Source: https://patents.google.com/patent/JP4924267B2/en
Timestamp: 2020-01-23 01:54:14
Document Index: 718693590

Matched Legal Cases: ['art 50', 'art 48', 'art 51', 'art 51', 'art 51', 'art 48', 'art 51', 'art 51', 'art 60', 'art 60', 'art 64', 'art 24', 'art 60', 'art 51', 'art 51', 'art 4', 'art 5', 'art 51', 'art 60']

JP4924267B2 - Tape printer - Google Patents
JP4924267B2
JP4924267B2 JP2007194107A JP2007194107A JP4924267B2 JP 4924267 B2 JP4924267 B2 JP 4924267B2 JP 2007194107 A JP2007194107 A JP 2007194107A JP 2007194107 A JP2007194107 A JP 2007194107A JP 4924267 B2 JP4924267 B2 JP 4924267B2
JP2007194107A
JP2009028976A (en
慎治 小林
武彦 稲葉
2007-07-26 Application filed by ブラザー工業株式会社 filed Critical ブラザー工業株式会社
2007-07-26 Priority to JP2007194107A priority Critical patent/JP4924267B2/en
2009-02-12 Publication of JP2009028976A publication Critical patent/JP2009028976A/en
2012-04-25 Publication of JP4924267B2 publication Critical patent/JP4924267B2/en
<P>PROBLEM TO BE SOLVED: To provide a tape printing apparatus capable of stably holding a roll sheet holder when a top cover is closed. <P>SOLUTION: At the edge on the side of the right lateral part 50 of the ceiling part 48 of the top cover 5, a holder pressing part 51 is extended in a die-draw direction so as to face the upper end face of a mounting member 21 for the roll sheet holder 3. When the top cover 5 is closed after loading the roll sheet holder 3 with a roll sheet 3A wound to the tape printing apparatus 1, the lower tip surface of the holder pressing part 51 formed on the top cover 5 comes into contact with the upper end of the mounting member 21 for the roll sheet holder 3. The tip end of the holder pressing part 51 is elastically deformed toward the ceiling part 48 of the top cover 5. Besides, a reaction force applied to the tip end of the holder pressing part 51 works in a direction shown by an arrow X4 linking between the center of the rotational axis of the top cover 5 and a contact point where the holder pressing part 51 comes into contact with the upper end of the mounting member 21. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT
The present invention relates to a tape printing apparatus in which a roll sheet holder around which a long roll sheet is wound is supported in a removable state.
2. Description of the Related Art Various types of tape printers have been proposed in the past in which a pressing unit is provided that presses a roll sheet holder or tape cassette supported in a detachable manner in a main body casing by closing a lid.
For example, a pair of long pressing members, which are long pressing parts, are provided on the inner side of a synthetic resin lid, and the lower ends of the pressing members abut against the tape cassette by closing the lid. There is a tape printing apparatus configured to support the tape cassette in a horizontal state (see, for example, Patent Document 1).
JP 2006-56263 A (paragraphs (0025) to (0030), FIGS. 4 and 8 to 14)
However, in the configuration described in Patent Document 1 described above, each pressing body requires a strict dimensional accuracy, which increases the manufacturing cost. Moreover, when each pressing body is configured to be urged by a spring and retracted in the lid side direction, there is a problem that the structure becomes complicated and the number of parts increases.
Therefore, the present invention has been made to solve the above-described problems, and without requiring a dimensional accuracy and with a simple configuration, the roll sheet holder can be stably held when the upper cover is closed. An object of the present invention is to provide a tape printer capable of pressing.
In order to achieve the above object, a tape printer according to claim 1 includes a support mechanism that removably supports a roll sheet holder around which a long roll sheet is wound in a main body casing; An upper cover that is attached to the upper edge of the side so as to be freely opened and closed and covers the upper side of the roll sheet holder, wherein the support mechanism is on one side in the width direction of the insertion slot into which the roll sheet is inserted A support member erected on one side edge of the bottom surface portion, and a fitting portion provided on the support member, and the roll sheet holder is one of the roll sheets A reference-side holding member that is in contact with the end surface, and provided on the outer surface of the reference-side holding member, when the roll sheet holder is mounted, the fitting portion is fitted from above to below. A fitted portion, and Bar, when closing the upper cover, the inner wall portion facing obliquely upward after the upper portion of the fitted portion fitted to the fitting portion, the upper end portion of the tip該被fitting portion It has a holder holding part which extends in the tabular of predetermined width so that the pressing and abutting on said holder pressing portion, the tip portion is pressing contact with the upper end portion of the fitted portion In this case, the upper cover is formed so as to be elastically deformable toward the inner wall side of the ceiling portion .
