes the top wall 35 and the bottom wall 36 which form rectangular planar portions oppositely arranged in the vertical direction, and the side wall 37 that is formed with a predetermined height over the outer edges of the top wall 35 and the bottom wall 36. In the cassette case 31, the entire peripheries of the top wall 35 and the bottom wall 36 may not have to be surrounded by the side wall 37 completely. A part of the side wall 37 (the rear wall, for example) may be provided with an opening that exposes the interior of the cassette case 31, or a boss that connects the top wall 35 and the bottom wall 36 may be provided at the opening. The vertical direction of the cassette case 31 (that is, the direction in which the top wall 35 and the bottom wall 36 oppose each other) substantially corresponds to a direction in which the tape cassette 30 is installed in and removed from the cassette housing portion 8 (that is, an installation/removal direction of the tape cassette 30).
The first tape support hole 65 is formed at the rear left side of the center of the tape cassette 30 in a plan view. The first tape support hole 65 rotatably supports the first tape spool 40 (refer to
The tape cassette 30 according to the first embodiment is assembled as a so-called thermal type tape cassette, in which the heat-sensitive paper tape 55 as a first tape is wound on the first tape spool 40. The thermal type tape cassette 30 does not include the second tape spool on which a second tape is wound, since another print medium does not need to be housed. Further, the thermal type tape cassette 30 does not include a ribbon spool on which an ink ribbon is wound, since no ink ribbon needs to be housed.
An arm portion 34 extends from the front right side of the tape cassette 30. The arm portion 34 is folded back at the right side at a right angle and extends toward the center of the tape cassette 30. The arm portion 34 guides an unused tape ad an unused ink ribbon, and supplies them to the head insertion portion 39 from the exit 34A provided at the leading end thereof. The head insertion portion 39 is a space surrounded by an inner wall of the arm portion 34 and a wall opposing the inner wall and extending through the cassette case 31 in the vertical direction. As shown in
An arm side wall 33, which is a front wall of the arm portion 34, is provided with the arm indicator portion 80. The arm indicator portion 80 is formed in a specified pattern in accordance with a type of the tape cassette 30 (tape width, tape type, etc., for example). The arm indicator portion 80 includes indicators that respectively correspond to the arm detecting switches 21. Each of the indicators is either one of a non-pressing portion 81 and a pressing portion 82. The non-pressing portion 81 is a switch hole through which a switch terminal can be inserted or removed. The pressing portion 82 is a surface portion through which a switch terminal cannot be inserted.
The roller support hole 64 is provided at the front left portion of the tape cassette 30. The tape feed roller 46 is rotatably supported inside the roller support hole 64. The tape feed roller 46 pulls out an unused tape in concert with the corresponding movable feed roller 14. A pair of regulating members 63 that matches in the vertical direction is provided on the upstream side of of the tape feed roller 46 in the tape feed direction. The regulating members 63 regulate the printed tape in a width direction of the tape on the downstream side of the thermal head 10 in the tape feed direction, and guide it toward the tape discharge aperture 49. The tape feed direction is a direction in which a tape mounted in the tape cassette 30 is fed within the cassette housing portion 8 when printing is performed in the tape printer 1.
As shown in
A guide wall 38 is standing upward in the vicinity of the regulating members 63. A separating wall 48 is standing upward between the guide wall 38 and the ribbon take-up spool 44. The above configurations fulfill their functions when the tape cassette 30 is of the laminated type (refer to
As shown in
The common portion 32 opposes the cassette support portion 8B within the cassette housing portion 8 when the tape cassette 30 is installed in the cassette housing portion 8. At this time, in the cassette housing portion 8, the cassette case 31 is fitted in the cavity 8A up to a predetermined height position from the bottom surface of the cassette case 31 (that is, up to the lower surface of the common portion 32). Thus, the common portion 32 is held at a same height position by the cassette support portion 8B regardless of the thickness (the length in the vertical direction of the cassette case 31) of the tape cassette 30.
More specifically, as shown in
Some portions of the tape cassette 30 will be explained in detail with reference to
As shown in
The bottom case 31B includes a cylindrical wall portion 85 having a cylindrical shape which extends upward from the opening 65B toward the top wall 35. A pair of slits 87, which are cuts extending in the vertical direction, is provided in the cylindrical wall portion 85. The slits 87 are provided at opposite positions across the center of the opening 65B in a plan view. A head portion 86 that closes an opening end of each slit 87 is provided at the upper end side of each slit 87 in the cylindrical wall portion 85. The corresponding latching rib 84 is engaged with each head portion 86 provided at the leading end of the cylindrical wall portion 85 via each slit 87 within the cassette case 31. The shaft hole 65C that extends through the cassette case 31 in the vertical direction connects the openings 65A and 65B inside the cylindrical wall portion 85.
The first tape spool 40 has a double-wall configuration with an internal wall 40A and an external wall 40B. The internal wall 40A is a cylindrical member, and has the inner diameter slightly larger than the outer diameter of the cylindrical wall portion 85. The internal wall 40A has a height that is smaller than the tape width of the print medium. A shaft hole 40D that extends through the internal wall 40A in the vertical direction is formed within the internal wall 40A. The external wall 40B is a cylindrical member that is provided outside the diameter of the internal wall 40A and surrounds the internal wall 40A along the entire periphery. The external wall 40B has substantially the same height as the tape width of the print medium. A first tape (the heat-sensitive paper tape 55 in the first embodiment) is wound on the outer periphery of the external wall 40B.
Connecting members 40C are provided radially from the center of the internal wall 40A and the external walls 40B in a plan view between the internal wall 40A and the external wall 40B. The connecting members 40C are plate-shaped members that are longer in the vertical direction. The first tape spool 40 is formed to have a double-cylinder configuration in which the internal wall 40A and the extemal wall 40B are coaxially connected by the connecting members 40C. The first tape spool 40 is supported by the cylindrical wall portion 85 inserted in the shaft hole 40D to be rotatable about its axis inside the cassette case 31. In the first tape spool 40, the opening width of the shaft hole 65C is substantially equal to or slightly larger than the diameter of the auxiliary shaft 110 in order to reduce looseness in the circumferential direction which may exist relative to the auxiliary shaft 110 inserted in the shaft hole 65C.
As shown in
Inside the cassette case 31, an upper end 44A of the ribbon take-up spool 44 is fitted in the opening 67A of the top wall 35, and a lower end 44B of the ribbon take-up spool 44 is fitted in the opening 67B of the bottom wall 36. The support portion 44E provided at the upper edge of the ribbon take-up spool 44 contacts with the top case 31A from below to regulate the movement of the ribbon take-up spool 44 in the upward direction. The support portion 44E provided at the lower edge of the ribbon take-up spool 44 contacts with the bottom case 31B from above to regulate the movement of the ribbon take-up spool 44 in the downward direction. Thus, the ribbon take-up spool 44 is supported at both ends 44A and 44B to be rotatable about its axis inside the cassette case 31.
A shaft hole 44C that extends in the vertical direction through the ribbon take-up spool 44 is formed inside the ribbon take-up spool 44. A plurality of latching ribs 44D are provided slightly below the center position in the vertical direction on the inner peripheral surface of the ribbon take-up spool 44 (that is, on the internal wall forming the shaft hole 44C). When the tape cassette 30 is installed in the cassette housing portion 8, the ribbon take-up shaft 95 described above is inserted in the shaft hole 44C via the opening 67B. Then, the latching ribs 44D provided in the ribbon take-up spool 44 are meshed with cam members 95A (refer to
As shown in
The tape feed roller 46 is formed in a cylindrical shape that has substantially the same height as the width (that is, the length in the vertical direction) of the cassette case 31. A main body 46E of the tape feed roller 46 has a larger diameter than the openings 64A and 64B and has a roller surface 46C. The roller surface 46C is an outer peripheral surface of the main body 46E that contacts the print medium. The length of the roller surface 46C in the vertical direction (that is, a tape feed width of the tape feed roller 46) is set to be the same as the tape width of the print medium. An upper end 46A and a lower end 46B respectively project in the upward and downward directions from the main body 46E of the tape feed roller 46. The upper end 46A and the lower end 46B have a slightly smaller diameter than the openings 64A and 64B. The shaft hole 46D that extends through the main body 46E in the vertical direction connects both ends 46A and 46B inside the tape feed roller 46.
