The present application claims priority from JP 2006-291026, filed on Oct. 26, 2006, the disclosure of which is herein incorporated by reference in its entirety.
The disclosure relates to a printer unit which executes a predetermined printing activity by supplying printing object mediums with a supplying means, the printing object mediums being accommodated in an accommodating portion such that they are stacked, and more particularly to a printer unit having a supply roller which rotates in contact with the printing object mediums stacked in the accommodating portion based on driving of a supply driving means.
Conventionally, there has been known a printer unit in which the printing object mediums are accommodated in a laminated manner in the accommodating portion thereof in order to supply the printing object medium to the printing means by rotating the supply roller kept in contact with the printing object medium. When printing is executed, the supply roller is rotated to supply the recording object medium. Thus, if the printer unit continues to be used, such a fault as paper feeding trouble is generated because the supply roller is deteriorated. To eliminate such a fault, the supply roller needs to be replaced, however a conventional printer unit takes much time and labor for the replacement work of the supply roller because the supply roller is incorporated within the printer unit main body.
As a disclosure for solving this kind of the problem, an invention described in Japanese Patent Application Laid-Open No. 2001-294335 has been well known. The Japanese Patent Application Laid-Open No. 2001-294335 has described an invention relating to an image forming apparatus in which a supply unit including the supply roller is attached detachably. That is, the image forming apparatus described in the Japanese Patent Application Laid-Open No. 2001-294335 enables the supply unit to be replaced when the supply roller is deteriorated and needs to be replaced. Consequently, related consumption components can be replaced without disassembling the image forming apparatus entirely.
However, even when a consumption component (for example, a supply roller) is deteriorated in the image forming apparatus described in the Japanese Patent Application Laid-Open No. 2001-294335, the entire supply unit needs to be replaced. That is, in case of the image forming apparatus described in the Japanese Patent Application Laid-Open No. 2001-294335, even if a separation feeding roller or the like constituting the supply unit is still usable, the entire supply unit is replaced, which is a large waste. Additionally, because the entire supply unit is replaced, the cost relating to the replacement component becomes higher than a case of replacing only the supply roller.
When replacing the supply roller in the image forming apparatus described in the Japanese Patent Application Laid-Open No. 2001-294335, disassembly work of the supply unit and reassembly work of the supply unit after the supply roller is replaced are necessary because the supply roller is assembled into the supply unit. In this case, other components than the supply roller of the supply unit need to be disassembled, resulting in that extremely much time and labor are required for the replacement work of the supply roller. In this point, because the supply unit itself is constructed in a relatively complicated structure, time and labor required for the replacement work of the supply roller increase. Further, because the supply unit needs to be reassembled after the supply roller is replaced, if the assembly work is not carried out accurately, the image forming apparatus may not operate properly. Particularly, because other components than the supply roller are disassembled upon replacement work, a fault (a fault caused by the replacement work is called a secondary fault) may occur in any component which operates properly before the replacement.
Accordingly, the disclosure has been achieved to solve the above-described conventional problems and an object of the disclosure is to provide a printer unit which executes a predetermined printing activity by supplying printing object mediums with a supplying means, the printing object mediums being accommodated in an accommodating portion such that they are stacked, and more particularly, a printer unit which allows the supply roller which rotates in contact with the printing object mediums stacked in the accommodating portion based on driving of the supply driving means to be replaced easily.
To achieve the purpose of the disclosure, there is provided a printer unit comprising: an accommodating portion which accommodates printing object mediums such that they are stacked; a printing means for printing the printing object medium based on a desired print data; a supply roller supported rotatably in contact with the printing object mediums accommodated in the accommodating portion; and a supply means having a supply drive means for rotating the supply roller for supplying the printing object medium to the printing means, wherein the supply roller includes: a drive shaft member which is rotated with driving of the supply drive means; roller member which has a contact portion making contact with the printing object medium on a peripheral face thereof while an end thereof is attached detachably to the drive shaft member and contains a sliding hole made at the other end along a center axis thereof; and a mounting shaft member which is inserted slidably into a sliding hole formed in the roller member so as to support the roller member rotatably, the mounting shaft member being rotated together with the roller member.
In this printer unit, the supply roller is comprised of the drive shaft member, the roller member and the mounting shaft member. When the drive shaft member is rotated by the supply driving means, the roller member is rotated interlocked therewith because it is attached detachably to the drive shaft member. Then, the mounting shaft member is rotated together with the roller member. That is, because components of the supply roller are rotated integrally in this printer unit, the printing object medium can be supplied to the printing means. In the supply roller of the printer unit, an end of the roller member is attached detachably to the drive shaft member while the mounting shaft member is inserted slidably into a sliding hole at the other end of the roller shaft member. Thus, by sliding the mounting shaft member, the supply roller itself can be shortened. Consequently, space which allows an end of the roller member to be removed from the drive shaft member can be created, so that the supply roller can be taken out of the printer unit main body. Further, the mounting shaft member can be removed from the roller member by sliding it. That is, because only the roller member can be separated easily, only the roller member which is a consumption part can be replaced easily and rapidly.