The tape printer according to claim 2 is the tape printer according to claim 1, wherein the longitudinal direction of the holder pressing portion is the rotation axis of the upper cover and the fitted portion of the holder pressing portion. It is provided so that it may become a direction orthogonal to the direction which connects the contact point contact | abutted to the upper end part of a part.
According to a third aspect of the present invention, there is provided the tape printing apparatus according to the first or second aspect, further comprising a sheet discrimination sensor disposed on a bottom surface portion of the base end portion on the roll sheet holder side of the support member. The roll sheet holder is formed in the sheet determining unit, a sheet determining unit extending a predetermined length so as to face the outer peripheral surface of the roll sheet from the lower end edge of the reference side holding member, and the sheet determining sensor. A roll sheet specifying unit that specifies the type of roll sheet in cooperation with the roll sheet specifying unit, and the roll sheet specifying unit via the sheet determination sensor when the fitted part is fitted to the fitting part. It is possible to detect a part.
Furthermore, the tape printer according to claim 4 is the tape printer according to any one of claims 1 to 3, wherein the upper cover is formed by resin molding, and the holder pressing portion is formed by die cutting. It is formed along the direction.
In the tape printer according to claim 1, when a roll sheet holder on which a roll sheet is wound is mounted in the tape printer and the upper cover is closed , the tape printer is formed into a thin flat plate with a predetermined width provided on the upper cover. holder pressing portion is formed, pressing the upper end portion of the fitted portion in contact with the upper end portion of the fitted portion fitted to the engagement portion fitted tip portion, the inner wall side of the ceiling portion of the upper cover Elastically deforms. As a result, the upper end portion of the fitted portion of the roll sheet holder can be stably pressed via the holder pressing portion, so that the roll sheet holder can be prevented from being lifted or rattled when the roll sheet is pulled out. Is possible.
Further, when the holder pressing portion comes into contact with the upper end portion of the fitted portion of the roll sheet holder, the tip end portion is elastically deformed toward the inner wall side of the ceiling portion of the upper cover. It is possible to stably press the roll sheet holder via the holder pressing portion with a simple configuration without requiring a biasing member such as a spring for contacting the joint portion.
In addition, since the holder pressing portion is formed in a thin flat plate shape having a predetermined width, it can be made simple, and even when the dimensional accuracy is lowered, when the upper cover is closed, a small pressing force is required. The front end portion is elastically deformed toward the inner wall side of the ceiling portion of the upper cover, so that the roll sheet holder can be reliably pressed down.
In the tape printer according to claim 2, when the upper cover is closed and the holder pressing portion is brought into contact with the upper end portion of the fitted portion, the reaction force acting on the tip end portion of the holder pressing portion. Works in a direction connecting the pivot axis of the upper cover and the contact point that contacts the upper end of the fitted portion of the holder pressing portion. Thereby, since the reaction force which acts on the front-end | tip part of a holder holding | suppressing part does not work in the direction which opens an upper cover, it becomes possible to prevent that an upper cover opens accidentally.
Further, in the tape printer according to claim 3, after the fitted portion of the roll sheet holder is fitted to the fitted portion, the upper cover is closed to close the upper end portion of the fitted portion to the upper cover. It becomes possible to press down stably with the provided holder pressing part. For this reason, when the roll sheet is pulled out, the roll sheet is reliably prevented from being lifted or rattled from the sheet discrimination sensor of the roll sheet specific part formed in the sheet discrimination part provided at the lower end edge of the reference side holding member. It is possible to accurately identify the type of the.
Furthermore, in the tape printer according to claim 4, since the holder pressing portion is formed along the die-cutting direction of the upper cover formed by resin molding, even if the upper cover is formed of a transparent resin. It is possible to improve the appearance.
Hereinafter, a tape printer according to the present invention will be described in detail with reference to the drawings based on an embodiment of the present invention.
First, a schematic configuration of a tape printer to which a roll sheet holder according to the present embodiment is mounted will be described with reference to FIGS.
FIG. 1 is an external perspective view from the front side of the tape printer 1 according to the present embodiment. FIG. 2 is a perspective view from the upper right side showing the state in which the roll sheet holder 4 is mounted on the tape printer 1 with the upper cover 5 opened. FIG. 3 is a side sectional view showing a state in which the roll sheet holder is mounted on the tape printer. FIG. 4 is a perspective view from above the left front side showing a state in which the upper cover 5 of the tape printer 1 is opened. FIG. 5 is a perspective view from above the left rear side showing a state in which the upper cover 5 of the tape printer 1 is opened.
As shown in FIGS. 1 to 5, the tape printer 1 includes a main body housing 2 made of resin and a roll sheet holder storage unit 4 that stores a roll sheet holder 3 around which a roll sheet 3 </ b> A having a predetermined width is wound. An upper cover 5 made of a transparent resin is attached to the upper edge of the rear side so as to be openable and closable so as to cover the upper side. The roll sheet 3A includes a long heat-sensitive sheet (so-called thermal paper) having self-coloring properties, a long label sheet in which a release paper is bonded to one side of the heat-sensitive sheet via an adhesive, and the like. And is wound around a roll sheet holder 3.
