Roll sheet holder and tape printer

Abstract

A tape printer includes a roll sheet holder storage part of which a bottom is formed with a positioning recess which is rectangular in plan view and long sideways and has a predetermined depth. A discrimination recess rectangular in plan view is provided between the positioning recess and an inner base end of a holder support member). The discrimination recess fittingly receives a sheet discrimination part extending in a predetermined length from a lower end of the positioning holding member inward at substantially right angle thereto. The sheet discrimination part is formed with sensor holes arranged in an L-shaped pattern. In the discrimination recess, there are provided sheet discrimination sensors arranged in an L-shaped pattern.

Description

The present invention relates to a roll sheet holder which rotatably holds a roll sheet wound on a cylindrical sheet core and is removably mounted in a tape printer provided with a feeding device for feeding the roll sheet and a printing unit for printing on the roll sheet. Further, the present invention relates to a tape printer in which the roll sheet holder is removably mounted.

Heretofore, various types of tape printers have been proposed to print characters and others on a long sheet formed of a self-adhesive sheet applied with a release sheet by means of a thermal head. Some tape printers of this type are provided with a roll sheet wound on a sheet core, a roll sheet holder which rotatably holds therein the sheet core, a support mechanism which removably mounts the roll sheet holder in the tape printer, and a feeding device for feeding part of the roll sheet while drawing the roll sheet from the roll sheet holder. The roll sheet holder may be selected from among plural holders of different sizes individually corresponding to various sheet widths.

One of the roll sheet holders mounted in the tape printer is disclosed in Japanese utility model unexamined publication No. H3-19047 (1997-19407). This is a recording sheet holding case made of a heat insulating material and for storing a roll of a thermal recording sheet wound on a sheet core. This holding case is constructed of a mechanism for supporting both ends of the sheet core, a recording sheet drawing port through which part of the thermal recording sheet is unwound, and pits and projections formed on an outer surface of the case to indicate the kind of thermal recording sheet stored in the case.

For image recording, the tape printer using the recording sheet holding case constructed as above can distinguish the kind of thermal recording sheet stored in the sheet holding case by means of a microswitch or the like provided in the bottom of the sheet holding case and thereby control the application of electric power to a thermal head. Accordingly, images can be printed at an appropriate color density on the thermal recording sheet mounted in the printer.

However, the conventional tape printer in which the above mentioned recording sheet holding case is mounted has the following disadvantages. When part of the thermal recording sheet is unwound, the holding case is caused to rotate in a direction of drawing of the sheet. Accordingly, lower end faces of the projections of the holding case whereby the microswitch is pressed down are moved up to come off the microswitch. This may cause a problem that images are printed at an inappropriate color density on the thermal recording sheet.

SUMMARY OF THE INVENTION

The present invention has been made in view of the above circumstances and has an object to overcome the above problems and to provide a roll sheet holder which can be prevented from rotating in a direction of drawing a roll sheet from the holder to hold a bottom of the roll sheet holder against upward dislocation.

Additional objects and advantages of the invention will be set forth in part in the description which follows and in part will be obvious from the description, or may be learned by practice of the invention. The objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.

To achieve the purpose of the invention, there is provided a roll sheet holder employed by a tape printer which includes a feeding device which draws a roll sheet wound in a roll to form a cylindrical through hole and feeds an unwound part thereof, and a printing device which prints on a part of the roll sheet fed by the feeding device, the roll sheet holder being provided with the roll sheet wound in a roll as an attachment and removably mountable in the tape printer, the roll sheet holder comprising: a guide member brought into contact with one end face of the roll sheet; a positioning holding member brought into contact with other end face of the roll sheet; a cylindrical part integrated with the positioning holding member as single piece to hold the roll sheet rotatably with being inserted in the cylindrical through hole; and a connecting member attached to the cylindrical part and equipped with a flange part brought into contact with a face opposite to a face of the guide member where the roll sheet is in contact with, wherein the guide member has an extended portion of which upper end part is extended over a maximum outside diameter of the roll sheet and drawn side directional part is extended toward a drawn side direction over the maximum outside diameter continually from the upper end part.

According to the above roll sheet holder, the guide member and the reference positioning holding member are brought into contact with one end face and other end face of the roll sheet, respectively. Furthermore, the connecting member includes the flange part which is attached to the cylindrical part of the reference positioning holding member for holding the cylindrical hole of the roll sheet and brought into contact with a face opposite to a face of the guide member where an end face of the roll sheet is in contact with. The guide member is connected with the reference positioning holding member by the connecting member. This mechanism can prevent disengagement of the guide member from the connecting member, and the guide member and the reference positioning holding member make it possible to smoothly guide width-directional end faces of the roll sheet to the drawn side direction and reliably hold the bottom of the roll sheet holder against upward dislocation.

Furthermore, the guide member has an upper end part a part of which is above a maximum outside diameter of the roll sheet and an extended portion extended in a drawn side direction in comparison with the maximum outside diameter. Even though the roll sheet gets looseness when mounted to the roll sheet holder, the guide member makes it possible to reliably prevent disengagement of the roll sheet from the guide member.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute a part of this specification illustrate an embodiment of the invention and, together with the description, serve to explain the objects, advantages and principles of the invention.

In the drawings,

FIG. 1 is a schematic perspective view of a tape printer in a first embodiment;

FIG. 2 is a perspective view of the tape printer of which a top cover is removed, in which a roll sheet holder holding a roll sheet of a maximum width is mounted;

FIG. 3 is a side view of the tape printer of FIG. 2;

FIG. 4 is a sectional view taken along a line X-X in FIG. 3;

FIG. 5A is a schematic perspective view of the tape printer in the first embodiment, from which the top cover is removed;

FIG. 5B is an enlarged perspective view of a portion indicated by a dashed circle W in FIG. 5A;

FIG. 6 is a schematic perspective back view of the tape printer in the first embodiment, from which the top cover is removed;

FIG. 7 is a sectional side view of the tape printer in the first embodiment, from which the top cover is removed;

FIG. 8A is a perspective view of a roll sheet holder holding a roll sheet, seen from an obliquely front direction;

FIG. 8B is a perspective view of the roll sheet holder turned upside down, seen from an obliquely front direction;

