Aspects of the disclosure relate to a printing cassette and a printer.
In a printer that performs printing on a printing tape, replacement and resupply of a printing tape is performed by attachment and detachment of a cassette accommodating a printing tape to and from the printer.
It is assumed that the above-described cassette is provided with a gear for transmitting a driving force to the inside of the cassette or a gear for transmitting a driving force from the cassette to the outside thereof. In a case where a portion of such a gear is exposed to the outside of a case of the cassette, the gear is easily damaged when the cassette is dropped and collides with a surface of a floor or somewhere.
Accordingly, aspects of the disclosure provide a printing cassette that may reduce damage to a gear that transmits a driving force.
In one or more aspects of the disclosure, a printing cassette may include: a case including a first case portion, a second case portion, and a third case portion; a first tape, at least a portion of which is accommodated in the third case portion; and a gear, a portion of which is accommodated in the second case portion and the other portion of which is located outside of the case, the gear being rotatable about a rotation axis parallel to a first direction.
The first case portion may have an outlet through which the first tape is discharged. The first case portion, the second case portion, and the third case portion may be disposed in an order of the first case portion, the second case portion, and the third case portion in the first direction.
In one or more aspects of the disclosure, a printer may include: a printing cassette; and a printer body on which the printing cassette is to be mounted. The printer body may include a driving force transmission portion that is to be engaged with the gear.
According to these configurations, the gear may be disposed at the second case portion sandwiched between the first case portion and the third case portion. Therefore, even if the printing cassette is dropped and a surface of the printing cassette extending perpendicular to the axial direction of the rotation axis of the gear collides with a surface of a floor or somewhere, the gear may be protected by the first case portion and the third case portion and damage to the gear is reduced.
A printer 1 illustrated in
In the illustrative embodiment, an axial direction of an output gear 18 is defined as an up-down direction. A direction that is perpendicular to the up-down direction and in which the output gear 18 and an input spool 16 are arranged next to each other is defined as a front-rear direction. A direction perpendicular to both the up-down direction and the front-rear direction is defined as a left-right direction.
The printing cassette 10 accommodates a printing medium. The printing cassette 10 is mountable to and removable from the printer body 100. Replacing the printing cassette 10 may achieve resupply of a printing medium and change of a type (e.g., color, material, or others) of the printing medium.
As illustrated in
As illustrated in
In the first roll 11, a to-be-printed tape on which printing is to be performed is wound around the first feed spool 12. Printing is performed on a surface of the to-be-printed tape by a print head 102 of the printer body 100 and an ink ribbon.
Two spacer films 13A, 13B are disposed outside the first roll 11 in the up-down direction such that the spacer films 13A, 13B sandwich the first roll 11 therebetween. The spacer fila 13A is disposed between the first roll 11 and the second cover portion 34 The spacer film 13B is disposed between the first roll 11 and the second frame portion 33.
The first feed spool 12 is rotatable about its rotation axis. The first feed spool 12 rotates along with conveyance of the to-be-printed tape by a platen roller 103 of the printer body 100, thereby feeding the to-be-printed tape to the print head 102.
In the second roll 14, the ink ribbon used for printing on the to-be-printed tape is wound around the second feed spool 15.
In a head opening 32B, the ink ribbon is laid on the to-be-printed tape and used for printing performed by the print head 102 therein. The ink ribbon that has been used for printing is taken up by the input spool 16. A rotation resistance is applied to the second roll 14 by a clutch spring held by the clutch spring holder 17.
The second feed spool 15 is rotatable about its rotation axis. The rotation axis of the second feed spool 15 is parallel to the rotational axis of the first feed spool 12, that is, parallel to the up-down direction.
The second feed spool 15 rotates along with take-up of the ink ribbon by the input spool 16, thereby feeding the ink ribbon to the print head 102. Further, the second feed spool 15 is disposed such that a portion thereof overlaps the first roll 11 in the up-down direction.
The input spool 16 is rotatable about its rotation axis. The rotation axis of the input spool 16 is parallel to the rotation axis of the second feed spool 15.
The input spool 16 has a cylindrical shape and has a hollow portion defined by an inner peripheral surface 16A. Spline teeth 16B are provided on the inner peripheral surface 16A of the input spool 16. A drive shaft 105 of the printer body 100 is to be coupled to the spline teeth 16B. The input spool 16 is rotated by the drive shaft 105 to take up the ink ribbon.