The front cover 6 on the front side of the upper cover 5 is formed with a sheet discharge port 6A for discharging the printed roll sheet 3A to the outside. In addition, the power button 7A is pressed on the front surface on the upper side of the sheet discharge port 6A, and the cutter unit 8 (see FIG. 3) provided inside the sheet discharge port 6A is driven by pressing down to cut the roll sheet 3A. The cut button 7B, a feed button 7C that discharges the roll sheet 3A in the transport direction by a predetermined amount when pressed, is arranged substantially horizontally.
Here, as shown in FIG. 3, the cutter unit 8 is composed of a fixed blade 8A and a movable blade 8B, and when the cut button 7B is pressed, the movable blade 8B is configured by a DC motor or the like. The motor 8C reciprocates up and down. Then, the roll sheet 3A cut by the fixed blade 8A and the movable blade 8B is discharged from the sheet discharge port 6A. The movable blade 8B is configured in a V shape when viewed from the front.
As shown in FIGS. 1 and 2, the tray member 9 is attached to the lower edge of the front cover 6 so as to be openable and closable so as to cover the front side of the front cover 6, and is a recess 9A formed at the upper end. It is comprised so that it can be opened by putting a finger on and rotating to the front side. As shown in FIG. 3, a tray storage portion 47 is formed inside the tray member 9, and the discharge tray 48 is rotated inward and stored in a state locked to the tray member 9. ing.
As shown in FIG. 5, an inlet 10 to which a power cord (not shown) is connected is disposed on the back surface of the main body housing 2, and on the lateral side (the left side in FIG. 5). Is provided with a USB (Universal Serial Bus) connector 11 connected to a personal computer (not shown).
As shown in FIGS. 2 to 5, the upper cover 5 is formed in a substantially semicircular shape when viewed from the side (see FIG. 8). In addition, left and right side edge portions with which the opening of the upper cover 5 of the main body housing 2 abuts are extended by a predetermined width (for example, about 10 mm) to form the respective step portions 13 and 13. ing.
As shown in FIGS. 2, 4, and 5, the left and right side wall portions on the front side of the roll sheet storage portion 4 are provided with elastic locking pieces 15 and 15 that are elastically deformable on the inside. Yes. Further, each elastic locking piece 15, 15 is formed with a locking projection 15 </ b> A having a triangular side section projecting outward, and each engaging recess 16 formed on the opening side edge of the upper cover 5. 16 (in FIG. 2, one engagement recess 16 is shown. The other engagement recess 16 is shown in FIG. 4).
As a result, the upper cover 5 is rotated in the front direction and brought into contact with each step portion 13, whereby each elastic locking piece 15 and each engagement recess 16 are engaged, and the upper cover 5 is closed. Held in a state. Also, by engaging the recess 5A formed at the center of the front end of the upper cover 5 and turning it in the rear direction, the engagement between each elastic locking piece 15 and each engagement recess 16 is released, The upper cover 5 can be opened.
A push claw portion 5B that protrudes a predetermined length in the front direction is provided on the front left side of the recessed portion 5A of the upper cover 5. In addition, when the upper cover 5 is closed, the position where the push claw portion 5B of the main body housing 2 comes into contact is configured by a micro switch or the like. An upper cover detection switch 18 for determining whether or not the upper cover 5 is closed is disposed.
2, 4, and 5, the tape printing apparatus 1 includes one side edge portion in the direction substantially perpendicular to the conveying direction of the roll sheet holder storage portion 4 (on the right side in FIG. 2). A holder support member 23 capable of fitting an attachment member 21 having a substantially rectangular cross section that protrudes outward from the positioning holding member 20 constituting the roll sheet holder 3 is provided on the edge portion. The holder support member 23 is formed with a first positioning groove portion 24 having a substantially U-shape in a front view that opens upward in the width direction and opens on both sides in the width direction.
Further, a mounting portion 29 extending substantially horizontally from the rear end edge portion of the insertion port 26 (see FIG. 3) for inserting the roll sheet 3A to the front upper end edge portion of the roll sheet holder storage portion 4 is provided. . Further, five second positioning groove portions 30A to 30E having a substantially L-shaped cross section corresponding to a plurality of width dimensions of the roll sheet 3A are formed at the edge corners on the rear side in the transport direction of the placement portion 29. Has been. As shown in FIG. 3, each of the second positioning groove portions 30 </ b> A to 30 </ b> E is formed so that the lower end portion of the tip that contacts the placement portion 29 of the guide member 28 constituting the roll sheet holder 3 can be fitted from above. Has been.