FIG. 9A is a perspective view of the roll sheet holder alone seen from an obliquely back direction;

FIG. 9B is a perspective view of the roll sheet holder alone seen from an obliquely front direction;

FIG. 10A is a side view of the roll sheet holder in the first embodiment, seen from left of the roll sheet holder in FIG. 10B;

FIG. 10B is a back view of the roll sheet holder in the first embodiment;

FIG. 10C is a side view of the roll sheet holder in the first embodiment, seen from right of the roll sheet holder in FIG. 10B;

FIG. 11 is a sectional view of the roll sheet holder taken along a line Y-Y in FIG. 10A;

FIG. 12 is a sectional view of the roll sheet holder taken along a line Z-Z in FIG. 10A;

FIGS. 13A to 13F are partial views showing arrangement examples of sensor holes indicating the kinds of roll sheets, the holes being provided in a sheet discrimination part of a positioning holding member constructing a roll sheet holder in the first embodiment;

FIG. 14A is a perspective view of the tape printer in the first embodiment, in which the roll sheet holder for a maximum roll sheet width is mounted;

FIG. 14B is a perspective view of the tape printer in the first embodiment, in which the roll sheet holder for a minimum roll sheet width is mounted;

FIG. 15 is an enlarged perspective view of a tape printer in a second embodiment, showing a discrimination recess of a roll sheet holder storage part;

FIG. 16 is a perspective view of one example of a positioning holding member constructing the roll sheet holder in the second embodiment;

FIG. 17 is an enlarged perspective view of a tape printer in a third embodiment, showing a discrimination recess of a roll sheet holder storage part;

FIG. 18 is a perspective view of one example of a positioning holding member constructing the roll sheet holder in the third embodiment;

FIG. 19A is a perspective inside view of one example of a positioning holding member constructing a roll sheet holder in another embodiment;

FIG. 19B is a perspective outside view of the positioning holding member placed upside down of FIG. 19A; and

FIG. 20 is a schematic sectional view of the roll sheet holder of the tape printer in the first embodiment, taken along a line Y-Y in FIG. 10A, in which another roll sheet in a rolled state is set; and

FIG. 21 is a schematic sectional view of the roll sheet holder of the tape printer in the first embodiment, taken along a line Z-Z in FIG. 10A, in which another roll sheet in a rolled state is set.

DETAILED DESCRIPTION OF EMBODIMENTS

A detailed description of preferred embodiments of a roll sheet holder and a tape printer embodying the present invention will now be given referring to the accompanying drawings.

First Embodiment

A first embodiment of the tape printer is first explained below with reference to FIGS. 1 through 7.

As shown in FIGS. 1 to 3, the tape printer 1 includes a housing 2, a top cover 5 made of transparent resin attached to the housing 2 at a rear upper edge, a tray 6 made of transparent resin set in a vertical position to face a substantially front center of the top cover 5, a power button 7 placed in front of the tray 6, a cutter lever 9 provided in a front face of the housing 2, and others. The top cover 5 is freely opened and closed, thereby covering an upper part of a roll sheet holder storage part (hereinafter, a “holder storage part”) 4 which is a space for receiving a roll sheet holder 3 holding a roll sheet 3A of a predetermined width (see FIG. 14). The cutter lever 9 is movable side to side to horizontally move a cutter unit 8 (see FIG. 7). A power cord 10 is connected to the housing 2 on a back face near a corner. The housing 2 is provided on the back face near the other corner with a connector part 11 (see FIG. 6) such as a USB (Universal Serial Bus) which is connected to for example a personal computer not shown. The roll sheet 3A is formed of a long thermal sheet (so-called “thermal paper”) having a self color development property or a long label sheet formed of the thermal sheet whose one surface is bonded with a release sheet by adhesive. The roll sheet 3A is in a wound state around a hollow cylindrical sheet core 3B (see FIG. 4).

As shown in FIGS. 2 through 6, the tape printer 1 is provided with a holder support member 15 in the holder storage part 4 at a side end (a left side end in FIG. 6) in a substantially perpendicular direction to a sheet feeding direction. The holder support member 15 receives a mounting piece (a positioning rib) 13 of a positioning holding member (hereinafter, a “holding member”) 12 constructing the roll sheet holder 3 mentioned later. The mounting piece 13 is provided protruding in a substantially longitudinal rectangular shape on the outer surface of the holding member 12. Specifically, the holder support member 15 is shaped like an angled U-shape as seen in side view of the printer 1, providing a first positioning groove 16 which opens upward in the tape printer 1 and toward both side surfaces of the holder support member 15 in a direction of the width of the tape printer. The holder support member 15 is also formed with a recess 15A which engages an elastic locking piece 12A formed projecting at a lower end of the holding member 12.

The housing 2 is formed with an insertion opening 18 through which a leading end of an unwound part of the roll sheet 3A is inserted into the housing 2. A flat portion 21 is formed substantially horizontal between a rear end (in the feeding direction) of the slot 18 and a front upper edge portion of the holder storage part 4. On this flat portion 21, a front end portion of a guide member 20 of the roll sheet holder 3 is placed. The flat portion 21 is provided at a rear corner in the feeding direction with second positioning grooves (four grooves in the present embodiment) 22A to 22D each formed by a substantially L-shaped wall in section and positioned corresponding to each of a plurality of roll sheets 3A of different widths. Each of the second positioning grooves 22A to 22D is configured to fittingly receive a front part of the guide member 20 inserted from above, as shown in FIG. 7. Further, the front end of the guide member 20 of the roll sheet holder 3 extends to the insertion opening 18.

A positioning recess 4A is formed in the bottom of the holder storage part 4. The positioning recess 4A is rectangular in plan view and long sideways in a direction substantially perpendicular to the feeding direction, extending from an inner base end of the holder support member 15 to a position corresponding to the second positioning groove 22A. This positioning recess 4A has a predetermined depth (about 1.5 mm to 3.0 mm in the first embodiment). The width of the positioning recess 4A in the feeding direction is determined to be almost equal to the width of each lower end portion of the holding member 12 and the guide member 20. A discrimination recess 4B is provided between the positioning recess 4A and the inner base end of the holder support member 15. This discrimination recess 4B is rectangular in plan view, which is long in the feeding direction, and has a depth larger by a predetermined amount (about 1.5 mm to 3.0 mm in the first embodiment) than the positioning recess 4A. The discrimination recess 4B will receive a sheet discrimination part 60 (see FIGS. 8 to 10) mentioned later which extends inward from the lower end of the holding member 12 at a right angle therewith.