Hereinafter, the printer unit of the disclosure will be described about an exemplary embodiment of the disclosure realized as a portable small size printer unit 1 with reference to the accompanying drawings.
The portable small size printer unit 1 has a box-type main body case 2 with an open top face having a size of A6 in its plan view and thickness of about 2 cm and a fixed cover body 3 is disposed on one side of the top face. A paper accommodating portion 6 for accommodating a paper cassette (not shown) in which a plurality of sheets of paper 4 are stacked is formed within the main body case 2 excluding this fixed cover body 3 (see
A printing mechanism unit 7 is disposed below the fixed cover body 3 of the main body case 2. This printing mechanism unit 7 includes a thermal head 8, a platen roller 9, a paper guide 10, a pickup roller 5, a separation block 12 and the like (see
A charging connector 16, a communication switch 17, a USB terminal 18, and a power key 19 are disposed on the side face of the main body case 2. When the rechargeable battery which is a driving source for the portable small size printer unit 1 by receiving a supply of power from an external power supply (not shown), an AC adapter (not shown) is connected to the charging connector 16. The communication switch 17 is a switch which switches on/off transmission/receiving of data transmitted via electromagnetic wave from a portable terminal having wireless communication unit such as portable phone and PDA. The USB terminal 18 is constructed to be capable of being connected to a portable terminal or personal computer through a USB cable (not shown) and receives data transmitted via the USB cable. The power key 19 is an operating means for turning power ON/OFF to the portable small size printer unit 1.
A mounting groove 20 is formed in U shape on the side face on the fixed cover body 3 side of the main body case 2. A supporting base (not shown) for use in supporting the portable small size printer unit 1 in a standing condition is mounted on this mounting groove 20. Then, the mounting groove 20 contains a plurality of air holes 22. Because the air holes 22 communicate with outside of the main body case 2, the thermal head 8 and the driving motor 21 disposed on the printing mechanism unit 7 can be cooled. Additionally, a hooking hole (not shown) is formed in the mounting groove 20 and this hooking hole enables a strap or an anti-theft wire (not shown) to be attached.
Next, the structure of the printing mechanism unit 7 of the portable small size printer unit 1 of the first embodiment will be described in detail with reference to the drawings.
As described above, the printing mechanism unit 7 is disposed below the fixed cover body 3 of the main body case 2. Within the printing mechanism unit 7, a pickup roller 50 for supplying the paper accommodating portion 6 to the thermal head 8 and the like and a separation block 12 for separating each of the sheets of paper 4 supplied by the pickup roller 50 are disposed on the side of the paper accommodating portion 6 of the portable small size printer unit 1 (see
As shown in
When a print instruction or print data is sent from an external unit such as a portable phone to the portable small size printer unit 1 through wireless communication or USB terminal 18, driving of the driving motor 21 (see
The paper 4 fed separately by cooperation of the pickup roller 50 and the separation block 12 is fed to a gap between the platen roller 9 and the paper guide 10. The platen roller 9 is provided rotatably at a position adjacent to the separation block 12. Because driving force of the driving motor is transmitted through a gear string 37 like the aforementioned pickup roller 50, the platen roller 9 is rotated interlocked with the driving of the driving motor 21. The paper guide 10 is a member for guiding the fed paper 4 to a print position described later along the outer peripheral face of the platen roller 9. The paper guide 10 is disposed along the platen roller 9 so as to form a sliding contact face 30. Here, the sliding contact face 30 has a substantially U-shaped section formed in the paper guide 10 and located along the outer peripheral face of the platen roller (see
After the paper 4 is fed to the print position, printing is performed on the paper 4 based on inputted print data by the thermal head 8 and platen roller 9. The thermal head 8 is a line head type thermal head, which can print characters, pictures and the like on every line extending in a direction perpendicular to the feeding direction of the paper 4. In the thermal head 8, a print width for printing a single line is set substantially equal to the width of the paper 4. The reason for use of the thermal head 8 as the print head is that using the heat sensitive paper as the printing object paper eliminates the necessity of consumption products such as ink and ink ribbon thereby omitting related mechanisms so as to form the portable small size printer unit 1 in a compact size.