In addition, a positioning recess 4A having a horizontally long rectangular shape in a plan view from the inner base end of the holder support member 23 to the side face base end facing the roll support holder 23 is substantially perpendicular to the conveying direction. It is formed with a depth (in this embodiment, it is a depth of about 1.5 to 3 mm). The width dimension of the positioning recess 4A in the conveying direction is formed so as to be substantially equal to the width dimension of the respective lower end edges of the positioning holding member 20 and the guide member 28 constituting the roll sheet holder 3.
Further, at the inner base end portion of the holder support member 23 of the positioning recess 4A, a portion facing the sheet determination portion 60 (see FIG. 11) extending from the lower end edge portion of the positioning holding member 20 in a substantially right angle inner direction, A discrimination recess 4B having a rectangular shape in plan view in the longitudinal direction is formed in the conveying direction so as to be deeper than the positioning recess 4A by a predetermined depth (in this embodiment, a depth of about 1.5 to 3 mm). Is formed.
The discrimination recess 4B is composed of a push-type micro switch or the like, and has six sheet discrimination sensors P1, P2, P3, P4 for discriminating the type, material, roll sheet width, etc. of the roll sheet 3A. , P5 and P6 are provided in an L shape.
Each of the sheet discrimination sensors P1 to P6 is a known mechanical switch including a plunger and a micro switch, and the upper end of each plunger extends from the bottom of the discrimination recess 4B to the bottom of the positioning recess 4A. It is provided so that it may protrude to the part vicinity. And each sensor hole 60A-60F (refer FIG. 11) formed in the sheet | seat discrimination | determination part 60 extended in the substantially perpendicular | vertical inner side direction from the lower end edge part of the positioning holding member 20 with respect to this each sheet | seat discrimination | determination sensor P1-P6. The type, material, roll sheet width, and the like of the roll sheet 3A attached to the roll sheet holder 3 are detected by detecting whether or not the roll sheet is present.
In the present embodiment, the plungers of the sheet discrimination sensors P1 to P6 always protrude from the bottom of the discrimination recess 4B to the vicinity of the bottom of the positioning recess 4A, and the microswitch is turned off. ing. And when each sensor hole 60A-60F of the sheet | seat discrimination | determination part 60 exists in the position which opposes each sheet | seat discrimination | determination sensor P1-P6, since a plunger is not pressed down but a micro switch is in an OFF state, an OFF signal is sent. Is output.
On the other hand, when the sensor holes 60A to 60F of the sheet determination unit 60 are not located at positions facing the sheet determination sensors P1 to P6, the plunger is pressed and the micro switch is turned on. Is output. Accordingly, when the sheet discrimination sensors P1 to P6 output 6-bit “0” and “1” signals and all the sheet discrimination sensors P1 to P6 are in the off state, that is, the roll sheet holder 3 is not mounted. In this case, a 6-bit “000000” signal is output.
In addition, a guide portion 31 is formed on the side edge of the insertion port 26 on the holder support member 23 side up to the rear end portion of the placement unit 29 substantially in the transport direction, and guides the roll sheet 3A to the insertion port 26. Yes. Here, the inner end surface (right end surface in FIG. 5) of the guide portion 31 is formed so as to be opposed to the inner end surface of the positioning member 20 fitted into the holder support member 23, that is, on the same plane. Has been. Thereby, the outer side edge portion of the roll sheet 3 </ b> A pulled out from the roll sheet holder 3 abuts on the inner end surface of the guide portion 31 and is guided to the insertion port 26.
In addition, on the inner side of the peripheral edge of the opening of the upper cover 5 facing the side edge of the holder housing 4 opposite to the holder support member 23, the height of the link lever 34 is approximately equal to the thickness of the link lever 34. The formed engagement shaft 33 is erected. A through hole 34A (see FIG. 13) formed in one end edge of the link lever 34 that moves the thermal head 32 (see FIG. 3) up and down is fitted into the engagement shaft 33. This link lever The edge part of 34 is attached so that rotation and attachment / detachment are possible.
As shown in FIG. 3, a roller shaft 35 </ b> A of the platen roller 35 is rotatably supported on the back side of the insertion opening 26 in the roll sheet conveyance direction. The thermal head 32 is fixed to the upper surface of a head support member 37 that is biased upward by a pressing spring 36. Further, the rear edge portion of the head support member 37 with respect to the transport direction is supported by the back surface portion of the frame 38 so as to be swingable in the vertical direction.
Then, by rotating the upper cover 5 in the rearward direction and opening it, the link lever 34 moves in the rearward direction in conjunction with the movement of the upper cover 5, and the thermal head support member 37 is moved downward. Thus, the thermal head 32 is separated from the platen roller 35 disposed opposite thereto. As a result, the roll sheet 3 </ b> A is inserted from the insertion opening 26, so that the roll sheet 3 </ b> A can be inserted between the platen roller 35 and the thermal head 32.