In the discrimination recess 4B, there are provided five sheet discrimination sensors S1, S2, S3, S4, and S5 arranged in an L-shaped pattern for distinguishing the kind (e.g., width) of the roll sheet 3A. These sensors S1 to S5 are each constructed of a push type microswitch or the like, specifically, a well known mechanical switch including a plunger and a microswitch. Each plunger is placed so that an upper end thereof protrudes from the bottom surface of the discrimination recess 4B to near the bottom surface of the positioning recess 4A.

It is detected whether the sheet discrimination part 60 has sensor holes (through holes) 60A to 60E (see FIG. 8B), mentioned later, at the positions corresponding to the sheet discrimination sensors S1 to S5 respectively. Based on an ON/OFF signal representing a detection result by the sensors S1 to S5, the kind of the roll sheet 3A held in the roll sheet holder 3 is detected. In the first embodiment, the tape discrimination sensors S1 to S5 are allowed to normally protrude from the bottom surface of the discrimination recess 4B to near the bottom surface of the positioning recess 4A, that is, at the height substantially corresponding to a depth difference between the discrimination recess 4B and the positioning recess 4A. At this time, each microswitch is in an OFF state.

In the case where the sheet discrimination part 60 has some sensor hole(s) 60A to 60E at the positions corresponding to the sheet discrimination sensors S1 to S5, the plunger(s) of the sensor(s) for which the sheet discrimination part 60 has sensor hole(s) is allowed to pass through the associated sensor holes 60A to 60E without depression, leaving the corresponding microswitch(es) in the OFF state, which generates an OFF signal.

On the other hand, the plunger(s) of the sensor(s) for which the sheet discrimination part 60 has no sensor hole(s) is depressed, bringing the corresponding microswitch(es) into the ON state, which generates an ON signal.

The insertion opening 18 is arranged so that its one side end (a left end in FIG. 6) on the holder support member 15 side in the tape printer 1 is positioned substantially in one plane with the inner surface of the holder support member 15 in which the positioning groove 16 opens, more properly, in one plane with the inner surface of the positioning member 12 when engaged in the holder support member 15. In the insertion opening 18, a guide rib 23 is formed on the side end near the holder support member 15.

A lever 27 for operating the vertical movement of a thermal head (see FIG. 7) is provided in front of the other side end (a left end in FIG. 5) of the holder storage part 4 in the feeding direction. To be more specific, when the lever 27 is turned up, the thermal head 31 is moved down and separated from a platen roller 26 (see FIG. 7). When the lever 27 is turned down, to the contrary, the thermal head 31 is moved up, thereby pressing the unwound part of the roll sheet 3A against the platen roller 26. A printable condition is thus developed. Further, below the roll sheet holder 4, there is provided a control board 32 on which a control circuit is formed to drivingly control each mechanism in response to commands from an external personal computer and others.

The roll sheet holder 3 in which the roll sheet 3A wound on the sheet core 3B is removably set in the holder storage part 4 in the following manner. The mounting piece 13 of the positioning member 12 is inserted from above into the first positioning groove 16 of the holder support member 15. The elastic locking piece 12A formed projecting at the lower end of the positioning member 12 is then engaged in the locking recess 15A formed in the inner base end of the holder support member 15. A front lower portion (i.e., a fourth extended portion 45 mentioned later) of the guide member 20 is engaged in appropriate one of the second positioning grooves 22A to 22D and the lower end portion of the guide member 20 is fittingly inserted in the positioning recess 4A. The sheet discrimination part 60 extending inward from the lower end of the positioning member 12 is fitted in the discrimination recess 4B. In this state, it is detected whether or not the sheet discrimination part 60 has the sensor holes 60A to 60E corresponding to the sheet discrimination sensors S1 to S5 arranged in the discrimination recess 4B. Specifically, the kind of the roll sheet 3A held in the roll sheet holder 3 can be detected.

A user (operator) moves the lever 27 up and inserts a leading end of a unwound part of the roll sheet 3A into the insertion opening 18 while keeping one side edge of the unwound part of the roll sheet 3A in contact with the inner surface of the guide member 20 and the other side edge in contact with the guide rib 23 provided at the side end of the insertion opening 18. Thereafter, the user moves the lever 27 down. Printing is thus enabled.

As shown in FIG. 7, when the lever 27 is moved down, the part of the roll sheet 3A inserted in the insertion opening 18 is pressed against the platen roller 26 by means of the thermal head 31 of a line type. The platen roller 26 is driven to rotate by a step motor or the like not shown while the thermal head 31 is drivingly controlled to print image data on a print surface of the roll sheet 3A which is fed sequentially. The printed part of the roll sheet 3A discharged onto the tray 6 is cut by a cutter unit 8 when the user moves the cut lever 9 rightward.

A schematic structure of the roll sheet holder 3 is explained below with reference to FIGS. 8 through 13.

As shown in FIG. 8 through 13, the roll sheet holder 3 is constructed of the guide member 20, the holding member 12, and a holder shaft 40 of a substantially tube shape. The guide member 20 has a first cylindrical part 35 which is fitted in one open end of the sheet core 3B of the roll sheet 3A so that the guide member 20 is held in contact with one of the end faces of the roll sheet 3A. The holding member 12 has a second cylindrical part 37 which is fitted in the other open end of the sheet core 3B so that the holding member 12 is held in contact with the other end face of the roll sheet 3A. The holder shaft 40 has two open ends 40a and 40b; the one end 40a is fitted in the first cylindrical part 35 of the guide member 20 and formed with a radially extended flange part 36 fixed onto the outer surface of the guide member 20 and the other end 40b is fixedly fitted in the second cylindrical part 37 of the holding member 12. The holder shaft 40 may be selected from among a plurality of shafts of different lengths to easily provide many kinds of roll sheet holders 3 holding roll sheets 3A of different widths.

