The entire disclosure of Japanese Patent Application No. 2010-145005, filed on Jun. 25, 2010, is expressly incorporated by reference herein.
The present invention relates to a tape cartridge that includes a tape core rotatably supported in a cartridge case and that houses a tape wound around the tape core, and also relates to a tape printer.
There is known a tape cartridge including a core body with a tape wound around an outer peripheral surface of the core body; a tape core including a disk-like rib that is provided at a middle stage position of an inner peripheral surface of the core body and rotatably supported at a protrusion of a lower case; and a cartridge case that is divided into two upper and lower sections (see PTL 1).
Since the rib is provided at a middle portion in an axial direction of the inner peripheral surface of the core body, the protrusion may be inserted into the tape core of the tape cartridge in any direction. Hence, mount failure can be prevented during assembly.
However, the tape core is supported only by the rib with a predetermined dimensional tolerance with respect to the protrusion. Owing to this, a “rattle” or the like of the tape core may be generated as the result of rotation of the tape core, for example, when a tape is unwound. Hence, if a force for pulling the tape acts on the tape unevenly in a width direction of the tape, the tape core may be inclined, and the tape may be unwound while the tape is inclined.
An object of the invention is to provide a tape cartridge and a tape printer that can restrict inclination of a tape core and stabilize rotation of the tape core.
A tape cartridge according to an aspect of the invention includes a tape core rotatably supported in a cartridge case and houses a tape wound around the tape core such that the tape can be unwound. The tape core includes a core body with the tape wound around an outer peripheral surface of the core body, a disk-like rib provided at a middle portion in an axial direction of an inner peripheral surface of the core body, and a shaft hole formed at an axis center of the rib. The cartridge case includes a shaft support that is inserted into the shaft hole and rotatably supports the tape core, and a rotation guide that slides on the inner peripheral surface of the core body.
With this configuration, the rib slides on the shaft support and the rotation guide slides on the inner peripheral surface of the core body. The tape core is rotatably supported in the cartridge case at two positions of the shaft support and the rotation guide. Accordingly, the tape core rotates without a “rattle” (without being inclined), and the tape wound around the tape core can be unwound straight. Since the rib is provided at the middle portion in the axial direction and hence the tape core is not directional, the tape core to which the shaft support is inserted may be arranged in any direction during assembly.
In this case, the rotation guide may be preferably arranged on a normal line at a position at which the tape is unwound.
When the tape is unwound, the tape core is pulled in a direction in which the tape is unwound, and the tape core is inclined. That is, a force that causes inclination is generated at the position at which the tape is unwound.
However, with this configuration, since the rotation guide is provided at the position at which the force acts the most, the tape core can be prevented from being inclined, and stable rotation without the “rattle” can be assured.
In this case, at least the single rotation guide may be preferably provided in a circumferential direction of the shaft support.
Alternatively, in this case, the rotation guide may be preferably provided over an entire circumference of the shaft support.
With this configuration, the inclination of the tape core in any direction can be prevented, and the “rattle” of the tape core can be reliably prevented.
In this case, the rotation guide may be preferably arranged with the shaft support. Also, the shaft support and the rotation guide may preferably have a predetermined thickness and may be preferably integrally molded with the cartridge case.
With this configuration, the rotation guide can be formed with regard to molding of the rotation guide having sufficient structural stiffness. Accordingly, the rotation of the tape core can be stabilized.
A tape printer according to another aspect of the invention includes a cartridge mount on which the above-described tape cartridge is removably housed, and performs printing on the tape that is unwound from the tape cartridge. The cartridge mount includes a fit protrusion that is fitted to the rotation guide of the mounted tape cartridge.
With this configuration, when the fit protrusion is fitted to the rotation guide, the tape cartridge is fixed to the cartridge mount non-rotatably. Accordingly, the “rattle” of the tape cartridge at the cartridge mount can be eliminated. That is, the tape cartridge can be positioned and non-movably housed, and the rotation of the tape core in the tape cartridge can be stabilized.
First Embodiment
A tape printer according to a first embodiment of the invention will be described below with reference to the accompanying drawings. This tape printer performs printing while a print tape and an ink ribbon are unwound from a mounted tape cartridge and simultaneously run with a tension applied to the print tape and the ink ribbon, and the tape printer cuts a printed portion of the print tape to create a label (tape piece).
A tape printer 1 etc. will be described with reference to
The tape cartridge 2 includes a tape unit 21 in which the print tape 21a is wound around a tape core 21b; a ribbon unit 22 in which an ink ribbon 22a is wound around a ribbon core 22b; a wind core 23 around which the used ink ribbon 22a is wound; and a platen roller 24 that unwinds and feeds the print tape 21 a from the tape unit 21.