When the upper cover 5 is closed, the link lever 34 moves in the front direction in conjunction with the movement of the upper cover 5, the thermal head support member 37 is moved upward, and the thermal head 32 is moved to the pressing spring 36. As a result, the roll sheet 3 </ b> A is pressed against the platen roller 35 to be in a printable state.
In addition, a control circuit unit that drives and controls each mechanism unit such as the thermal head 32 by a command from an external personal computer or the like is formed on the lower side of the roll sheet holder storage unit 4 through a partition wall 39. A control board 40 is provided. A power supply board 41 on which a power supply circuit unit is formed is provided below the frame 38 via a partition wall 39.
The thermal head 32 is connected to a connector 44 provided on the bottom surface side of the control board 40 by a flexible flat cable (FFC) 43. The control board 40 and the power supply board 41 are covered with a bottom cover 45 made of a thin steel plate (in this embodiment, made of steel plate such as SPCC having a thickness of about 0.5 mm) screwed to the bottom surface portion. ing.
Next, a holder holding portion that holds the roll sheet holder 3 provided on the upper cover 5 will be described with reference to FIGS. 4 and 6 to 9.
FIG. 6 is a front view of the upper cover 5 when the mold drawing direction is the lower side. FIG. 7 is a left side view when the die removal direction of the upper cover 5 is set to the lower side. 8 is a cross-sectional view taken along arrow X1-X1 in FIG. 9 is a cross-sectional view taken along arrow X2-X2 in FIG.
As shown in FIGS. 4, 6 to 9, the upper cover 5 made of a transparent resin includes a substantially semicircular ceiling portion 48 that opens in the mold drawing direction, and left and right end surface portions of the ceiling portion 48. It is composed of a substantially circular left side surface portion 49 that extends in the mold drawing direction so as to swell slightly outward, and a right side surface portion 50.
Also, as shown in FIGS. 8 and 9, the roll sheet holder 3 is attached to the edge on the right side surface 50 side of the inner wall surface slightly forward (right side in FIG. 8) from the apex of the ceiling 48. At a position facing the upper end surface of the member 21, a holder pressing portion 51 is extended in the mold drawing direction. Further, a gap is formed between the substantially center portion of the outer edge portion of the holder pressing portion 51 to the tip portion and the inner wall surface of the right side surface portion 50.
The holder pressing portion 51 has a thin flat plate shape (in this embodiment, a thickness that is narrower than the width dimension of the mounting member 21 and about 4 mm to 6 mm in this embodiment). And is formed on the inner wall side of the ceiling portion 48 so as to be elastically deformable. Further, the holder pressing portion 51 is configured so that the tip end portion comes into contact with the upper end surface of the mounting member 21 obliquely from above and does not come into contact with the positioning holding member 20 when the upper cover 5 is closed as will be described later. (See FIGS. 12 and 13).
Further, a pair of locking pieces 46 (one locking piece 46 in FIG. 4 is provided on the rear end edge of the ceiling 48 of the upper cover 5 erected on the rear end edge of the main body housing 2. Notch grooves 53 and 53 are formed at positions facing each other. Further, the cover support pieces 52, 52 each having a substantially triangular shape in a side view are extended from the outer side edge of each notch groove 53 in the rear side direction, and a tip portion is formed on the inner side surface of each cover support piece 52. An engagement protrusion 52A formed in a substantially hemispherical shape is provided.
As shown in FIG. 4, the upper cover 5 has through holes 46 </ b> A formed at the upper ends of a pair of locking pieces 46 in which each engaging protrusion 52 </ b> A is erected on the rear end edge of the main body housing 2. It is inserted so as to be rotatable, and is attached so as to be rotatable in the front-rear direction around each engaging projection 52A. Further, the edge of the link lever 34 is rotatably and detachably attached to the engagement shaft 33 having a circular cross section projecting from the periphery of the opening of the left side surface portion 49, and the rear cover is rotated in the rear direction. The moving angle is regulated.
Next, a schematic configuration of the roll sheet holder 3 will be described with reference to FIGS. 10, 11, and 13.
FIG. 10 is a perspective view from above showing an example of the roll sheet holder 3 to which the roll sheet 3A is mounted. FIG. 11 is a perspective view from below showing an example of the roll sheet holder 3 to which the roll sheet 3A is attached. 13 is a cross-sectional view taken along arrow X3-X3 in FIG.
As shown in FIGS. 10, 11, and 13, the roll sheet holder 3 to which the roll sheet 3A wound around the core 3B is mounted is configured as follows.
That is, the first cylinder portion 28A standing on the inner surface of the guide member 28 is fitted and inserted into the end edge portion of the cylindrical hole of the core 3B of the roll sheet 3A, and the roll is formed on the inner surface of the guide member 28. One end surface of the sheet 3 </ b> A is in contact. Further, the second cylindrical portion 20A standing on the inner side surface of the positioning and holding member 20 is fitted and inserted into the other end side edge portion of the cylindrical hole of the core 3B of the roll sheet 3A. The other end surface of the roll sheet 3A is in contact with the side surface.