The guide member 20 further includes a first, second, third, and fourth extended portions 41, 42, 43, and 44. The first extended portion 42 is formed extending downward in a predetermined length from a lower periphery of an outer end face of the first cylindrical part 35. This first extended portion 42 is fitted in the positioning recess 4A formed in the bottom of the holder storage part 4 so that the lower end surface of the first extended portion 42 is brought in contact with the bottom surface of the positioning recess 4A. The second extended portion 43 is formed extending upward to cover a front quarter round of the end face of the roll sheet 3A. The third extended portion 44 is formed continuously extending from the second extended portion 43 up to near the insertion opening 18 (see FIG. 6) and has an upper edge sloped downward to the front end. This third extended portion 44 further has a lower edge (44a) extending horizontally, which is held in contact with the flat portion 21 of the tape printer 1 so that one side edge of the unwound part of the roll sheet 3A is guided along the inner surfaces of the second and third extended portions 43 and 44 up to the insertion opening 18. The fourth extended portion 45 is formed under the third extended portion 44 between the rear end of the lower edge 44a at a predetermined distance from the front end and the first extended portion 42. When the lower edge 44a of the third extended portion 44 is held in contact with the placing portion 21, a front edge (45a) of the fourth extended portion 45 is inserted in appropriate one of the second placing grooves 22A to 22D corresponding to the sheet width of the roll sheet 3A set in the sheet holder 3 (see FIG. 7).

The guide member 20 is further formed with slits 47 of a substantially rectangular shape in side view of the guide member 20, at an upper end of the first extended portion 42, i.e., at diametrical opposed positions of the periphery of the outer end face of the first cylindrical part 35. In these slits 47, protrusions 48 formed on the inner surface of the flange part 36 of the holder shaft 40 are engaged for positioning. In the guide member 20, scales 43A, 43B, and 43C are provided in concentric circular lines on the inner surfaces of the extended portions 43, 44, and 45. These scales 43A to 43C indicate the winding lengths of the roll sheet 3A; 10 m, 20 m, and 30 m. In the present embodiment, the maximum winding length of the roll sheet 3A set in the roll sheet holder 3 is about 30 m.

The holder shaft 40 is provided with a slit 51 in the end portion fitted in the second cylindrical part 37 of the holding member 12. The slit 51 has a predetermined length along the long direction of the shaft 40 to engage a rib 50 formed protruding radially inward from the inner lower end of the second cylindrical part 37. Such engagement between the rib 50 of the holding member 12 and the slit 51 of the holder shaft 40 makes it possible to correctly position the holding member 12 and the guide member 20 with respect to each other through the holder shaft 40.

The first and second cylindrical parts 35 and 37 serve to rotatably support the sheet core 3B of the roll sheet 3A. The holder shaft 40 may be selected from among a plurality of shafts (four shafts in the first embodiment) of different lengths individually corresponding to the lengths of the sheet cores 3B (i.e., the widths of the roll sheets 3A).

The outer open end of the second cylindrical part 37 is closed by the positioning member 12. A flange 55 is formed around the second cylindrical part 37. An extended portion 56 is continuously formed under the flange 55. Respective inner surfaces of the flange 55 and the extended portion 56 are held in contact with the end face of the roll sheet 3A and the sheet core 3B. On the outer surfaces of the flange 55 and the extended portion 56, the longitudinal mounting piece (positioning rib) 13 is provided protruding outward, at substantially the center of the width of the positioning member 12 in the feeding direction (a lateral direction in FIG. 10A). This mounting piece 13 is of a substantially rectangular section and has a vertical length in a direction substantially perpendicular to the central axis of the holder shaft 40 and a width which becomes smaller in a downward direction so that the mounting piece 13 is fitted in the first positioning groove 16 having a narrower width (in the feeding direction) towards the bottom of the holder support member 15 in the tape printer 1. The protruding distance of the mounting piece 13 is determined to be almost equal to the width (in a direction of the width of the tape printer 1, perpendicular to the feeding direction) of the first positioning groove 16.

The mounting piece 13 of the positioning member 12 is provided, on the lower outer surface, with a guide portion 57 of a square flat plate (about 1.5 mm to 3.0 mm in thickness in the first embodiment) having a larger width than the lower portion of the mounting piece 13 by a predetermined amount (about 1.5 mm to 3.0 mm in the first embodiment) at each side of the lower portion. Accordingly, to mount the roll sheet holder 3 in the tape printer 1, the user inserts the mounting piece 13 from above into the first positioning groove 16 by bringing an inner surface of the guide portion 57 into sliding contact with the outer surface of the holder support member 15. Thus, the roll sheet holder 3 can easily be fitted in place.

The positioning member 12 is designed to have the extended portion 56 extending downward longer by a predetermined length (about 1.0 mm to 2.5 mm in the first embodiment) than the lower end (the first extended portion 42) of the guide member 20. The positioning member 12 is also provided, at the lower end of the extended portion 56, with a sheet discrimination part 60 of a substantially rectangular shape extending inward by a predetermined length at almost right angle to the extended portion 56.

As shown in FIG. 8B and FIGS. 13A-13F, as mentioned above, the sheet discrimination part 60 is formed with the sensor holes 60A to 60E arranged at predetermined positions corresponding to the sheet discrimination sensors S1 to S5 respectively, in an L-shaped pattern in the present embodiment. The kind of roll sheet 3A held in the sheet holder 3 is represented by the number and an arrangement pattern of the sensor holes (see FIG. 13A to 13F). In the present embodiment, the number of the sensor holes is five at the maximum. Specifically, the presence and absence of each hole are allocated “1” and “0” respectively so that the kind of roll sheet 3A held in the roll sheet holder 3 is represented as five bits.

The positioning member 12 is further formed with a longitudinally rectangular through hole 62 in the extended portion 56 under the mounting piece 13. The elastic locking piece 12A is provided extending downward from the upper edge of the through hole 62 and formed with an outward protrusion at a lower end.

An explanation is given to a mounting manner of the roll sheet holder 3 constructed as above in the tape printer 1, referring to FIGS. 14A and 14B.