Inside the cassette case 31, the upper end 46A is fitted in the opening 64A of the top wall 35, and the lower end 46B is fitted in the opening 64B of the bottom wall 36. The main body 46E contacts with the top case 31A from below to regulate the movement of the tape feed roller 46 in the upward direction, and contacts with the bottom case 31B from above to regulate the movement of the tape feed roller 46 in the downward direction. Thus, the tape feed roller 46 is supported at both ends 46A and 46B to be rotatable about its axis inside the cassette case 31.
As shown in
As shown in
As shown in
Similarly, the ribbon support hole 68 also includes a pair of openings 68A and 68B that are formed at positions opposing each other in the top wall 35 and the bottom wall 36, respectively. A pair of short cylindrical wall portions extends from the opening 68A and 68B toward each other inside the cassette case 31. The ribbon spool (not shown in the figures) is a cylindrical member having substantially the same height as the ribbon width of the ink ribbon, and is wound with an ink ribbon on its outer periphery surface. When the ink ribbon is mounted in the cassette case 31, the pair of short cylindrical wall portions extending from the openings 68A and 68B are respectively inserted in openings at both ends of the shaft hole which extends through the ribbon spool in the vertical direction. Thus, the ribbon spool is supported in the ribbon support hole 68 to be rotatable about the axial line inside the cassette case 31. The tape cassette 30 according to the first embodiment does not include the ribbon spool inside the cassette case 31.
The positional relationships among the respective portions provided in the tape cassette 30 according to the first embodiment will be explained with reference to
The roller support hole 64 is formed in a first hole forming area 30A including a corner portion positioned at the front left portion of the tape cassette 30. More specifically, nine areas can be formed if the tape cassette 30, which is substantially rectangular in a plan view, is divided into three parts in its front-rear direction and left-right direction, respectively. The first hole forming area 30A is an area at the foremost and leftmost position among the nine areas. The first hole forming area 30A is adjacent to the left side of the head insertion portion 39 provided at the center of the front portion of the tape cassette 30. In other words, the first hole forming area 30A is positioned on the downstream side of the head insertion portion 39 in the tape feed direction. Thus, when the tape cassette 30 is installed at a proper position in the cassette housing portion 8, the corner portion included in the first hole forming area 30A opposes the first shaft installation area 8C described above.
The guide hole 47 is formed in a second hole forming area 30B including a corner portion positioned at the rear right portion of the tape cassette 30. More specifically, the second hole forming area 30B is an area at the rearmost and rightmost position among the nine areas described above. In other words, when the tape cassette 30 is seen in a plan view, the corner portion included in the second hole forming area 30B is at a diagonal position with respect to the corner portion included in the first hole forming area 30A. Thus, when the tape cassette 30 is installed at a proper position in the cassette housing portion 8, the corner portion included in the second hole forming area 30B opposes the second shaft installation area 8D.
When the tape cassette 30 is divided in a plan view with reference to the division line K connecting the roller support hole 64 and the guide hole 47, two areas are formed. An area that occupies the part at the rear side of the division line K is a first housing area 30C. The other area that occupies the part at the front side of the division line K is a second housing area 30D. The first tape support hole 65 is formed at or in the vicinity of the center of gravity of the first housing area 30C forming a triangle shape in a plan view. The center of gravity of the first housing area 30C is the intersecting point of the three median lines of the triangular first housing area 30C. The take-up spool support hole 67 is formed at or in the vicinity of the center of gravity of the second housing area 30D forming a triangle shape in a plan view. The center of gravity of the second housing area 30D is the intersecting point of the three median lines of the triangular second housing area 30D. The first tape support hole 65 and the take-up spool support hole 67 are positioned substantially symmetrically across the division line K in a plan view.
The pin hole 53 that is indented upward at substantially the same depth as the height of the positioning pin 102 is formed adjacent to and at the rear side of the roller support hole 64 in the bottom case 31B. The tape cassette 30 installed in the cassette housing portion 8 is supported in the vicinity of the roller support hole 64 by the positioning pin 102 inserted in the pin hole 53, and is supported in the vicinity of the guide hole 47 by the positioning pin 103 contacting with the common portion 32.
The second tape support hole 66 is formed on the division line K in a plan view. More specifically, the second tape support hole 66 is positioned substantially at the middle between the center of the tape cassette 30 in a plan view and the guide hole 47. The ribbon support hole 68 is formed in the second housing area 30D. More specifically, the ribbon support hole 68 is positioned nearer to the front right side corner of the tape cassette 30 than the take-up spool support hole 67.
With the above positional relationships the weight distribution of the tape cassette 30 according to the first embodiment can be explained as follows. The first tape spool 40 is rotatably supported around the first tape support hole 65 inside the tape cassette 30, as described above. This means that at least the center of rotation of the first tape spool 40 (that is, the shaft hole 40D) exists within the first housing area 30C in a plan view. In other words, this means that the center of gravity of the first tape (the heat-sensitive paper tape 55) wound on the first tape spool 40 is positioned within the first housing area 30C in a plan view.
On the other hand, the tape cassette 30 according to the first embodiment does not include another print medium (second tape) or an ink ribbon. In other words, in the tape cassette 30, the first housing area 30C in which the center of gravity of the heat-sensitive paper tape 55 is positioned is heavier than the second housing area 30D. A user may vertically insert the tape cassette 30 having such a weight distribution in the cassette housing portion 8 while maintaining the top wall 35 and the bottom wall 36 substantially horizontal with the fingers sandwiching the side wall 37 at the right and left sides, for example. At this time, due to a weight imbalance of the tape cassette 30, the first housing area 30C may be inclined downward with the division line K as the center of rotation.
With the tape printer 1 and the tape cassette 30 described above, when the tape cassette 30 is installed in the cassette housing portion 8, the three guide shafts (the tape drive shaft 100, the guide shaft 120 and the auxiliary shaft 110) standing upward in the cassette housing portion 8 can be inserted in the three guide holes (the roller support hole 64, the guide hole 47 and the first support hole 65) provided in the tape cassette 30, respectively. Thus, the tape cassette 30 can be guided to a proper position in the cassette housing portion 8. The installation/removal modes of the tape cassette 30 with respect to the cassette housing portion 8 will be described below in detail.
When the tape cassette 30 is installed at a proper position in the cassette housing portion 8, the tape drive shaft 100 is fitted in the tape feed roller 46 by insertion, and the ribbon take-up shaft 95 is fitted in the ribbon take-up spool 44 by insertion. Then, when the cassette cover 6 is closed, the platen holder 12 moves toward the print position, so that the platen roller 15 opposes the thermal head 10, and the movable feed roller 14 presses the tape feed roller 46. Thus, the tape printer 1 is in a state in which printing can be performed on the print medium.
When the platen holder 12 moves from the standby position toward the print position, the switch portion 20 provided in the platen holder 12 opposes the arm indicator portion 80 provided in the tape cassette 30. At this time, if the tape cassette 30 is installed at the proper position of the cassette housing portion 8, each of the detecting switches 21 enters an ON state or an OFF state, depending on a pattern of the indicators (the non-pressing portion 81 and the pressing portion 82) included in the arm indicator portion 80. More specifically, the detecting switch 21 that opposes the non-pressing portion 81 is inserted in the non-pressing portion 81 to enter the OFF state. The detecting switch 21 that opposes the pressing portion 82 is pressed by the pressing portion 82 to enter the ON state.