As shown in
The structure of the pickup roller 50 disposed on the printing mechanism unit 7 of the portable small size printer unit 1 will be described in detail with reference to the drawings. As shown in
On the other hand, a shaft mounting portion 42a is formed at a position opposing the arrangement position of the drive shaft member 51 on the first side face 41. The shaft mounting portion 42a is formed into a cylindrical shape having an inside diameter slightly larger than the outside diameter of the front end of a slide shaft member 58 described later on the inside face of the second side face 42. Then, the front end of the slide shaft member 58 is fitted to the shaft mounting portion 42a. Because the inside diameter of the shaft mounting portion 42a is set slightly larger than the outside diameter of the front end of the slide shaft member 58, a rotation of the slide shaft member 58 is never obstructed when the front end of the slide shaft member 58 is fitted to the shaft mounting portion 42a.
Next, the structure of the pickup roller 50 disposed in the portable small size printer unit 1 of the first embodiment will be described in detail with reference to the drawings. As shown in
The roller main body 55 is comprised of a roller shaft member 55a formed cylindrically and coating rubber 55b disposed on the outer peripheral face of the roller shaft member 55a so as to come into contact with the paper 4. The first convex portion 55c to be fitted to the first concave portion 51a formed in the drive shaft member 51 is formed at an end of the roller shaft member 55a (see
An end side of the slide shaft member 58 is inserted slidably into the sliding insertion hole 55d in the roller main body 55 while the other end side thereof is fitted to the shaft mounting portion 42a in the second side face 42. As shown in
The rotation restricting member 56 is a member for restricting a rotation of the slide shaft member 58 relative to the roller main body 55. The rotation restricting member 56 is provided to restrict itself from rotating relative to the slide shaft member 58 on the sliding restricting portion 58a of the slide shaft member 58. The rotation restricting member 56 has a flat face which makes contact with the flat face formed in the sliding restricting portion 58a and the rotation restricting member 56 is mounted not to rotate relative to the slide shaft member 58 by cooperation of the both flat faces. In the meantime, the rotation restricting member 56 can slide in the axial direction of the slide shaft member 58 on the sliding restricting portion 58a. A restricting convex portion 56a is formed on the rotation restricting member 56. As described above, this restricting convex portion 56a is fitted to the cutout portion 55e formed in the roller main body 55 (see
The spring 57 is a coil spring which is mounted around the slide shaft member 58 such that it is disposed between the spring holding portion 58b and the rotation restricting member 56. An end of the spring 57 makes contact with the rotation restricting member 56 while the other end of the spring 57 makes contact with the spring holding portion 58b. Therefore, bias force of the spring 57 acts in a direction of sliding the slide shaft member 58 outward. Consequently, when the pickup roller 50 is mounted, the spring 57 acts to extend the pickup roller 50 by its bias force, thereby preventing the front end of the slide shaft member 58 from slipping out of the shaft mounting portion 42a at the time of normal use.
When the slide shaft member 58 is slid resisting the bias force of the spring 57 from the normal condition shown in
Next, a procedure for replacement work of the pickup roller 50 in the portable small size printer unit 1 of the first embodiment will be described in detail with reference to the drawings.
After the roller main body 55 is removed from the drive shaft member 51, the replacement worker removes the front end of the slide shaft member 58 from the shaft mounting portion 42a (see
After the deteriorated roller main body 55 is replaced, the replacement worker mounts the previously removed rotation restricting member 56, spring 57 and slide shaft member 58 to a new roller main body 55. Because the respective members used before replacement can be used as the rotation restricting member 56, spring 57 and slide shaft member 58, the quantity of members replaced in the replacement work can be minimized. After that, the roller main body 55 is pressed toward the second side face 42 by fitting the front end of the slide shaft member 58 into the shaft mounting portion 42a. Consequently, the pickup roller 50 can be elongated/contracted. With this condition, the first convex portion 55c is fitted to the first concave portion 51a with the first convex portion 55c of the roller main body 55 aligned with the position of the first concave portion 51a in the drive shaft member 51. As a result, the pickup roller 50 having the new roller main body 55 is installed onto the printing mechanism unit 7.
As described above, the portable small size printer unit 1 of the first embodiment enables the replacement work of the pickup roller 50 by elongating/contracting the pickup roller 50 by sliding the slide shaft member 58 relative to the roller main body 55. Further, as shown in
The portable small size printer unit 1 of the first embodiment requires only the roller main body 55 to be replaced when the pickup roller 50 is replaced and as for the rotation restricting member 56, the spring 57 and the slide shaft member 58, the members already mounted before the replacement may be used again. Consequently, the cost for the members to be replaced can be reduced, thereby reducing burden on user and manufacturer accompanied by replacement of the pickup roller 50.