The output gear 18 is a single gear for outputting, to the outside, a driving force for conveying the to-be-printed tape. The output gear 18 transmits a driving force to the platen roller 103 via a platen gear 104 of the printer body 100.
The output gear 18 includes a disk that rotates about its rotation axis parallel to the up-down direction and teeth on a surface of the disk extending parallel to the up-down direction. One (i.e., an upper surface) of surfaces of the disk extending perpendicular to the up-down direction faces a cover portion 33B of the case 35 in the up-down direction. A portion of the other (i.e., a lower surface) of the surfaces of the disk extending perpendicular to the up-down direction does not face the case 35 in the up-down direction.
The output gear 18 is partially exposed to the head opening 32B, and thus, the exposed portion thereof is located outside the case 35. The output gear 18 is in engagement with the platen gear 104 at the head opening 32B in a state where the printing cassette 10 is mounted on the printer body 100.
As illustrated in
As illustrated in
The input gear 19 includes an external gear 19A and a cylindrical spool 19B fixed to a lower surface of the external gear 19A and having spline teeth on an inner peripheral surface thereof. The external gear 19A rotates integrally with the spool 19B by the driving force input to the spool 19B.
A rotation axis of the input gear 19 (i.e., a rotation axis of the external gear 19A and a rotation axis of the spool 19B) is coaxial with the rotation axis of the input spool 16. As illustrated in
That is, the input gear 19 is positioned between the input spool 16 and the first roll 11 in the up-down direction. Further, the input gear 19 is disposed such that a portion thereof overlaps the first roll 11 in the up-down direction.
The rotation axis of the input gear 19 extends in the hollow portion of the input spool 16. That is, the drive shaft 105 is inserted into the input spool 16 and the input gear 19 simultaneously. As a result, although the input gear 19 is not directly coupled to the input spool 16, the input gear 19 is rotated by a driving source (i.e., the drive shaft 105) common to the input spool 16.
The idle gear 20 is connected to be driven to (i.e., is in engagement with) the input gear 19 and the output gear 18, and transmits the driving force input to the input gear 19 to the output gear 18.
The idle gear 20 is a stepped gear in which a first gear 20A engaged with the input gear 19 and a second gear 20B engaged with the output gear 18 are arranged coaxially. The second gear 20B has a diameter smaller than the first gear 20A. Further, the second gear 20B is disposed at a position closer to the first roll 11 than the second gear 20B to the first gear 20A in the up-down direction (i.e., on an upper side). The idle gear 20 constitutes a deceleration mechanism that decelerates the driving force input to the input gear 19.
As illustrated in
The first cover portion 31 and a first portion that is a lower side of the first frame portion 32 constitute a first case portion 41 in which the second roll 14 (i.e., at least a portion of the ink ribbon), the second feed spool 15, and the input spool 16 are accommodated. That is, the second roll 14, the second feed spool 15, and the input spool 16 are disposed in a space surrounded by the first cover portion 31 and the first frame portion 32. The first case portion 41 is further provided with an outlet 32C through which the to-be-printed tape is discharged.
A second portion of the first frame portion 32 that is a side (i.e., an upper side) opposite to the first portion in the up-down direction and a third portion that is a lower side of the second frame portion 33 constitute a second case portion 42 in which a particular portion of the output gear 18, the input gear 19, and the idle gear 20 are accommodated. That is, the particular portion of the output gear 18, the input gear 19, and the idle gear 20 are disposed in a space surrounded by the first frame portion 32 and the second frame portion 33.
A fourth portion of the second frame portion 33 that is a side (i.e., an upper side) opposite to the third portion in the up-down direction and the second cover portion 34 constitute a third case portion 43 in which the first roll 11 (i.e., at least a portion of the to-be-printed tape) is accommodated. That is, the first roll 11 is disposed in a space surrounded by the second frame portion 33 and the second cover portion 34.
As illustrated in
A dimension of the first case portion 41 in the up-down direction and a dimension of the third case portion 43 in the up-down direction are both greater than a dimension of the second case portion 42 in the up-down direction. Further, the dimension of the first case portion 41 in the up-down direction is greater than or equal to the dimension of the third case portion 43 in the up-down direction. A dimension of the second frame portion 33 in the up-down direction is greater than a dimension of the first frame portion 32 in the up-down direction.
As illustrated in
The head opening 32B is a cutaway portion of the first sidewall 32A. The head opening 32B is a space in which the print head 102 is located by insertion into the head opening 32B from below in a state where the printing cassette 10 is mounted to the printer body 100. The tread opening 32B opens downward in the printing cassette 10.