The tape feeder 13 includes a plurality of driving shafts 17 that rotate the platen roller 24 and the wind core 23 to cause the print tape 21a and the ink ribbon 22a in the tape cartridge 2, which is mounted on the cartridge mount 12, to travel; a positioning protrusion 18 that engages with the tape core 21b and positions the tape core 21b; and a driving mechanism (not shown) that synchronously rotates the plurality of driving shafts 17.
When the tape cartridge 2 is mounted on the cartridge mount 12, a thermal head 19 contacts the platen roller 24 with the print tape 21a and the ink ribbon 22a arranged therebetween, and the tape printer 1 is brought into a print standby state (see
Next, the tape cartridge 2 will be described below in detail with reference to
The tape core 21b of the tape unit 21 includes a core body 26 with a print tape 21a wound around an outer peripheral surface of the core body 26, a rib 27 that protrudes from a middle portion in an axial direction of an inner peripheral surface of the core body 26, and a shaft hole 28 that is formed at the axis center of the rib 27 (see
Also, a backstop mechanism 31 is arranged at an inner peripheral surface of the core body 26 (see
The lower case 25b includes a shaft support 41 that is inserted into the shaft hole 28 and rotatably supports the tape core 21b, and a rotation guide 42 that is arranged with the shaft support 41 so as to slide on the inner peripheral surface of the core body 26.
The shaft support 41 has a hollow cylindrical shape standing on the lower case 25b. A vertical groove 43 is formed from an upper end of the shaft support 41. The vertical groove 43 extends to a position lower than the position of the ratchet groove of the tape core 21b mounted at the shaft support 41 (see
Accordingly, when the backstop spring 32 is inserted into the inner periphery portion of the shaft support 41 while the linear engagement portion 33 is positioned with respect to the vertical groove 43, the linear engagement portion 33 is placed on the ratchet groove. Then, when the upper case 25a is mounted in this state, the backstop spring 32 is compressed, and the linear engagement portion 33 is pressed to the ratchet groove (see
The rotation guide 42 protrudes from the shaft support 41 at a proximal end portion of the shaft support 41. The rotation guide 42 is integrally molded with the lower case 25b and has a predetermined thickness. In this embodiment, the rotation guide 42 is provided at a single position at the upper side in
A fit opening 44 is formed in a lower surface (back surface) of the lower case 25b (see
Next, the cartridge mount 12 on which the tape cartridge 2 is removably mounted will be described. As described above, the positioning protrusion 18 that engages with the tape core 21b and positions the tape core 21b stands on the cartridge mount 12 (see
With the above configuration, the rib 27 and the rotation guide 42 can stabilize the rotation of the tape core 21b, and the print tape 21a wound around the tape core 21b can be properly unwound.
In this embodiment, the rotation guide 42 is arranged with the shaft support 41 and is integrally formed with the shaft support 41. However, the rotation guide 42 may be separately provided at a position apart from the shaft support 41.
Second Embodiment
A tape cartridge 2 according to a second embodiment will be described with reference to
Third Embodiment
Modification of Third Embodiment
1 tape printer
2 tape cartridge
18
b fit protrusion
21
a print tape
21
b tape core
25 cartridge case
26 core body
27 rib
28 shaft hole
41 shaft support
42 rotation guide
Number | Date | Country | Kind |
---|---|---|---|
2010-145005 | Jun 2010 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2011/003541 | 6/21/2011 | WO | 00 | 12/18/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2011/161955 | 12/29/2011 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5333959 | Yamaguchi et al. | Aug 1994 | A |
5518328 | Okuchi et al. | May 1996 | A |
5595447 | Takayama et al. | Jan 1997 | A |
5788387 | Takayama et al. | Aug 1998 | A |
6126344 | Takayama et al. | Oct 2000 | A |
6386774 | Takayama et al. | May 2002 | B1 |
20070031171 | Heyse et al. | Feb 2007 | A1 |
Number | Date | Country |
---|---|---|
0 635 375 | Jan 1995 | EP |
0 958 931 | Nov 1999 | EP |
1 329 327 | Jul 2003 | EP |
05-185707 | Jul 1993 | JP |
07-032709 | Feb 1995 | JP |
10-071756 | Mar 1998 | JP |
2000-103129 | Apr 2000 | JP |
3882360 | Nov 2006 | JP |
Number | Date | Country | |
---|---|---|---|
20130089366 A1 | Apr 2013 | US |