Next, an embodiment different from the first embodiment will be described as the second embodiment in detail with reference to the drawings. The second embodiment has the same basic structure as the portable small size printer unit 1 of the first embodiment. The same structure as the first embodiment of the second embodiment will be described with the same reference numerals. Because the second embodiment is different from the first embodiment in only the structure of the pickup roller, the pickup roller 60 of the second embodiment will be described in detail with reference to the drawings.
As shown in
The roller main body 65 is comprised of a roller shaft member 65a formed cylindrically and coating rubber 65b disposed on the outer peripheral face of the roller shaft member 65a so as to come into contact with the paper 4. The second convex portion 65c to be fitted to the second concave portion 61a formed in the drive shaft member 61 is formed at an end of the roller shaft member 65a (see
An end side of the slide shaft member 68 is inserted slidably into the sliding insertion hole 65d in the roller main body 65 while the other end side thereof is fitted to the shaft mounting portion 42a in the second side face 42. As shown in
The position fixing member 66 is a member which restricts the rotation of the slide shaft member 68 with respect to the roller main body 65 and restricts sliding of the slide shaft member 68. That is, the position fixing member 66 is a member which fixes a relative position of the slide shaft member 68 with respect to the roller main body 65. In the meantime, the position fixing member 66 is attached to the slide shaft member 68 detachably. The position fixing member 66 is provided to restrict itself from rotating with respect to the slide shaft member 68 through the sliding restricting portion 68a of the slide shaft member 68. The position fixing member 66 has a flat face which makes contact with the flat face formed in the sliding restricting portion 68a and the position fixing member 66 is blocked from rotating with respect to the slide shaft member 68 by cooperation of the both flat faces. The position fixing member 66 has a rotation restricting convex portion 66a. As described above, this rotation restricting convex portion 66a is fitted to the cutout portion 65e formed in the roller main body 65 (see
To shorten the entire length of the pickup roller 60 from the normal condition (for example, a condition in which the pickup roller 60 is mounted (see
Next, the procedure of the replacement work of the pickup roller 60 according to the second embodiment will be described in detail with reference to the drawings.
After the entire length of the pickup roller 60 is shortened by sliding the slide shaft member 68, the replacement worker moves the pickup roller 60 in the axial direction and removes the second convex portion 65c of the roller main body 65 from the second concave portion 61a in the drive shaft member 61 (see
After the deteriorated roller main body 65 is replaced, the replacement worker attaches the slide shaft member 68 to the new roller main body 65. The second convex portion 65c is fitted to the second concave portion 61a with the second convex portion 65c of the roller main body 65 set to the second concave portion 61a of the drive shaft member 61. Consequently, an end of the pickup roller 60 is mounted to the printing mechanism unit 7. With this state, the slide shaft member 68 is slid outward of the roller main body 65 so as to fit the front end of the slide shaft member 68 to the shaft mounting portion 42a. Then, the other end of the pickup roller 60 is also mounted to the printing mechanism unit 7. To fix the position of the slide shaft member 68 with respect to the roller main body 65, the replacement worker attaches the position fixing member 66 to the sliding restricting portion 68a in the slide shaft member 68. At this time, the rotation restricting convex portion 66a of the position fixing member 66 is fitted to the cutout portion 65e of the roller main body 65. Consequently, the pickup roller 60 having the new roller main body 65 is mounted on the printing mechanism unit 7.
As described above, the portable small size printer unit 1 of the second embodiment enables the replacement work of the pickup roller 60 by elongating/contracting the pickup roller 60 by sliding the slide shaft member 68 relative to the roller main body 65 after the position fixing member 66 is removed. Further, as shown in
The portable small size printer unit 1 of the second embodiment requires only the roller main body 65 to be replaced when the pickup roller 60 is replaced and, as for the position fixing member 66 and the slide shaft member 68, the members already mounted before the replacement may be used again. Consequently, the cost for the members to be replaced can be reduced, thereby reducing burden on users and manufacturers accompanied by replacement of the pickup roller 60.
The present disclosure is not restricted to the above-described embodiments, but needles to say, may be improved or modified in various ways within a range not departing from the spirit of the present disclosure. For example, although the first and second embodiments have been described about cases in which the present disclosure is applied to portable small size printer units, the present disclosure is not restricted to these embodiments. That is, the printing object mediums in a stacked condition can be supplied by rotation of the supply roller.
While the presently exemplary embodiment has been shown and described, it is to be understood that this disclosure is for the purpose of illustration and that various changes and modification may be made without departing from the scope of the disclosure as set forth in the appended claims.
Number | Date | Country | Kind |
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2006-291026 | Oct 2006 | JP | national |