In the tape printer 1, the information on the tape cassette 30 is obtained based on a combination of the ON and OFF states of the detecting switches 21. The tape cassette 30 according to the first embodiment is a general purpose cassette that can be assembled as various types, but is actually assembled as a thermal type tape cassette that houses only the heat-sensitive paper tape 55 as the print medium. Thus, in the tape printer 1, “thermal type with tape width of 36 mm” is detected as a type of the tape cassette 30, for example, based on the detection result in the switch portion 20.
In the first embodiment, while printing is being performed in the tape printer 1, the tape feed roller 46 that is driven to rotate via the tape drive shaft 100 pulls out the heat-sensitive paper tape 55 from the first tape spool 40 in concert with the movable feed roller 14. The heat-sensitive paper tape 55 that has been pulled out from the first tape spool 40 passes the right side of the ribbon support hole 68 to be fed along the feed path within the arm portion 34. Further, the heat-sensitive paper tape 55 is supplied from the exit 34A of the arm portion 34 to the head insertion portion 39 to be fed between the thermal head 10 and the platen roller 15. Then, characters are printed onto the print surface of the heat-sensitive paper tape 55 by the thermal head 10. Following that, the printed heat-sensitive paper tape 55 is further fed toward the tape discharge aperture 49 by the tape feed roller 46 in concert with the movable feed roller 14, and is cut by the cutting mechanism 17.
While the printing is being performed, the ribbon take-up spool 44 is also driven to rotate via the ribbon take-up shaft 95. However, the tape cassette 30 according to the first embodiment does not include a ribbon spool in the cassette case 31. For that reason, the ribbon take-up spool 44 does not pull out the unused ink ribbon, nor does it take up the used ink ribbon. In other words, even when the thermal type tape cassette 30 is used in the tape printer 1 that is equipped with the ribbon take-up shaft 95, the rotation drive of the ribbon take-up shaft 95 does not have an influence on the printing operation onto the heat-sensitive paper tape 55 and printing can be correctly performed. In the above tape cassette 30, the ribbon take-up spool 44 may not be provided and the ribbon take-up shaft 95 may perform idle running inside the take-up spool support hole 67 in a similar manner.
The installation/removal modes of the tape cassette 30 with respect to the cassette housing portion 8 according to the first embodiment will be described with reference to
The relationships in the vertical direction among the respective members standing upward in the cassette housing portion 8 will be explained. In the first embodiment, the head holder 74, the tape drive shaft 100, the ribbon take-up shaft 95, the auxiliary shaft 110 and the guide shaft 120 each have a height (lengths in the vertical direction) at least larger than the height T of the common portion 32. Three guide shafts (the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120) among the shafts have a substantially same height. In addition, the height of each of the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120 is longer than the height of the ribbon take-up shaft 95 and the height of the head holder 74.
For that reason, in a state in which the head holder 74, the tape drive shall 100, the ribbon take-up shaft 95 and the auxiliary shaft 110 are standing upward, with reference to the height position on the planar portion of the cavity 8A, the height positions of the upper ends of the tape drive shaft 100 and the auxiliary shaft 110 are the highest. The height position of the upper end of the head holder 74 is the second highest. The height position of the upper end of the ribbon take-up shaft 95 is the lowest. The height position of the upper end of the ribbon take-up shaft 95 is substantially the same as the height position of the upper end of the thermal head 10 fixed to the head holder 74.
The guide shaft 120 is standing upward on the cassette support portion 8B positioned above the cavity 8A, as described above. The upper end of the guide shaft 120 is at a height position higher than the upper end of any of the head holder 74, the tape drive shaft 100, the ribbon take-up shaft 95 and the auxiliary shaft 110. The height (the length in the vertical direction) from each upper end of the tape drive shaft 100 and the auxiliary shaft 110 to the upper end of the guide shaft 120 is substantially equal to the height (the length in the vertical direction) from the lower surface of the bottom wall 36 of the tape cassette 30 to the lower surface of the common portion 32. In other words, the thickness of the tape cassette 30 is made smaller due to the common portion 32 formed like steps, and thus the guide shaft 120 correspondingly extends above the height positions of the tape drive shaft 100 and the auxiliary shaft 110.
As shown in
When the tape cassette 30 is moved further down from the state shown in
The upper edges of the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120 are tapered such that the diameters become smaller toward the upper ends. For that reason, even when the roller support hole 64, the first tape support hole 65 and the guide hole 47 are slightly offset in the relative positions in a plan view, the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120 can be inserted in the respective holes correctly and smoothly. In addition, the diameter of the tape drive shaft 100 is slightly smaller than the opening width of the tape feed roller 46 (the shaft hole 46D). Therefore, even if the horizontal position of the tape feed roller 46 is slightly changed within the roller support hole 64 due to vibration, inclination or the like, the tape drive shaft 100 can be smoothly inserted therein.
Further, as described above, the opening width of the guide hole 47 is larger than the diameter of the leading end of the guide shaft 120 (the small-diameter shaft portion 120B described above) and particularly the opening width in the left-right direction thereof is larger than the opening width in the front-rear direction. Thus, when the tape cassette 30 is installed, the guide shaft 120 can be inserted in the guide hole 47 even if the relative position of the guide hole 47 with respect to the guide shaft 120 is slightly offset in the left-right direction in a plan view.
With above-described configuration, the holes (the roller support hole 64, the first tape support hole 65, and the guide hole 47) of the tape cassette 30 do not need to be accurately positioned corresponding to the three guide shafts (the tape drive shaft 100, the auxiliary shaft 110, and the guide shaft 120) provided in the cassette housing portion 8. Therefore, the user's load can be reduced at the installation of the tape cassette 30. A high-level dimensional accuracy may be required for a worker in order to completely match the dimensional widths of the roller support hole 64 and the guide hole 47 with the dimensional widths of the tape drive shaft 100 and the guide shaft 120 when the tape cassette 30 is manufactured. In that respect, by giving looseness in the left-right direction in the guide hole 47, a slight error of the dimensional accuracy in forming the guide hole 47 may be acceptable. Therefore, the worker's load at the time of manufacturing the tape cassette 30 can be also reduced.
As the tape cassette 30 is guided downward, the head holder 74 having the thermal head 10 is inserted in the head insertion portion 39 from below, and the ribbon take-up shaft 95 is inserted in the shaft hole 44C via the opening 67B from below. As described above, since looseness is given in the head insertion portion 39 even if the head holder 74 is installed therein, the head holder 74 enters the loosely inserted state in which the head holder 74 can be displaced within the head insertion portion 39 in the front-rear direction and the left-right direction. In addition, since the opening width of the ribbon take-up spool 44 (the shaft hole 44C) is larger than the diameter of the ribbon take-up shaft 95, the ribbon take-up shaft 95 enters the loosely inserted state in which the ribbon take-up shaft 95 can displace within the ribbon take-up spool 44 in the circumferential direction.
As shown in
At the same time, the base end side (the large-diameter shaft portion 120A described above) of the guide shaft 120 is fitted in the guide hole 47 (the shaft hole 47C) while being guided along the taper portion 120C. As described above, since the diameter of the large-diameter shaft portion 120A is substantially equal to the opening width of the guide hole 47, the large-diameter shaft portion 120A is tightly engaged with the guide hole 47 in the front-rear direction. Consequently, the guide shaft 120 is regulated in its displacement in the circumferential direction (particularly, in the front-tear direction) of the guide shaft 120. In addition, the positioning pin 102 is engaged within the pin hole 53 and is regulated in its displacement in the circumferential direction of the positioning pin 102. In other words, the horizontal position of the tape cassette 30 installed in the cassette housing portion 8 is defined at the horizontal position at which the tape cassette 30 is engaged by the guide shaft 120 and the positioning pin 102.