FIG. 14A shows the case where the roll sheet 3A holds a roll sheet 3A of a maximum width wound on a hollow cylindrical sheet core 3B. The mounting piece 13 of the holding member 12 of the holder 3 is first inserted from above into the positioning groove 16 of the holder support member 15. The holder 3 is put so that the lower edge 44a of the third extended portion 44 of the guide member 20 is brought into contact with the flat portion 21. The fourth extended portion 45 is engaged in the second positioning groove 22A formed at the rear corner of the flat portion 21 in the feeding direction. The first extended portion 42 of the guide member 20 is fitted in the positioning recess 4A of the holder storage part 4 so that the lower end face of the first extended portion 42 is brought into contact with the bottom surface of the positioning recess 4A. Simultaneously, the sheet discrimination part 60 is fitted in the discrimination recess 4B formed at a position inwardly adjacent to the base end of the holder support member 15 and the elastic locking piece 12A is engaged in the recess 15A formed in the base end of the holder support member 15. Thus, the roll sheet holder 3 is mounted in the holder storage part 4 to be freely removable therefrom. Detection as to whether the sensor holes 60A to 60E of the sheet discrimination part 60 is present/absent is enabled through the sheet distinctive sensors S1 to S5 individually.

Subsequently, the user turns the lever 27 upward and then draws (unwinds) part of the roll sheet 3A and inserts the leading end of the unwound part of the roll sheet 3A in the insertion opening 18 while guiding one side edge of the unwound part of the roll sheet 3A in contact with the inner surface of the guide member 20 and the other side edge in contact with the protruding guide rib 23 provided on the side end of the insertion opening 18. Thereafter, the user turns the lever 27 down. The inserted portion of the roll sheet 3A is thus pressed against the platen roller 26 by the thermal head 31, bringing the roll sheet 3A into a printable state.

FIG. 14B shows the case where the roll sheet holder 3 holds a roll sheet 3A of a minimum width wound on a hollow cylindrical sheet core 3B. The mounting piece 13 of the holding member 12 of the holder 3 is first inserted from above into the positioning groove 16 of the holder support member 15. The sheet holder 3 is put so that the lower edge 44a of the third extended portion 44 of the guide member 20 is brought into contact with the flat portion 21. The fourth extended portion 45 is engaged in the second positioning groove 22D formed at the rear corner of the flat portion 21 in the feeding direction. The first extended portion 42 of the guide member 20 is fitted in the positioning recess 4A of the holder storage part 4 so that the lower end face of the first extended portion 42 is brought into contact with the bottom surface of the positioning recess 4A. Simultaneously, the sheet discrimination part 60 is fitted in the discrimination recess inwardly adjacent to the base end of the holder support member 15 and the elastic locking piece 12A is engaged in the recess 15A formed in the base end of the holder support member 15. Thus, the roll sheet holder 3 is mounted in the holder storage part 4 to be freely removable therefrom. Detection as to whether the sensor holes 60A to 60E of the sheet discrimination part 60 is present/absent is enabled through the sheet distinctive sensors S1 to S5 individually.

Subsequently, the user turns the lever 27 up and then draws (unwinds) part of the roll sheet 3A to insert the leading end of the unwound part of the roll sheet 3A in the insertion opening 18 while guiding one side edge of the unwound part of the roll sheet 3A in contact with the inner surface of the guide member 20 and the other side edge in contact with the protruding guide rib 23 provided on the side end of the insertion opening 18. Thereafter, the user turns the lever 27 down. The inserted portion of the roll sheet 3A is thus pressed against the platen roller 26 by the thermal head 31, bringing the roll sheet 3A into a printable state.

The above components in the present embodiment correspond to each element of the invention as below. The platen roller 26 serves as a feeding device. The platen roller 26 and the thermal head 31 in combination construct a printing device. The first, second, third, and fourth extended portions 42, 43, 44, and 45 construct a first flange part. The second cylindrical part 37 serves as a second cylindrical part. The positioning holding member 12 serves as a positioning holding member whereby the roll sheet holder 3 is positioned in place in the tape printer 1. The flange part 36 serves as a second flange part. The mounting piece 13 serves as a positioning rib. The sensor holes 60A-60E construct a roll sheet identifying part. The holder support member 15 and the locking recess 15A construct a support mechanism. Further, the holder support member 15 serves as a positioning support member. The discrimination recess 4B serves as a recess.

In the tape printer 1 in the first embodiment, as described above, the sheet discrimination sensors S1 to S5 are provided near the base end of the holder support member 15 and serve in cooperation with the sensor holes 60A to 60E of the sheet discrimination part 60 to identify the kind of the roll sheet 3A. When the mounting piece 13 is inserted into the first positioning groove 16 of the holder support member 15, accordingly, the sensor holes 60A to 60E of the sheet discrimination part 60 can be positioned in place. The detection precision of each sensor S1 to S5 can be enhanced.

The discrimination recess 4B is formed in the inside bottom of the holder storage part 4 as mentioned above. The holder 3 is put from above into the holder storage part 4 and also the sheet discrimination part 60 is fitted from above in the discrimination recess 4B. Thus, the sensor holes 60A to 60E can easily be positioned in place. This makes it possible to surely enable operation of each sheet discrimination sensor S1 to S5, thereby improving the reliability of the sensors S1 to S5.

The mounting piece 13 provided protruding from the outer surface of the holding member 12 of the roll sheet holder 3 is positioned and slid into the first positioning groove 16 which opens upward in the tape printer 1. Then, the kind of the roll sheet 3A is specified by means of the sensor holes 60A to 60E of the sheet discrimination part 60 having a predetermined length extending from the lower end of the holding member 12 to face the lower portion of the outer peripheral surface of the roll sheet 3A of the maximum diameter. The sheet discrimination part 60 with the sensor holes 60A to 60E can be placed vertically below the central axis of the roll sheet 3A. Accordingly, the sheet holder 3 can be held down by the own weight of the roll sheet 3A to fixedly dispose the sheet discrimination part 60 in place with respect to the sheet discrimination sensors S1 to S5, thereby preventing the sheet discrimination part 60 from coming off upward.