Then, a flange portion 62A that is inserted into the first cylindrical portion 28A of the guide member 28 and is formed on the outer peripheral portion of the end surface on one end side is fixed to the outer end surface of the first cylindrical portion 28A, that is, the outer end surface of the guide member 28. In addition, an end portion on the other end side is provided with a substantially cylindrical holder shaft member 62 fitted into the second cylindrical portion 20A of the positioning holding member 20 and fixed to the second cylindrical portion 20A. Therefore, by changing the length dimension of the holder shaft member 62, a plurality of types of roll sheet holders 3 to which roll sheets 3A having different width dimensions are attached can be easily manufactured.
Further, the guide member 28 extends downward from the lower outer peripheral portion of the outer end surface of the first cylindrical portion 28 </ b> A and is fitted into a positioning recess 4 </ b> A formed on the bottom surface portion of the roll sheet holder storage portion 4. Thus, a first extending portion 63 is formed in contact with the bottom surface of the positioning recess 4A. Further, the guide member 28 has a second extending portion whose upper end edge extends in a front-down manner to the placement portion 29 so as to cover the outer end surface portion on the substantially ¼ circumference in the front direction of the roll sheet 3A. 64 is formed.
The lower end surface of the second extending portion 64 is formed substantially horizontally, and the lower end portion on the front end side is fitted into any of the second positioning groove portions 30A to 30E facing the sheet width of the mounted roll sheet 3A. It is configured as follows. Moreover, it is comprised so that the one side edge part of the roll sheet 3A with which the inner surface of this 2nd extension part 64 was mounted | worn may be guided to the insertion port 26 (refer FIG. 2).
Further, the core 3B around which the roll sheet 3A is wound by the first cylindrical portion 28A standing on the inner side surface of the guide member 28 and the second cylindrical portion 20A standing on the inner side surface of the positioning holding member 20 is provided. Is held rotatably. In addition, the holder shaft member 62 is provided with a plurality of types of length dimensions (in this embodiment, five types) corresponding to each length dimension of the core 3B of the roll sheet 3A.
Further, the mounting member 21 of the positioning holding member 20 is formed to be narrow in the front view downward direction (downward in FIG. 10), and is narrow in the downward direction of the holder support member 23 of the tape printer 1. It is formed in the first positioning groove 24 so as to be in close contact. Further, the protruding height dimension of the mounting member 21 is formed substantially equal to the width dimension of the first positioning groove portion 24.
Further, the lower end portion of the attachment member 21 of the positioning holding member 20 has a predetermined length in the lateral direction from the lower end portion of the attachment member 21 (in this embodiment, about 1.5 mm to 3 mm). ) A projecting guide 65 having a substantially rectangular flat plate shape (in the present embodiment, a thickness of about 1.5 mm to 3 mm) is formed.
As a result, when the roll sheet holder 3 is mounted, the mounting member 21 is brought into contact with the first positioning groove portion 24 while the guide portion 65 formed at the lower end portion of the mounting member 21 is brought into contact with the outer end surface of the holder support member 23. By inserting, the roll sheet holder 3 can be mounted while being positioned easily.
Further, the lower end edge of the positioning holding member 20 extends so as to protrude downward by a predetermined length (in this embodiment, about 1 mm to 2.5 mm) than the lower end edge of the guide member 28. In addition, a substantially rectangular sheet discriminating portion 60 extending a predetermined length in a substantially perpendicular inner direction is formed at the lower edge. Further, as shown in FIG. 11, in the sheet discriminating portion 60, as described above, the sensor holes 60A to 60F penetrating at predetermined positions facing the sheet discriminating sensors P1 to P6 are arranged in a substantially L shape. To be formed. In FIG. 11, the sensor holes 60 </ b> A to 60 </ b> C among the sensor holes 60 </ b> A to 60 </ b> F are formed in the sheet determination unit 60.
As a result, each of the sensor holes 60A to 60F is formed at a maximum of five out of the six, so the presence or absence of each of the sensor holes 60A to 60F is made to correspond to “1” and “0”. The type, material, roll sheet width, and the like of the roll sheet 3A mounted on the holder 3 can be displayed by a 6-bit code “000001” to “111111”. The 6-bit code “000000” indicates that the roll sheet holder 3 is not attached.
Next, a state in which the roll sheet holder 3 configured as described above is attached to the roll sheet holder storage portion 4 and the upper cover 5 is closed will be described with reference to FIGS. 12 and 13.