Printing by the thermal head 10 is performed in the direction perpendicular to the tape feed direction (i.e. the front-rear direction of the tape cassette 30). For that reason, it may be preferable that the installation position of the tape cassette 30 in the front-rear direction is accurately defined in order to prevent an offset of a printing position on the tape. On the other hand, even if the installation position of the tape cassette 30 is slightly offset along the tape feed direction (the left-right direction of the tape cassette 30), the offset may not have a large influence on the print quality. Since slight looseness is given around the large-diameter shaft portion 120A in the left-right direction when the guide shaft 120 is inserted in the guide hole 47 according to the first embodiment, the tape cassette 30 may be smoothly installed and removed while maintaining the print quality.
In this way, in the first embodiment, the tape cassette 30 is guided downward to a proper position in the cassette housing portion 8 by the three guide shafts (the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120). Then, the tape cassette 30 is positioned at a proper horizontal position by the guide shaft 120 and the positioning pin 102, and is positioned at a proper height position by the positioning pins 102 and 103. As shown in
When the tape cassette 30 is removed from the cassette housing portion 8, the user may pull out the tape cassette 30 upward from the cassette housing portion 8 with the fingers sandwiching the side wall 37 at both the right and left sides. Also at this time, the tape cassette 30 is guided in the upward direction by the three guide shafts (the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120). Thus, the tape cassette 30 may be less likely to be inclined and caught at an internal wall and the like of the cassette housing portion 8 while the tape cassette 30 is removed from the cassette housing portion 8.
The tape cassette 30 according to the first embodiment has a weight distribution such that the first housing area 30C may be inclined downward. Therefore, the first housing area 30C is provided with the first tape support hole 65 that passes through the center of gravity of the first tape (the heat-sensitive paper tape 55), and the tape printer 1 is provided with the auxiliary shaft 110 to be inserted in the first tape support hole 65. When the tape cassette 30 is installed or removed, the first housing area 30C, which may cause a raised or inclined state of the tape cassette 30 inside the cassette housing portion 8, is guided in the vertical direction by the auxiliary shaft 110 inserted in the first tape support hole 65. For that reason, the raised or inclined state of the tape cassette 30 due to a downward inclination of the first housing area 30C may be restricted when the tape cassette 30 is installed.
In the first embodiment, the tape cassette 30 is guided in the vertical direction at the three points, that is, a pair of corner portions on a diagonal of the tape cassette 30 (specifically, the roller support hole 64 and the guide hole 47) and the center of gravity of the first tape (specifically, the first tape support hole 65) in a plan view. For that reason, a positional displacement or an inclination may be appropriately prevented when the tape cassette 30 is installed in the cassette housing portion 8. It may be preferable that the center of gravity of the entire tape cassette 30 is positioned within an area defined by connecting the roller support hole 64, the first tape support hole 65 and the guide hole 47 in a plan view. In such a case, the own weight of the tape cassette 30 is uniformly distributed to and acts on the three points, that is, the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120, by which the tape cassette 30 is guided. Then, the tape cassette 30 can smoothly move in the installation/removal direction and the positional displacement or the inclination may be more reliably prevented in the process of the installation of the tape cassette 30.
The tape cassette 30 has four corner portions in a plan view. While the tape cassette 30 is installed or removed, the tape cassette 30 is guided at least at two points, that is, the front left corner portion at which the roller support hole 64 is provided and the rear right corner portion which is diagonal to the front left corner portion and at which the guide hole 47 is provided. At and in the vicinity of the front left corner portion of the tape cassette 30, tape feeding is performed by the tape feed roller 46 and printing is performed by the thermal head 10. In addition, the tape is exposed to the outside from the cassette case 31 for tape feeding and printing. For that reason, the positioning of the tape cassette 30 at the front left corner portion may have a large influence on the print quality or tape feeding. In order to perform tape feeding by the tape feed roller 46, the tape drive shaft 100 that rotates the tape feed roller 46 is used.
Considering the above-described conditions, with the configuration in which the tape cassette 30 is guided in the installation/removal direction at the front left corner portion, the tape cassette 30 may be accurately positioned in the vicinity of the position at which the tape feeding and printing is performed. This configuration may also prevent a failure (that is, a so-called jam) in which the tape exposed to the outside tangles with other members in the installation process of the tape cassette 30. If the tape drive shaft 100 is utilized as one of guide shafts, as in the first embodiment, an additional shaft that guides the front left corner portion of the tape cassette 30 does not need to be separately provided. Therefore, the configuration of the tape printer 1 may be simplified. Further, with the configuration in which the tape cassette 30 is additionally guided at the rear right corner portion in the installation/removal direction, the tape cassette 30 may be stably guided in the installation/removal direction at the diagonal corner portions, which make the largest distance between two points in the tape cassette 30 in a plan view.
When the tape cassette 30 is installed at the proper position, the division line J and the division line K substantially match with each other in a plan view (refer to
In the first embodiment, the general purpose cassette assembled as the thermal type tape cassette 30 is used in the general purpose tape printer 1. Thus, a single tape printer 1 can be used with various types of the tape cassette 30 such as the thermal type, the receptor type and the laminated type. In other words, it may not be necessary to use the different tape printer for each type. Furthermore, when the tape cassette is manufactured, the cassette case is normally formed by injecting plastic into a plurality of combined dies. In the case of the tape cassettes that correspond to the same tape width, common dies can be used except for the die including the portion that forms the arm indicator portion 80. Thus, costs may be significantly reduced. When a thermal type tape cassette is assembled considering the above advantages, it may be effective that the long heat-sensitive paper tape 55 is wound on the first tape spool 40 and housed in the general purpose cassette case, as in the first embodiment.
In the first embodiment, the thermal type tape cassette 30 formed from a general purpose cassette is used in the general purpose tape printer 1. However, a dedicated tape cassette for the thermal type may be configured, or the tape cassette 30 of the first embodiment may be used in a dedicated tape printer for the thermal type.
For example, as shown in
As shown in
Even when such a configuration is employed, the tape cassette 30 may be installed in and removed from the tape printer 1 in a similar manner as described above. Specifically, the three guide shafts (the tape drive shaft 100, the guide shaft 120 and the auxiliary shaft 110) are inserted in the three corresponding guide holes (the roller support hole 64, the guide hole 47 and the first tape support hole 65), respectively, so that the tape cassette 30 is guided to a proper position of the cassette housing portion 8 (refer to
In the dedicated tape cassette 30 for the thermal type shown in
In the first embodiment, the auxiliary shaft 110 that has a slightly smaller diameter than the opening width of the shaft hole 65C is inserted or removed at the center of the opening of the shaft hole 65C of the first tape support hole 65 in a plan view (refer to
For example, the auxiliary shaft 110 shown in
When the tape cassette 30 is guided along the two guide shafts (the tape drive shaft 100 and the guide shaft 120), a direction in which the tape cassette 30 is likely to incline during the installation/removal is a direction F (one-dot chain line in
In other words, the auxiliary shaft 110 shown in
The tape printer 1 and the tape cassette 30 according to a second embodiment will be explained with reference to
As shown in
As shown in
In the tape printer 1 and the tape cassette 30 described above, when printing is performed in the tape printer 1, the tape feed roller 46 that is driven to rotate via the tape drive shaft 100 pulls out the print tape 57 from the first tape spool 40 in concert with the movable feed roller 14. Further, the ribbon take-up spool 44, which is driven to rotate via the ribbon take-up shaft 95, pulls out an unused ink ribbon 60 from the ribbon spool 42 in synchronization with the print speed.
The print tape 57 that has been pulled out from the first tape spool 40 passes the right side of the ribbon support hole 68i to be fed along the feed path within the arm portion 34. The print tape 57 is supplied from the exit 34A to the head insertion portion 39 in a state in which the ink ribbon 60 is joined to the surface of the print tape 57. The print tape 57 is fed between the thermal head 10 and the platen roller 15 of the tape printer 1. Then, characters are printed on the print surface of the print tape 57 by the thermal head 10. Thereafter, the used ink ribbon 60 is peeled off from the printed print tape 57 at the guide wall 38 and is taken up on the ribbon take-up spool 44. On the other hand, the printed print tape 57 is further fed toward the tape discharge aperture 49, discharged from the discharge aperture 49, and cut by the cutting mechanism 17.