As mentioned above, the sheet discrimination part 60 is provided extending by a predetermined length from the lower end of the positioning member 12 to face the lower portion of the outer peripheral surface of the roll sheet 3A of the maximum diameter. Accordingly, even when a winding state of the roll sheet 3A slightly loosens due to an elastic restoring force of the roll sheet 3A, the lower portion of the outer peripheral surface of the roll sheet 3A is pressed against the sheet discrimination part 60. This makes it possible to surely prevent the roll sheet 3A from further loosening.

Moreover, while part of the roll sheet 3A is unwound (drawn), the sheet discrimination part 60 with the sensor holes 60A to 60E is held in place by the sensors S1 to S5 passing through the corresponding sensor holes 60A to 60E. It is therefore possible to prevent the sensor holes 60A to 60E from coming off the corresponding sensors S1 to S5 and to provide an improvement in print quality.

Second Embodiment

A second preferred embodiment of the roll sheet holder and the tape printer will be explained below with reference to FIGS. 15 and 16. Similar or identical elements of the roll sheet holder and the tape printer in the second embodiment to those in the first embodiment are indicated by the same reference numbers.

The schematic structures of the roll sheet holder and the tape printer in the second embodiment are substantially the same as those of the roll sheet holder 3 and the tape printer 1 in the first embodiment. In addition, various kinds of processing for controlling the tape printer are substantially the same as those in the first embodiment.

A different structure from the first embodiment is in that a positioning holding member of the roll sheet holder and a discrimination recess formed in a roll sheet holder storage part of the tape printer in the second embodiment differ from the holding member 12 of the roll sheet holder 3 and the discrimination recess 4B formed in the holder storage part 4 of the tape printer 1 in the first embodiment.

Referring to FIG. 15, an explanation will be given to the structure of the discrimination recess formed in the roll sheet holder storage part of the tape printer in the second embodiment.

As shown in FIG. 15, a recess 4A is formed in a bottom of a roll sheet holder storage part 4 in a tape printer 71 in the second embodiment. The recess 4A is rectangular in plan view and long sideways in a direction substantially perpendicular to the feeding direction, extending from an inner base end of the holder support member 15 to a position corresponding to the second positioning groove 22A. This recess 4A has a predetermined depth (about 1.5 mm to 3.0 mm in the second embodiment). The width of the positioning recess 4A in the feeding direction is determined to be almost equal to the width of each lower end portion of a positioning holding member (hereinafter, a “holding member”) 72 (see FIG. 16) of the roll sheet holder 3 and the guide member 20. A discrimination recess 75 is provided between the positioning recess 4A and the inner base end of the holder support member 15. This discrimination recess 75 is rectangular in plan view, which is long in the feeding direction, and has a depth larger by a predetermined distance (about 1.5 mm to 3.0 mm in the second embodiment) than the positioning recess 4A. The discrimination recess 75 will receive a sheet discrimination part 73 (see FIG. 16) mentioned later which extends inward from the lower end of the holding member 72 at a right angle thereto.

The discrimination recess 75 is shaped to be smaller in width in a front part (a lower part in FIG. 15) in the feeding direction from substantially the center between sheet discrimination sensors S3 and S4 so that the boundary between the discrimination recess 75 and the positioning recess 4A is substantially aligned with sheet discrimination sensor S1, that is, the positioning recess 4A is partially extended inside the discrimination recess 75 (rightward in FIG. 15).

In this discrimination recess 75, there are provided five sheet discrimination sensors S1, S2, S3, S4, and S5 arranged in an L-shaped pattern for distinguishing the kind of the roll sheet 3A. These sensors S1 to S5 are each constructed of a push type microswitch or the like, specifically, a well known mechanical switch including a plunger and a microswitch. Each plunger is placed so that an upper end thereof protrude from the bottom surface of the discrimination recess 75 to near the bottom surface of the positioning recess 4A.

It is detected whether the sheet discrimination part 73 has sensor holes 73A to 73E (see FIG. 16), mentioned later, at the positions corresponding to the sheet discrimination sensors S1 to S5 respectively. Based on an ON/OFF signal representing a detection result through the sensors S1 to S5, the kind of the roll sheet 3A held in the roll sheet holder 3 is detected. In the second embodiment, the tape discrimination sensors S1 to S5 are allowed to normally protrude from the bottom surface of the discrimination recess 75 to near the bottom surface of the positioning recess 4A, that is, at the height corresponding to a depth difference between the discrimination recess 75 and the positioning recess 4A. At this time, each microswitch is in an OFF state. In the case where the sheet discrimination part 73 has the sensor holes 73A to 73E at the corresponding positions to the sheet discrimination sensors S1 to S5, respective plungers are allowed to pass through the corresponding sensor holes 73A to 73E without depression and respective microswitches are in the OFF state, each generating an OFF signal. In the case where the sheet discrimination part 73 have only one or some of the sensor holes 73A to 73E at the corresponding positions to the sheet discrimination sensors S1 to S5, the plunger(s) of the relevant sensor(s) for which the sheet discrimination part 60 has no sensor hole(s) is depressed, bringing the corresponding microswitch(es) into the ON state, which generates an ON signal.

As shown in FIG. 16, the holding member 72 of the roll sheet holder 3 in the second embodiment has substantially the same structure as the holding member 12 in the first embodiment expect that the extended portion 56 of the holding member 72 is formed at a lower end with the sheet discrimination part 73 different from the sheet discrimination part 60. This sheet discrimination part 73 of the holding member 72 extends inward by a predetermined length from the lower end of the extended portion 56 and at almost right angle to the extended portion 56. The sheet discrimination part 73 has an extended portion of a predetermined length at a rear end in the feeding direction so that the sheet discrimination part 73 is of an almost L-shape in plan view.

In the sheet discrimination part 73, the sensor holes 73A and 73B are formed in line in the extended portion of the sheet discrimination part 73, i.e., in the rear end portion in the feeding direction, and the sensor holes 73B to 73E are formed in line along the feeding direction so that the sensor holes 73A to 73E are arranged at predetermined positions corresponding to the sheet discrimination sensors S1 to S5 respectively, showing an L-shaped pattern. In the present embodiment, the number of the sensor holes is five at the maximum. Specifically, the presence and absence of each hole are allocated “1” and “0” respectively so that the kind of the roll sheet 3A held in the roll sheet holder 3 be represented as five bits.