FIG. 12 is a diagram illustrating a state where the upper end surface of the attachment member 21 of the roll sheet holder 3 is pressed by the holder pressing portion 51 of the upper cover 5. 13 is a cross-sectional view taken along arrow X3-X3 in FIG.
As shown in FIGS. 12 and 13, when the upper cover 5 is closed, the lower end portion of the tip of the holder pressing portion 51 is attached to the mounting member 21 from the front upper side of the mounting member 21 obliquely upward. Is in contact with the upper end surface of the. In addition, the longitudinal direction of the holder pressing portion 51 is a straight line 67 that connects the contact point between the holder pressing portion 51 and the upper end surface of the mounting member 21 and the axis of the engaging protrusion 52 </ b> A that is the rotation center of the upper cover 5. On the other hand, it is provided so as to be in a substantially orthogonal direction.
Therefore, the direction of the reaction force received from the mounting member 21 when the holder pressing portion 51 presses the mounting member 21 is the direction of the arrow X4, that is, the rotation axis of the upper cover 5 and the mounting of the holder pressing portion 51. It works in the direction connecting the contact point that contacts the upper end of the member 21. Thereby, the reaction force acting on the tip of the holder pressing portion 51 hardly acts in the direction in which the upper cover 5 is opened.
Further, by closing the upper cover 5, the link lever 34 moves in the front direction in conjunction with the movement of the upper cover 5, the thermal head support member 37 is moved upward, and the thermal head 32 is rolled by the pressing spring 36. The sheet 3A is pressed and urged against the platen roller 35 to be ready for printing (see FIG. 3). Therefore, at the time of printing the roll sheet 3A, the roll sheet 3A is pulled out with the holder pressing portion 51 pressing the attachment member 21 of the roll sheet holder 3.
Here, the holder support member 23 functions as a support member. Moreover, the 1st positioning groove part 24 functions as a fitting part. Further, the positioning holding member 20 functions as a reference side holding member. Moreover, the attachment member 21 functions as a to-be-fitted part. Moreover, the sheet | seat discrimination | determination part 60 and each sensor hole 60A-60F comprise a roll sheet specific | specification part.
Therefore, in the tape printer 1 according to the present embodiment, when the roll sheet holder 3 around which the roll sheet 3A is wound is mounted in the tape printer 1 and the upper cover 5 is closed, the upper cover 5 The provided holder pressing portion 51 comes into contact with the upper end portion of the attachment member 21 fitted in the first positioning groove portion 24 of the holder support member 23. Then, the tip end side of the holder pressing portion 51 is elastically deformed toward the ceiling portion 48 side of the upper cover 5. Thereby, since the attachment member 21 of the roll sheet holder 3 is stably pressed via the holder pressing portion 51, it is possible to reliably prevent the roll sheet holder 3 from being lifted or rattled when the roll sheet 3A is pulled out. Is possible.
Further, when the holder pressing portion 51 comes into contact with the upper end surface of the mounting member 21 of the roll sheet holder 3, the tip portion is elastically deformed toward the inner wall side of the upper cover 5. For this reason, the roll sheet holder 3 can be stably held via the holder pressing portion 51 with a simple configuration without requiring a biasing member such as a spring for bringing the holder pressing portion 51 into contact with the mounting member 21. It becomes possible to hold down.
Further, since the holder pressing portion 51 is formed in a flat plate shape having a predetermined width, it can be simplified in structure and has a small pressing force when the upper cover 5 is closed even if the dimensional accuracy is lowered. As a result, the front end portion is elastically deformed toward the inner wall side of the upper cover 5, and the roll sheet holder 3 can be reliably and stably pressed.
Further, when the upper cover 5 is closed and the holder pressing portion 51 is brought into contact with the mounting member 21, the reaction force acting on the tip of the holder pressing portion 51 is caused by the rotational axis of the upper cover 5. It works in a direction (in the direction of arrow X4 in FIG. 12) connecting the contact point that contacts the upper end surface of the attachment member 21 of the holder pressing portion 51. As a result, the reaction force acting on the tip of the holder pressing portion 51 hardly acts in the direction in which the upper cover 5 is opened, so that it is possible to prevent the upper cover 5 from being accidentally opened. Further, the elastic locking pieces 15 and the locking projections 15A for locking the upper cover 5 to the main body housing 2 and the engaging recesses 16 facing the elastic locking pieces 15 can be reduced in size. As a result, the tape printer 1 can be downsized.
Further, after the mounting member 21 of the roll sheet holder 3 is positioned and fitted in the first positioning groove portion 24, the upper cover 5 is closed, whereby the upper end portion of the mounting member 21 is held by a holder press provided on the upper cover 5. It is possible to stably press the part 51. For this reason, when the roll sheet 3A is pulled out, the sensor holes 60A to 60F formed in the sheet determination unit 60 provided at the lower end edge of the positioning holding member 20 are lifted and rattled from the sheet determination sensors P1 to P6. It is possible to reliably prevent and accurately specify the type of the roll sheet 3A.