The first guide 32D is a portion around which a to-be-printed tape 11A fed from the third case portion 43 is wound. The first guide 32D has a plurality of ribs being plates that are apart from each other in a circumferential direction of the second roll 14. The plurality of ribs protrude in a radial direction of the second roll 14, and a protruding amount of each of the plurality of ribs (i.e., a plate width) decreases as each of the plurality of ribs extends downward.
The protruding portion 32E is located upstream from the head opening 32B in a conveyance direction of the to-be-printed tape, and is a portion in which the to-be-printed tape and the ink ribbon are conveyed parallel to each other. The protruding portion 32E extends in the left-right direction. The to-be-printed tape and the ink ribbon are conveyed inside the protruding portion 32E from left to right during printing.
The protruding portion 32E has a first surface 32H that defines the head opening 32B. The first surface 32H serves as a rear surface of the protruding portion 32E and is orthogonal to the front-rear direction. In a state where the printing cassette 10 is mounted on the printer body 100, the first surface 32H faces the print head 102 in the front-rear direction.
The facing portion 32F is a plate portion facing the protruding portion 32E in the front-rear direction. The facing portion 32F separates the head opening 32B and a space in which the second roll 14, the second feed spool 15, and the input spool 16 are disposed in the front-rear direction. The facing portion 32F defines the head opening 32B and has a second surface 32I (refer to
The second surface 32I serves as a front surface of the facing portion 32F and is orthogonal to the front-rear direction. In a state where the printing cassette 10 is mounted on the printer body 100, the second surface 32I is opposite to the first surface 32H with respect to the print head 102 in the front-rear direction.
The first separation wall 32G separates the first case portion 41 and the second case portion 42 in the up-down direction. The first separation wall 32G is a portion of the second case portion 42. That is, in the first frame portion 32, the first portion constituting the first case portion 41 is a portion lower than the first separation wall 32G. On the other hand, the protruding portion 32E and the facing portion 32F protrude downward from the first separation wall 32G. Thus, the protruding portion 32E and the facing portion 32F are portions of the first case portion 41.
The first separation wall 32G has a third surface 32J that is disposed at an upper end of the head opening 32B in the up-down direction and connects between the protruding portion 32E and the facing portion 32F. The third surface 32J serves as a lower surface of the first separation wall 32G and is orthogonal to the up-down direction.
The outlet for opening 32K is a portion through which the to-be-printed tape that travels in the protruding portion 32E is to be discharged to the head opening 32B. The outlet for opening 32K is provided at a right end of the protruding portion 32E. The ink ribbon drawn from the second roll 14 is laid on the to-be-printed tape discharged from the outlet for opening 32K to the head opening 32B.
The first restricting portion 32L restricts movement of the to-be-printed tape in a width direction of the to-be-printed tape. The first restricting portion 32L is disposed between both ends (i.e., an upper end and a lower end) of the outlet 32C in the width direction of the to-be-printed tape (i.e., the up-down direction) in the first case portion 41 (refer to
The first partition wall 32M separates a space in which the output gear 18, the input gear 19, and the idle gear 20 are disposed and a space through which the to-be-printed tape travels. Specifically, in the second frame portion 33, the first partition wall 32M separates an inner area where the output gear 18, the input gear 19, and the idle gear 20 are disposed and an outer area that is more outside than the inner area.
As illustrated in
The cover portion 33B has surfaces perpendicular to the up-down direction. The cover portion 33B is disposed at a position where the cover portion 33B overlaps the output gear 18 in the up-down direction. In the illustrative embodiment, the cover portion 33B is contiguous with a lower end portion of the second sidewall 33A, and is disposed at a right front corner of the second frame portion 33.
The output gear 18, the cover portion 33B, and the first roll 11 are arranged next to each other in the order of the output gear 18, the cover portion 33B, and the first roll 11 in the up-down direction. As described above, an upper surface of the output gear 18 is entirely covered by the cover portion 33B.
As illustrated in
The first gear support portion 33D illustrated in
The second partition wall 33G separates a space in which the output gear 18, the input gear 19, and the idle gear 20 are disposed and a space through which the to-be-printed tape travels. Specifically, in the second frame portion 33, the second partition wall 33G separates an inner area where the first gear support portion 33D, the second gear support portion 33E, and the third gear support portion 33F are disposed and an outer area in which the second guide 33C is disposed. The second guide 33C protrudes from the second partition wall 33G.