As shown in
With the above positional relationships, in the tape cassette 30 according to the second embodiment, the weights of the first housing area 30C and the second housing area 30D defined by the division line K are close to each other. A user may vertically insert the tape cassette 30 having such a weight distribution in the cassette housing portion 8, while maintaining the top wall 35 and the bottom wall 36 substantially horizontal with the fingers sandwiching the side wall 37 at both the right and left sides. At this time, weight imbalance in the tape cassette 30 is little so that the tape cassette 30 may be prevented from inclining with the division line K as the center of rotation. Although the print tape 57 is generally heavier than the ink ribbon 60, the difference in weight between the first housing area 30C and the second housing area 301) becomes much smaller due to the weight of the ribbon take-up spool 44 housed in the second housing area 30D. In other words, the weight imbalance of the tape cassette 30 is reduced.
The installation/removal modes of the tape cassette 30 with respect to the cassette housing portion 8 according to the second embodiment will be explained with reference to
When the user installs the tape cassette 30 in the cassette housing portion 8, the user positions the tape cassette 30 such that the relative positions in a plan view of the roller support hole 64 and the guide hole 47 substantially match those of the tape drive shaft 100 and the guide shaft 120, respectively. Then, the user vertically inserts the tape cassette 30 in the cassette housing portion 8, while maintaining the top wall 35 and the bottom wall 36 substantially horizontal, as described above. When the tape cassette 30 is moved down toward the cassette housing portion 8, as shown in
When the tape cassette 30 is moved further down from the state shown in
As shown in
The guide hole 47 according to the second embodiment has an ellipse-shaped opening having a long diameter (major axis) in the left-right direction and a short diameter (minor axis) in the front-rear direction in a plan view. The diameters (the major axis and the minor axis) of the guide hole 47 are both larger than the diameter of the small-diameter shaft portion 120B of the guide shaft 120. The opening width of the guide hole 47 in the left-right direction is larger than the opening width in the front-rear direction. Since a length of the minor axis of the guide hole 47 is substantially equal to the diameter of the large-diameter shaft portion 120A of the guide shaft 120, the guide shaft 120 is inserted in the guide hole 47 to be tightly engaged with the large-diameter shaft portion 120A in the front-rear direction while looseness is allowed in the left-right direction of the large-diameter shaft portion 120A. Thus, similar to the first embodiment, the corresponding holes (the roller hole 64 and the guide hole 47) of the tape cassette 30 do not need to be accurately positioned with respect to all the two guide shafts (the tape drive shaft 100 and the guide shaft 120) provided in the cassette housing portion 8. Thus, the user's load may be reduced when the user installs the tape cassette 30. Further, the tape cassette 30 can be smoothly installed and removed while maintaining the print quality.
The tape cassette 30 according to the second embodiment has a weight distribution such that the weights of the first housing area 30C and the second housing area 30D are close to each other. For that reason, an inclination due to the own weight of the tape cassette 30 may be less likely to occur in the process of the installation of the tape cassette 30 in the cassette housing portion 8. Thus, even when the auxiliary shaft 110 is not provided, unlike the first embodiment, the tape cassette 30 may be guided to a proper position in the cassette housing portion 8 by the two guide shafts (the tape drive shaft 100 and the guide shaft 120).
Furthermore, the tape cassette 30 is guided in the vertical direction at the two points, that is, a pair of corner portions on a diagonal of the tape cassette 30 (specifically, the roller support hole 64 and the guide hole 47) in a plan view. In other words, the tape cassette 30 is guided in the installation/removal direction about the division line K that passes between the center of gravity of the print tape 57 and the center of gravity of the ink ribbon 60. For that reason, a positional displacement or an inclination may be appropriately prevented when the tape cassette 30 is installed in the cassette housing portion 8.
In the second embodiment, the receptor type tape cassette 30 formed from a general purpose cassette is used in the general purpose tape printer 1. However, a dedicated tape cassette for the receptor type may be configured, or the tape cassette 30 of the second embodiment may be used in a dedicated tape printer for the receptor type.
For example, as shown in
Moreover, since the tape printer 1 according to the second embodiment does not include the auxiliary shaft 110, the first tape support hole 65 in which the auxiliary shaft 110 is to be inserted may not be provided in the tape cassette 30. For example, as shown in
Also with such a configuration, the tape cassette 30 can be installed in and removed from the tape printer 1 in a similar manner as in the second embodiment. Specifically, the two guide shafts (the tape drive shaft 100 and the guide shaft 120) are inserted in the two corresponding guide holes (the roller support hole 64 and the guide hole 47), respectively, so that the tape cassette 30 is guided to a proper position in the cassette housing portion 8 (refer to
In the second embodiment, the weight distribution of the tape cassette 30 is adjusted with the configuration in which the center of gravity of the print tape 57 is positioned in the first housing area 30C and the center of gravity of the ink ribbon 60 is positioned in the second housing area 30D. However, the weight of the print tape 57 varies depending on a thickness of the tape or of a material of the tape. For example, when the print tape 57 that is heavy due to its material nature or the like is used, the center of gravity of the tape cassette 30 may not be positioned on the line connecting the two guide holes (the roller support hole 64 and the guide hole 47), and may shift toward the side of the first housing area 30C.
In this case, as shown in
The tape printer 1 and the tape cassette 30 according to a third embodiment will be explained with reference to
As shown in
The tape cassette 30 according to the third embodiment is a general purpose cassette that can be assembled as various types, similar to the tape cassette 30 according to the first embodiment (refer to
In the tape printer 1 and the tape cassette 30 explained above, printing is performed on the heat-sensitive paper tape 55 similar to the first embodiment. However, the heat-sensitive paper tape 55 is pulled out from the second tape spool 41, unlike the first embodiment.
As shown in
With the above positional relationships, in the tape cassette 30 according to the third embodiment, the center of gravity of the entire tape cassette 30 is positioned on or in the vicinity of the division line K in a plan view. The user may vertically insert the tape cassette 30 having such a weight distribution in the cassette housing portion 8 while maintaining the top wall 35 and the bottom wall 36 substantially horizontal with the fingers sandwiching the side wall 37 at both the right and left sides. At this time, since the center of gravity of the tape cassette 30 is positioned on or in the vicinity of the division line K, the tape cassette 30 may be prevented from inclining with the division line K as the center of rotation.
The installation/removal modes of the tape cassette 30 with respect to the cassette housing portion 8 according to the third embodiment are similar to those in the second embodiment (refer to
The guide hole 47 according to the third embodiment has a circular opening in a plan view, and its opening width is larger than the diameter of the small-diameter shaft portion 120B of the guide shaft 120. For that reason, similar to the first embodiment, the corresponding holes (the roller support hole 64 and the guide hole 47) of the tape cassette 30 do not need to be accurately positioned with respect to all the two guide shafts (the tape drive shaft 100 and the guide shaft 120) provided in the cassette housing portion 8. Therefore, the user's load may be reduced at the installation of the tape cassette 30. The diameter of the guide hole 47 according to the third embodiment is substantially equal to the diameter of the large-diameter shaft portion 120A of the guide shaft 120. For that reason, when the guide shaft 120 is inserted in the guide hole 47, the large-diameter shaft portion 120A is tightly engaged in all the circumferential directions of the guide hole 47. Therefore, the tape cassette 30 installed in the cassette housing portion 8 may be more accurately positioned at a proper horizontal position.