Furthermore, since the holder pressing part 51 formed on the upper cover 5 made of transparent resin is formed along the mold drawing direction of the upper cover 5 formed by resin molding, the upper cover 5 is made of transparent resin. Even if formed, it is possible to improve the appearance.
For example, a slit-shaped notch groove may be formed at a predetermined length along the longitudinal direction at the center in the width direction of the tip of the holder pressing portion 51. Thereby, by adjusting the width and length of the notch groove, it is possible to adjust the pressing force for pressing the upper end portion of the attachment member 21 by the holder pressing portion 51.
It is an external appearance perspective view from the front side of the tape printer concerning this embodiment. It is a perspective view from the upper right side showing a state in which a roll sheet holder is attached to the tape printer by opening an upper cover. It is a sectional side view which shows the state which mounted | wore the tape printing apparatus with the roll sheet holder. It is a perspective view from the left front upper side which shows the state by which the upper cover of the tape printer was opened. It is a perspective view from the left rear upper side which shows the state by which the upper cover of the tape printer was opened. It is a front view at the time of making the die removal direction of an upper cover into the lower side. It is a left side view when the die removal direction of the upper cover is on the lower side. It is X1-X1 arrow sectional drawing of FIG. It is X2-X2 arrow sectional drawing of FIG. It is a perspective view from the top which shows an example of the roll sheet holder with which the roll sheet was mounted | worn. It is a perspective view from the lower part which shows an example of the roll sheet holder with which the roll sheet was mounted | worn. It is a figure explaining the state by which the upper end surface of the attachment member of the roll sheet holder was pressed by the holder pressing part of the upper cover. It is X3-X3 arrow sectional drawing of FIG.
DESCRIPTION OF SYMBOLS 1 Tape printer 2 Main body housing | casing 3 Roll sheet holder 3A Roll sheet 4 Roll sheet holder accommodating part 4B Discrimination recessed part 5 Upper cover 20 Positioning holding member 21 Mounting member 23 Holder support member 24 First positioning groove part 51 Holder pressing part 60 Sheet discrimination 60A-60F sensor hole P1-P6 sheet discrimination sensor
A support mechanism that removably supports a roll sheet holder around which a long roll sheet is wound in the main body casing, and a removably attached attachment to the rear upper edge of the main body casing. In a tape printer provided with an upper cover covering the upper side,
The support mechanism is
A support member erected on one side edge of the bottom surface portion facing one side in the width direction of the insertion port into which the roll sheet is inserted; and a fitting portion provided on the support member;
The roll sheet holder is
A reference-side holding member in contact with one end face of the roll sheet;
A fitted portion that is provided on the outer surface of the reference-side holding member and fits from above to below the fitting portion when the roll sheet holder is mounted;
When the upper cover is closed, the front end portion of the upper portion of the fitted portion fitted with the fitting portion is inclined diagonally upward from the inner wall portion, and the tip portion of the fitted portion is in so that the pressing and abutting the upper end portion has a holder holding part which extends in the tabular of predetermined width,
The holder pressing portion is formed so as to be elastically deformable toward the inner wall side of the ceiling portion of the upper cover when the tip end portion abuts and presses against the upper end portion of the fitted portion. Tape printer.
The longitudinal direction of the holder pressing part is perpendicular to the direction connecting the pivot axis of the upper cover and the contact point of the holder pressing part that contacts the upper end of the fitted part. The tape printer according to claim 1, wherein the tape printer is provided.
A sheet discrimination sensor disposed on the bottom surface of the base end of the support member on the roll sheet holder side;
A sheet discriminating portion extending a predetermined length from the lower end edge of the reference side holding member so as to face the outer peripheral surface of the roll sheet;
A roll sheet identification unit that is formed in the sheet identification unit and identifies the type of roll sheet in cooperation with the sheet identification sensor;
3. The tape according to claim 1, wherein when the fitted portion is fitted to the fitting portion, the roll sheet specifying portion can be detected via the sheet discrimination sensor. Printing device.
The upper cover is formed by resin molding,
The tape printing apparatus according to claim 1, wherein the holder pressing portion is formed along a mold drawing direction.
JP2007194107A 2007-07-26 2007-07-26 Tape printer Active JP4924267B2 (en)
JP2007194107A JP4924267B2 (en) 2007-07-26 2007-07-26 Tape printer
JP2009028976A JP2009028976A (en) 2009-02-12
JP4924267B2 true JP4924267B2 (en) 2012-04-25
ID=40400038
JP2007194107A Active JP4924267B2 (en) 2007-07-26 2007-07-26 Tape printer
JP (1) JP4924267B2 (en)
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2007-07-26 JP JP2007194107A patent/JP4924267B2/en active Active
JP2009028976A (en) 2009-02-12
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