The sensor holes 73A to 73E construct a roll sheet identifying part. The holding member 72 serves as a positioning holding member. The discrimination recess 75 serves as a recess.

The tape printer 71 in the second embodiment, as described above, can provide the same effects as the tape printer 1 in the first embodiment and further can achieve a reduction in size of the sheet discrimination part 73 of the holding member 72, which results in reductions in materials of the roll sheet holder 3 and manufacturing cost.

Third Embodiment

A third preferred embodiment of the roll sheet holder and the tape printer will be explained below with reference to FIGS. 17 and 18. Similar or identical elements of the roll sheet holder and the tape printer in the third embodiment to those in the first embodiment are indicated by the same reference numbers.

The schematic structures of the roll sheet holder and the tape printer in the third embodiment are substantially the same as those of the roll sheet holder 3 and the tape printer 1 in the first embodiment. In addition, various kinds of processing for controlling the tape printer are substantially the same as those in the first embodiment.

A different structure from the first embodiment is in that a positioning holding member of the roll sheet holder and a discrimination recess formed in a roll sheet holder storage part of the tape printer in the third embodiment differ from the holding member 12 of the roll sheet holder 3 and the discrimination recess 4B formed in the holder storage part 4 of the tape printer 1 in the first embodiment.

Referring to FIG. 17, an explanation will be given to the structure of the discrimination recess formed in the roll sheet holder storage part of the tape printer in the third embodiment.

As shown in FIG. 17, a recess 4A is formed in a bottom of a roll sheet holder storage part 4 in a tape printer 81 in the third embodiment. The recess 4A is rectangular in plane view and long sideways in a direction substantially perpendicular to the feeding direction, extending from an inner base end of the holder support member 15 to a position corresponding to the second positioning groove 22. This recess 4A has a predetermined depth (about 1.5 mm to 3.0 mm in the third embodiment). The width of the positioning recess 4A in the feeding direction is determined to be almost equal to the width of each lower end portion of a positioning holding member (hereinafter, a “holding member”) 82 (see FIG. 18) of the roll sheet holder 3 and the guide member 20. A discrimination recess 85 is provided between the positioning recess 4A and the inner base end of the holder support member 15. This discrimination recess 85 is substantially rectangular in plan view, which is long in the feeding direction, and has a depth larger by a predetermined distance (about 1.5 mm to 3.0 mm in the third embodiment) than the positioning recess 4A. The discrimination recess 85 will receive a sheet discrimination part 83 (see FIG. 18) mentioned later which extends inward from the lower end of the holding member 82 at a right angle thereto.

The discrimination recess 85 is shaped to be smaller in width in substantially a center part in the feeding direction, corresponding to between the sheet discrimination sensors S3 and S4, so that the boundary between the discrimination recess 85 and the positioning recess 4A is substantially aligned with the sensor S1, that is, the positioning recess 4A is partially extended inside the discrimination recess 85 (rightward in FIG. 17), forming a positioning projection 86 whose edge is aligned with the sensor S1.

In this discrimination recess 85, there are five sheet discrimination sensors S1, S2, S3, S4, and S5 arranged in an L-shaped pattern for distinguishing the kind of the roll sheet 3A. These sensors S1 to S5 are each constructed of a push type microswitch or the like, specifically, a well known mechanical switch including a plunger and a microswitch. Each plunger is placed so that an upper end thereof protrude from the bottom surface of the discrimination recess 85 to near the bottom surface of the positioning recess 4A.

It is detected whether the sheet discrimination part 83 has sensor holes 83A to 83E (see FIG. 18), mentioned later, at the positions corresponding to the sheet discrimination sensors S1 to S5 respectively. Based on an ON/OFF signal representing a detection result through the sensors S1 to S5, the kind of the roll sheet 3A held in the roll sheet holder 3 is detected. In the third embodiment, the tape discrimination sensors S1 to S5 are allowed to normally protrude from the bottom surface of the discrimination recess 85 to near the bottom surface of the positioning recess 4A, that is, at the height corresponding to a depth difference between the discrimination recess 85 and the positioning recess 4A. At this time, each microswitch is in an OFF state. In the case where the sheet discrimination part 60 has the sensor holes 83A to 83E at the positions corresponding to the sheet discrimination sensors S1 to S5, respective plungers are allowed to pass through the corresponding sensor holes 83A to 83E without depression and respective microswitches are in the OFF state, each generating an OFF signal. In the case where the sheet discrimination part 83 have only one or some of the sensor holes 83A to 83E at the positions corresponding to the sheet discrimination sensors S1 to S5, the plunger(s) of the sensor(s) for which the sheet discrimination part 83 has no sensor hole(s) is depressed, bringing the corresponding microswitch(es) into the ON state, which generates an ON signal.

As shown in FIG. 18, the holding member 82 of the roll sheet holder 3 in the third embodiment has substantially the same structure as the holding member 12 in the first embodiment except that the extended portion 56 of the holding member 82 is formed at a lower end with the sheet discrimination part 83 different from the sheet discrimination part 60. This sheet discrimination part 83 of the holding member 82 extends inward by a predetermined length from the lower end of the extended portion 56 and at almost right angle to the extended portion 56. The sheet discrimination part 83 is shaped to have a cut-out (rightward in FIG. 18) in substantially a center part in the feeding direction, forming a positioning recess 87 having a length corresponding to between the sensor holes 83C and 83D and a width so that the edge of the positioning recess 87 is substantially aligned with the sensor hole 83A.

In this sheet discrimination part 83, the sensor holes 83A and 83B are formed in line in the rear end portion of the sheet discrimination part 83 in the feeding direction and the sensor holes 83B to 83E are formed in line along the feeding direction so that the sensor holes 83A to 83E are arranged at predetermined positions corresponding to the sheet discrimination sensors S1 to S5 respectively, showing an L-shaped pattern. In the present embodiment, the number of the sensor holes is five at the maximum. Specifically, the presence and absence of each hole are allocated “1” and “0” respectively so that the kind of the roll sheet 3A held in the roll sheet holder 3 be represented as five bits.

The sensor holes 83A to 83E construct a roll sheet identifying part. The holding member 82 serves as a positioning holding member. The discrimination recess 85 serves as a recess.