The tape cassette 30 according to the third embodiment has a weight distribution such that the center of gravity of the tape cassette 30 is on or in the vicinity of the division line K in a plan view. For that reason, an inclination due to the own weight of the tape cassette 30 may be less likely to occur in the process of the installation of the tape cassette 30 in the cassette housing portion 8. Thus, even when the auxiliary shaft 110 is not provided unlike the first embodiment, the tape cassette 30 may be guided to the proper position in the cassette housing portion 8 by the two guide shafts (the tape drive shaft 100 and the guide shaft 120).
Further, the tape cassette 30 is guided in the vertical direction at the two points, that is, a pair of corner portions on a diagonal of the tape cassette 30 (specifically, the roller support hole 64 and the guide hole 47) in a plan view. In other words, the tape cassette 30 is guided in the installation/removal direction about the division line K that passes through or in the vicinity of the center of gravity of the heat-sensitive paper tape 55. For that reason, a positional displacement or an inclination may be appropriately prevented when the tape cassette 30 is installed in the cassette housing portion 8.
In the third embodiment, the thermal type tape cassette 30 formed from a general purpose cassette is used in the general purpose tape printer 1. However, a dedicated tape cassette for the thermal type may be configured, or the tape cassette 30 of the third embodiment may be used in a dedicated tape printer for the thermal type.
For example, as shown in
As shown in
Also with such a configuration, the tape cassette 30 may be installed in and removed from the tape printer 1 in a similar manner as above. In other words, as shown in
The tape printer 1 and the tape cassette 30 according to a fourth embodiment will be explained with reference to
As shown in
The tape cassette 30 according to the fourth embodiment is a general purpose cassette that can be assembled as various types, similar to the tape cassette 30 according to the first embodiment (refer to
In the tape printer 1 and the tape cassette 30 according to the fourth embodiment, when printing is performed in the tape printer 1, the tape feed roller 46 that is driven to rotate via the tape drive shaft 100 pulls out the film tape 59 from the second tape spool 41 in concert with the movable feed roller 14. Further, the ribbon take-up spool 44, which is driven to rotate via the ribbon take-up shaft 95, pulls out the unused ink ribbon 60 from the ribbon spool 42 in synchronization with the print speed.
The film tape 59 that has been pulled out from the second tape spool 41 passes the right side of the ribbon support hole 68 to be fed along the feed path within the arm portion 34. Further, the film tape 59 is supplied from the exit 34A to the head insertion portion 39 in a state in which the ink ribbon 60 is joined to the surface of the film tape 59. The film tape 59 and the ink ribbon 60 are fed between the thermal head 10 and the platen roller 15 of the tape printer 1. Then, characters are printed onto the print surface of the film tape 59 by the thermal head 10. Thereafter, the used ink ribbon 60 is peeled off from the printed film tape 59 at the guide wall 38, and is wound onto the ribbon take-up spool 44.
Meanwhile, the double-sided adhesive tape 58 is pulled out from the first tape spool 40 in concert with the tape feed roller 46 and the movable feed roller 14. While being guided and caught between the tape feed roller 46 and the movable feed roller 14, the double-sided adhesive tape 58 is layered onto and affixed to the print surface of the printed film tape 59. The printed film tape 59 to which the double-sided adhesive tape 58 has been affixed (that is, the printed tape 50) is further fed toward the tape discharge aperture 49, discharged from the discharge aperture 49, and cut by the cutting mechanism 17.
As shown in
On the other hand, the ribbon spool 42 on which the unused ink ribbon 60 is wound is rotatably supported by the ribbon support hole 68. The ribbon take-up spool 44 on which the used ink ribbon 60 is wound is rotatably supported by the take-up spool support hole 67. For that reason, the center of gravity of the ink ribbon 60 is positioned within the second housing area 30D in a plan view. The second tape spool 41 an which the film tape 59 is wound is rotatably supported by the second tape support hole 66. For that reason, the center of gravity of the film tape 59 is positioned on the division line K in a plan view.
With the above positional relationships, in the tape cassette 30 according to the fourth embodiment, the weights of the first housing area 30C and the second housing area 30D defined by the division line K are close to each other. Further, the center of gravity of the entire tape cassette 30 is positioned on or in the vicinity of the division line K in a plan view. The user may vertically insert the tape cassette 30 having such a weight distribution in the cassette housing portion 8 while maintaining the top wall 35 and the bottom wall 36 substantially horizontal with the fingers sandwiching the side wall 37 at both the right and left sides.
At this time, since an weight imbalance in the tape cassette 30 is little, and additionally the center of gravity of the tape cassette 30 is positioned on or in the vicinity of the division line K, the tape cassette 30 may be prevented from inclining with the division line K as the center of rotation. Further, although the double-sided adhesive tape 58 is generally heavier than the ink ribbon 60, the difference in weight between the first housing area 30C and the second housing area 30D becomes much smaller due to the weight of the ribbon take-up spool 44 (that is, the weight imbalance of the tape cassette 30 can be reduced with the ribbon take-up spool 44).
The installation/removal modes of the tape cassette 30 with respect to the cassette housing portion 8 according to the fourth embodiment is similar to the second embodiment (refer to
The guide hole 47 according to the fourth embodiment has a substantially rectangular opening with rounded four corners in a plan view. The opening width of the guide hole 47 in the left-right direction is larger than the opening width in the front-rear direction in a plan view. The both opening widths of the guide hole 47 in the front-rear direction and the left-right direction are larger than the diameter of the small-diameter shaft portion 120B of the guide shaft 120. The opening width in the left-right direction is larger than the opening width in the front-rear direction. The opening width of the guide hole 47 in the front-rear direction is substantially equal to the diameter of the large-diameter shaft portion 120A of the guide shaft 120. Therefore, the guide shaft 120 is inserted with the large-diameter shaft portion 120A to be tightly engaged in the front-rear direction and looseness is allowed in the left-right direction of the large-diameter shaft portion 120A.
Thus, similar to the first embodiment, the corresponding holes (the roller support hole 64 and the guide hole 47) of the tape cassette 30 do not need to be accurately positioned with respect to all the two guide shafts (the tape drive shaft 100 and the guide shaft 120) provided in the cassette housing portion 8. Therefore, the user's load may be reduced at the installation of the tape cassette 30. Further, the tape cassette 30 can be smoothly installed and removed while maintaining the print quality.
The tape cassette 30 according to the fourth embodiment has a weight distribution such that the weights of the first housing area 30C and the second housing area 30D are close to each other, and the center of gravity of the tape cassette 30 is positioned on or in the vicinity of the division line K in a plan view. For that reason, an inclination due to the own weight of the tape cassette 30 may be less likely to occur in the process of the installation of the tape cassette 30 in the cassette housing portion 8. Thus, even when the auxiliary shaft 110 is not provided, unlike the first embodiment, the tape cassette 30 may be guided to the proper position of the cassette housing portion 8 by the two guide shafts (the tape drive shaft 100 and the guide shaft 120).
Further, the tape cassette 30 is guided in the vertical direction at two points, that is, a pair of corner portions (specifically, the roller support hole 64 and the guide hole 47) on the diagonal of the tape cassette 30 in a plan view. In other words, the tape cassette 30 is guided in the installation/removal direction about the division line K that passes between the center of gravity of the double-sided adhesive tape 58 and the center of gravity of the ink ribbon 60 and that passes through or in the vicinity of the center of gravity of the film tape 59. For that reason, a positional displacement or an inclination may be appropriately prevented when the tape cassette 30 is installed in the cassette housing portion 8.
In the fourth embodiment, the laminated type tape cassette 30 formed from a general purpose cassette is used in the tape printer 1 including the two guide shafts. However, the tape cassette 30 according to the fourth embodiment may be installed in the tape printer 1 including the three guide shafts according to the first embodiment, for example. In this case, similar to the first embodiment, the three guide shafts (the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120) are inserted in the three corresponding guide holes (the roller support hole 64, the first tape support hole 65 and the guide hole 47), respectively, so that the tape cassette 30 is guided to the proper position in the cassette housing portion 8 (refer to
In the first to fourth embodiments described above, the examples in which the present invention is applied to various types of tape cassettes 30 and tape printers 1 have been individually explained. The elements commonly employed in the tape cassettes 30 and the tape printers 1 exemplified in the first to fourth embodiments are explained below.
Each of the tape cassettes 30 according to the first to fourth embodiment includes a box-shaped housing (the cassette case 31) having a generally rectangular shape. The cassette case 31 includes the top wall 35, the bottom wall 36, and the side wall 37 which define the periphery of the cassette case 31. In the interior of the cassette case 31, at least one tape (at least one of the heat-sensitive paper tape 55, the print tape 57, the double-sided adhesive tape 58 and the film tape) is supported in a tape containing area defined within the periphery. A pair of cavities (the roller support hole 64 and the guide hole 47) extending from the bottom wall 36 is provided between the tape containing area and the periphery at opposite ends of a diagonal connecting a first corner portion (the front left corner portion) and a second corner portion (the rear right corner portion) of the cassette case 31.
The tape printer 1 according to the first to fourth embodiments includes at least two guide shafts (the tape drive shaft 100 and the guide shaft 120) that can be inserted in the pair of cavities (the roller support hole 64 and the guide hole 47), respectively, and that guide the tape cassette 30 in the installation removal direction when the tape cassette 30 is installed in the tape printer 1.
Due to the common elements described above, the first to fourth embodiments have the common effect in which the tape cassette 30 may be more accurately and smoothly installed in and removed from the tape printer 1 along the two guide shafts to be inserted in the pair of cavities, respectively, regardless of the influence of a heavy tape housed in the tape containing area or the weight distribution of the tape cassette 30. In addition, as described above, the individual configuration and effect may be obtained for each embodiment based on the above common elements and their effects in the first to fourth embodiments.
The present invention is not limited to the first to fourth embodiments described above, and can be modified variously. The tape printer 1 and the tape cassette 30 may be configured to have a combination of various features described in the first to fourth embodiments, for example. Modified embodiments of the tape printer 1 and the tape cassette 30 based on the above embodiments will be explained below.
For example, in the above-described embodiments, the cassette housing portion 8 is configured as a housing portion that has a rectangular opening that generally corresponds to the plan shape of the tape cassette 30. However, the cassette housing portion 8 may have a different shape. For example, the cassette support portion 8B that supports the common portion 32 from below may not be provided. Specifically, as shown in a first modified embodiment illustrated in
In the first modified embodiment, as shown in
The installation/removal modes of the tape cassette 30 in the first modified embodiment are similar to those of the first embodiment. Specifically, the tape cassette 30 is guided to a proper position in the cassette housing portion 8 by the three guide shafts (the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120). Then, the tape cassette 30 is positioned at a proper horizontal position by the guide shaft 120 and the positioning pin 102, and is positioned at a proper height position by the positioning pins 102 and 103. In other words, the proper position in the cassette housing portion 8 is defined by the guide shaft 120 and the positioning pins 102, 103. For that reason, even when the plan shape of the cassette housing portion 8 does not correspond to the plan shape of the tape cassette 30, the tape cassette 30 can be positioned at the proper position.
As described above, it may be preferable that the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120 are respectively inserted at the same time in the openings 64B, 65B and 47B of the tape cassette 30 to be installed in the cassette housing portion 8. As shown in
As shown in
Further, the guide shaft 120 may extend to a higher position (for example, the length of the guide shaft 120 may be made larger) corresponding to the tape cassette 30 having a larger tape width (such as 48 mm). However, the length of the guide shaft 120 may be restricted depending on the shape or size of the tape printer 1 (particularly, the cassette housing portion 8). In such a case, when the tape cassette 30 is installed in the cassette housing portion 8, at first, the two guide shafts (the tape drive shalt 100 and the auxiliary shaft 110) may be inserted in the two guide holes (the roller support hole 64 and the first tape support hole 65). Then, the third guide shaft (the guide shall 120) may be inserted in the third guide hole (the guide hole 47) while the tape cassette 30 is being guided by the two guide shafts and moved down. According to this installation mode, before the guide shaft 120 is inserted in the guide hole 47, the head holder 74 and the ribbon take-up shaft 95 may be inserted in the head insertion portion 39 and the take-up spool support hole 67, respectively.
As described above, the head insertion portion 39 and the take-up spool support hole 67 each have an opening width through which the head holder 74 and the ribbon take-up shaft 95 are loosely inserted, respectively. For that reason, a failure in which the head holder 74 or the ribbon take-up shaft 95 contacts other members to hinder the installation of the tape cassette 30 may be prevented in the process of the installation of the tape cassette 30. Furthermore, even if a positional displacement or an inclination occurs when the head holder 74 is inserted in the head insertion portion 39 while the tape cassette 30 is being guided by the two guide shafts, when the guide shaft 120 is inserted in the guide hole 47, the head holder 74 is corrected to a proper installation state. This also applies to the take-up spool support hole 67 and the ribbon take-up shaft 95. Thus, even when the upper end position of the guide shaft 120 is restricted, the tape cassette 30 may be guided to and positioned at a proper position in the cassette housing portion 8.
Moreover, even when the tape drive shaft 100 and the auxiliary shaft 110 are equal to or lower than the head holder 74 and the ribbon take-up shaft 95, and the guide shaft 120 does not enter the guide hole 47 at the start of the installation of the tape cassette 30, similar effects as the above embodiments may be obtained. An example will be given below in which the head holder 74 and the ribbon take-up shaft 95 are inserted in the head insertion portion 39 and the take-up spool support hole 67, respectively, before the tape drive shaft 100, the auxiliary shaft 110 an the guide shaft 120 are inserted in the roller support hole 64, the first tape support hole 65, and the guide hole 47, respectively, in the process of the installation of the tape cassette 30 in the cassette housing portion 8.
In this case, since the tape cassette 30 has not been guided by any of the three guide shafts (the tape drive shaft 100, the auxiliary shaft 110 an the guide shaft 120) when the head holder 74 and the ribbon take-up shaft 95 are inserted in the head insertion portion 39 and the take-up spool support hole 67, respectively, the tape cassette 30 may be displaced or inclined as described above. However, when the tape cassette 30 is further moved down, the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120 are inserted in the first tape support hole 65, the roller support hole 64 and the guide hole 47, respectively. Then, the tape cassette 30 may be corrected to a proper installation state. Thereafter, the tape cassette 30 can be smoothly installed toward the proper position in the cassette housing portion 8 along the three guide shafts.
Further, the tape cassette 30 can be smoothly removed along the three guide shafts from the beginning. In this manner, even when the upper end positions of all the three guide shafts are restricted, the tape cassette 30 may be guided to and positioned at the proper position in the cassette housing portion 8.
The height position of the tape cassette 30 installed in the cassette housing portion 8 may not be defined by the positioning pins 102 and 103, unlike the above-described embodiments. Specifically, as shown in a second modified embodiment illustrated in
Even with such a configuration, the installation/removal modes of the tape cassette 30 are similar to those in the first embodiments. Specifically, the tape cassette 30 is guided to a proper position in the cassette housing portion 8 by the three guide shafts (the tape drive shaft 100, the auxiliary shaft 110 and the guide shaft 120). Then, the tape cassette 30 is positioned at a proper horizontal position by the guide shaft 120 and the positioning pin 102. The upper end of the guide shaft 120 inserted in the guide hole 47 contacts the ceiling wall portion 47D at the rear right corner portion of the tape cassette 30, so that the tape cassette 30 may be positioned at a proper height position. Moreover, the tape cassette 30 is positioned at the proper height position by the positioning pin 102 inserted in the pin hole 53 at the left side end of the tape cassette 30 in a similar manner as in the first embodiments.