The tape printer 81 in the third embodiment, as described above, can provide the same effects as the tape printer 1 in the first embodiment. Since the positioning recess 87 of the sheet discrimination part 83 is engaged with the positioning projection 86 of the positioning recess 4A extended toward the holder support member 15, the holding member 82 can be prevented from wobbling at the lower end when the roll sheet holder 3 is set in the tape printer 1. The tape printer 1 in the present embodiment can provide an improved printing quality.

The present invention is not limited to the above mentioned first through third embodiments and may be embodied in other specific forms without departing from the essential characteristics thereof. For example, the following embodiments may be adopted.

Fourth Embodiment

In the above embodiments, the holding members 12, 72, and 82 each constructing the roll sheet holder 3 are provided with the sheet discrimination parts 60, 73, and 83 which extend inward and have the sensor holes 60A-60E, 73A-73E, and 83A-83E respectively which the sheet discrimination sensors S1-S5 are passed through. Instead thereof, the sheet discrimination parts 60, 73, and 83 may be provided, on the undersurface, with projections whereby the sensors S1-S5 are depressed according to the arrangement of the projections.

One example of such structure to depress the sensors S1 to S5 will be explained below in a fourth embodiment with reference to FIG. 19.

Similar or identical elements of the roll sheet holder and the tape printer in the fourth embodiment to the roll sheet holder 3 and the tape printer 1 in the first embodiment referring to FIGS. 1 through 14 are indicated by the same reference numerals.

As shown in FIGS. 19A and 19B, a positioning holding member 91 is provided with a sheet discrimination part 92 having a similar shape to the above mentioned sheet discrimination part 60. To be more specific, the sheet discrimination part 92 is of a substantially rectangular shape extending inward by a predetermined length from a portion slightly above the lower end of an extended portion 56 of the holding member 91 at a predetermined height corresponding to the bottom surface of the positioning recess 4A. The sheet discrimination part 92 is formed, on the undersurface, with push bosses 92A to 92E protruding at the positions corresponding to the sheet discrimination sensors S1 to S5. It is to be noted that only a push boss 92E is provided in FIGS. 19A and 19B. These bosses 92A to 92E are formed to have a height (length) so that each lower surface be flush with the lower end surface of the extended portion 56.

If the sheet discrimination part 92 is provided with all of the push bosses 92A to 92E on the undersurface, it corresponds to each of the sheet discrimination parts 60, 73, and 83 that do not have any sensor holes 60A-60E, 73A-73E, and 83A-83E respectively. If the sheet discrimination part 92 is provided with only the push boss 92E as shown in FIGS. 19A and 19B, it corresponds to the sheet discrimination parts 60, 73, and 83 each having four sensor holes 60A-60D, 73A-73D, and 83A-83D respectively. If the sheet discrimination part 92 is not provided with any push bosses 92A-92E, it corresponds to the sheet discrimination parts 60, 73, and 83 each having five sensor holes 60A-60E, 73A-73E, and 83A-83E respectively.

Fifth Embodiment

Each roll sheet holder 3 in the first, second, third, and fourth embodiments holds the roll sheet 3A would on the sheet core 3B. Alternatively, the roll sheet 3A may be rolled up by itself without the sheet core 3B as shown in FIGS. 20 and 21 so that a cylindrical through hole 3D is centrally formed having an inner diameter substantially equal to the outer diameters of the second cylindrical part 37 of the holding member 12 and the first cylindrical part 35 of the guide member 20. With this structure of the roll sheet 3A, eliminating the need for the sheet core 3B, the number of components or parts of the roll sheet holder 3 can be reduced. Further, the maximum length of the roll sheet 3A settable in the roll sheet holder 3 can be increased.

While the presently preferred embodiment of the present invention has been shown and described, it is to be understood that this disclosure is for the purpose of illustration and that various changes and modifications may be made without departing from the scope of the invention as set forth in the appended claims.

Claims

1. A roll sheet holder employed by a tape printer which includes a feeding device which draws a roll sheet wound in a roll to form a cylindrical through hole and feeds an unwound part thereof, and a printing device which prints on a part of the roll sheet fed by the feeding device, the roll sheet holder being provided with the roll sheet wound in a roll as an attachment and removably mountable in the tape printer, the roll sheet holder comprising: a guide member brought into contact with one end face of the roll sheet; a positioning holding member brought into contact with other end face of the roll sheet; a cylindrical part integrated with the positioning holding member as single piece to hold the roll sheet rotatably with being inserted in the cylindrical through hole; and a connecting member attached to the cylindrical part and equipped with a flange part brought into contact with a face opposite to a face of the guide member where the roll sheet is in contact with, wherein the guide member has an extended portion of which upper end part is extended over a maximum outside diameter of the roll sheet and drawn side directional part is extended toward a drawn side direction over the maximum outside diameter continually from the upper end part.

2. The roll sheet holder according to claim 1, wherein the tape printer includes an insertion opening in which the roll sheet is inserted, a support portion provided at an upstream side of a feeding direction with reference to the insertion opening, and a positioning groove provided in an upper surface of the support portion and opening upward in the feeding direction, and a lower end part of the extended portion is fitted in the positioning groove when the roll sheet holder is mounted in the tape printer, thereby positioning the roll sheet holder in place in the tape printer.

3. The roll sheet holder according to claim 2, wherein the roll sheet is formed with variety of widths, the positioning groove is formed at plural portions with reference to a direction orthogonal to the feeding direction of the support portion, and the lower end part of the extended portion is fitted in a positioning groove corresponding to a width of a roll sheet mounted in the roll sheet holder among a plurality of the positioning groove when the roll sheet holder is mounted in the tape printer.

4. The roll sheet holder according to claim 2, wherein the roll sheet is drawn from a position above of the connecting member and inserted in the insertion opening when the roll sheet holder is mounted in the tape printer, and the upper end part of the extended portion is positioned above an entirety of a running path from a drawn position of the roll sheet to the insertion opening and guides a side end of the roll sheet to the feeding direction.

5. The roll sheet holder according to claim 1, wherein the roll sheet is wound on a cylindrical sheet core having a through hole opening at both ends.