As described above, the guide shaft 120 is provided adjacent to the positioning pin 103. For that reason, with the configuration in which the upper end of the guide shaft 120 is engaged within the guide hole 47, the guide shaft 120 may also serve to position the tape cassette 30 in the height direction, instead of the positioning pin 103. In this manner, the guide shaft 120 may be utilized as one of positioning members in the height direction so that the positioning pin 103 may not need to be additionally provided, thereby simplifying the configuration of the tape printer 1. If the height position of the tape cassette 30 is not positioned by the common portion 32, as in the above-described second modified embodiment, the cassette case 31 of the tape cassette 30 may not have the common portion 32, as shown in
Although the first and second modified embodiments (refer to
In addition, the height positions of the respective upper ends of the tape drive shaft 100 and the guide shaft 120 may be changed depending on the height positions of the openings 64B and 47B of the tape cassette 30 to be installed in the cassette housing portion 8. Further, the guide shaft 120 may position the tape cassette 30 in the height direction, instead of the positioning pin 103. The tape cassette 30 may not be provided with the first tape support hole 65, similar to the example shown in
Further, in the above-described embodiments, the tape cassette 30 are formed from a general purpose cassette and assembled as the thermal type, receptor type or laminated type. However, the types of the tape cassette 30 are not limited to these examples. For example, as shown in a fourth modified embodiment illustrated in
The tape printer 1 in which the tape cassette shown in
Meanwhile, the double-sided adhesive tape 58 is pulled out from the first tape spool 40 by the tape feed roller 46 in concert with the movable feed roller 14. When being guided and caught between the tape feed roller 46 and the movable feed roller 14, the double-sided adhesive tape 58 is layered onto and affixed to the print surface of the printed heat-sensitive paper tape 55. The printed heat-sensitive paper tape 55 to which the double-sided adhesive tape 58 has been affixed (that is, the printed tape 50) is further fed toward the tape discharge aperture 49, discharged from the discharge aperture 49, and cut by the cutting mechanism 17.
The positional relationships among the respective portions provided in the tape cassette 30 shown in
The installation/removal modes of the tape cassette 30 with respect to the cassette housing portion 8 shown in
Similar to the first embodiment, it may be preferable that the center of gravity of the entire tape cassette 30 is positioned within the area defined by connecting the roller support hole 64, the first tape support hole 65 and the guide hole 47 in a plan view. Since the center of gravity of the heat-sensitive paper tape 55 is positioned on the division line K in the tape cassette 30 shown in
The guide hole 47 shown in
For example, a modified embodiment of the guide hole 47 shown in
Another modified guide hole 47 shown in
In addition, yet another modified embodiment of the guide hole 47 shown in
In addition, yet another modified embodiment of the guide hole 47 shown in
In the U-grooved guide hole 47 shown in
The U-grooved guide hole 47 shown in
Another modified embodiment of the guide hole 47 shown in
In addition, another modified embodiment of the guide hole 47 shown in
In this case, when the tape cassette 30 is installed in the cassette housing portion 8, the guide shaft 120 is inserted in the U-grooved guide hole 47 from below and the tape cassette 30 is guided downward along the standing direction of the guide shaft 120, similar to the case in which the guide hole 47 is a through-hole or an indentation. Then, when the large-diameter shaft portion 120A is fitted in the guide hole 47, the tape cassette 30 is positioned. Particularly, at the right side end of the tape cassette 30, the upper end of the guide shaft 120 inserted in the guide hole 47 contacts the ceiling wall portion 47E, so that the tape cassette 30 is positioned at a proper height position.
In the guide hole 47 shown in
In the first embodiment, the first tape spool 40 is rotatably supported by the cylindrical wall portion 85 that extends through the shaft hole 40D of the first tape spool 40, and the auxiliary shaft 110 that is inserted in and removed from the first tape support hole 65 is also inserted in and removed from the shaft hole 40D at the installation and removal of the tape cassette 30. However, as shown in
In this case, the first tape spool 40 may have a single-wall configuration in which the heat-sensitive paper tape 55 is wound on the spool main body 40E that is a cylinder member having substantially the same height as the tape width of the print medium (similar to the print tape 57 and the film tape 59). The pair of short cylinders 88 is inserted in the openings at both ends of the spool main body 40E within the cassette case 31. Even with such a configuration, the first tape spool 40 may be rotatably supported by the pair of short cylinders 88 inserted in the shaft hole 40D, and the auxiliary shaft 110 may be inserted in and removed from the first tape support hole 65 at the installation and removal of the tape cassette 30 is also inserted in and removed from the shaft hole 40D.
The opening 65B of the first tape support hole 65 may be disposed to face the shaft hole 40D such that the auxiliary shaft 110 can be inserted in and removed from the shaft hole 40D of the first tape spool 40 when the tape printer 1 has the auxiliary shaft 110. In other words, the opening 65B provided in the bottom wall 36 and the shaft hole 40D may be connected. In the first embodiment shown in
In either case, the opening 65B of the first tape support hole 65 faces the shaft hole 40D of the first tape spool 40 so that the auxiliary shaft 110 that is inserted in and removed from the first tape support hole 65 is also inserted in and removed from the shaft hole 40D. Consequently, the center of gravity of the tape spool 40 on which the heat-sensitive paper tape 55 or the like is wound is guided along the auxiliary shaft 110 at the installation and removal of the tape cassette 30.
Similar to the first tape support hole 65, the opening 64B of the roller support hole 64 may be disposed to face the shaft hole 46D such that the tape drive shaft 100 can be inserted in and removed from the shaft hole 461 of the tape feed roller 46. In other words, the opening 64B of the roller support hole 64 may be connected with the shaft hole 46D such that the tape drive shaft 100 can also be inserted in and removed from the shaft hole 46D when the tape drive shaft 100 is inserted in and removed from the roller support hole 64.
In the first to fourth embodiments, various tapes and an ink ribbon (specifically, the heat-sensitive paper tape 55, the print tape 57, the double-sided adhesive tape 58, the film tape 59 and the ink ribbon 60) are wound on the spools (specifically, the first tape spool 40, the second tape spool 41 and the ribbon spool 42), respectively. However, the tapes and the ink ribbon may not be wound on spools. For example, a tape or an ink ribbon may be wound so as to form a hole about the center of winding without the spools to be configured as a so-called, coreless type.
In the first to fourth embodiments, examples in which the two guide holes (the roller support hole 64 and the guide hole 47) provided in the tape cassette 30 are used so that the tape cassette 30 is guided along the two guide shafts (the tape drive shaft 100 and the guide shaft 120) to be installed in the cassette housing portion 8. However, a member that is inserted in the guide holes of the tape cassette 30 is not limited to the guide shafts provided in the tape printer 1.
For example, as shown in
If the position of the upper ends of the shafts 140 shown in
The apparatus and methods described above with reference to the various embodiments are merely examples. It goes without saying that they are not confined to the depicted embodiments. While various features have been described in conjunction with the examples outlined above, various alternatives, modifications, variations, and/or improvements of those features and/or examples may be possible. Accordingly, the examples, as set forth above, are intended to be illustrative. Various changes may be made without departing from the broad spirit and scope of the underlying principles.
Number | Date | Country | Kind |
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2009-086172 | Mar 2009 | JP | national |
2009-086184 | Mar 2009 | JP | national |
2009-086201 | Mar 2009 | JP | national |
2009-086222 | Mar 2009 | JP | national |
This application is a continuation of U.S. application Ser. No. 13/431,350, filed Mar. 27, 2012, which is a divisional of U.S. application Ser. No. 12/732,404 filed Mar. 26, 2010, which claims priority to Japanese Patent Application Nos. 2009-086184, 2009-086172, 2009-086201, and 2009-086222, respectively filed on Mar. 31, 2009, the entire contents of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | 12732404 | Mar 2010 | US |
Child | 13431350 | US |
Number | Date | Country | |
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Parent | 13431350 | Mar 2012 | US |
Child | 15226188 | US |