The second separation wall 33H separates the second case portion 42 and the third case portion 43 in the up-down direction. The second separation wall 33H is a portion of the third case portion 43. That is, in the second frame portion 33, the third portion constituting the second case portion 42 is a portion lower than the second separation wall 33H.
On the other hand, the first gear support portion 33D, the second gear support portion 33E, the third gear support portion 33F, and the second partition wall 33G protrude downward from the second separation wall 33H. Therefore, the first gear support portion 33D, the second gear support portion 33E, the third gear support portion 33F, and the second partition wall 33G are portions of the second case portion 42.
The first claw 33I is disposed at a front end portion of the second frame portion 33. The second claw 33J is disposed at a left end portion of the second frame portion 33. The third claw 33K is disposed at a rear end portion of the second frame portion 33. The fourth claw 33L is disposed at a right end portion of the second frame portion 33.
Each of the claws 33I, 33J, 33K, and 33L protrudes downward and engages a corresponding opening or groove defined in the first sidewall 32A of the first frame portion 32. That is, the claws 33I, 33J, 33K, 33L connect between the first frame portion 32 and the second frame portion 33 in the up-down direction.
The output gear 18, the input gear 19, and the idle gear 20 are disposed between the first claw 33I and the third claw 33K in the front-rear direction and between the second claw 33J and the fourth claw 33L in the right-left direction.
As illustrated in
The second cover portion 34 illustrated in
A volume of an internal space of the third case portion 43 is greater than a volume of an internal space of the first case portion 41. A total weight of the third case portion 43 and the components (i.e., the first roll 11, the first feed spool 12, and others) accommodated in the third case portion 43 is greater than a total weight of the first case portion 41 and the components (i.e., the second roll 14, the second feed spool 15, the input spool 16, and others) accommodated in the first case portion 41.
As illustrated in
In a projection drawing in Which the output gear 18 and the case 35 are projected onto a virtual plane perpendicular to the up-down direction, the output gear 18 is located inside an outer edge of the case 35. The entire output gear 18 overlaps the case 35 in the up-down direction.
As illustrated in
Specifically, as illustrated in
As illustrated in
As illustrated in
The cassette insertion portion 101 is a recessed portion on which the printing cassette 10 is to be mounted. The cassette insertion portion 101 has a function of positioning the printing cassette 10.
The print head 102 is a device for performing printing on the to-be-printed tape held by the printing cassette 10.
The print head 102 is disposed in the cassette insertion portion 101. The print head 102 is disposed such that, in a state where the printing cassette 10 is mounted on the printer body 100, the print head 102 overlaps the to-be-printed tape and the ink ribbon in the front-rear direction at the head opening 32B.
The print head 102 has a plurality of heating elements, heat generation of which are individually controlled. The to-be-printed tape that has been conveyed to the head opening 32B by the platen roller 103 is pressed toward the print head 102 in which the heating elements have generated heat, via the ink ribbon. Thus, some ink on a particular surface of the ink ribbon is transferred onto the to-be-printed tape, and characters, symbols, and other representations are printed on the to-be-printed tape.
The platen roller 103 is a roller for conveying the to-be-printed tape from the inside to the outside of the printing cassette 10. A rotation axis of the platen roller 103 is parallel to the up-down direction.
The platen roller 103 is disposed adjacent to the print head 102 in the cassette insertion portion 101. The platen roller 103 contacts and presses the to-be-printed tape toward the print head 102 at the head opening 32B.
The platen gear 104 is a driving force transmission portion that is connected to be driven to the platen roller 103 and is to be engaged with the output gear 18. In the illustrative embodiment, a rotation axis of the platen gear 104 is coaxial with the rotation axis of the platen roller 103.
The platen roller 103 and the platen gear 104 are swingable between a position illustrated in
The drive shaft 105 is a shaft that is engaged with the input gear 19 when the drive shaft 105 is inserted into the input spool 16, and that rotates the input spool 16 and the input gear 19.
The drive shaft 105 is disposed in the cassette insertion portion 101. A rotation axis of the drive shaft 105 is parallel to the up-down direction. The drive shaft 105 rotates about its rotation axis by a driving source (e.g., a motor).
As illustrated in
As the input gear 19 is rotated by the drive shaft 105 in a state where the printing cassette 10 is mounted, the output gear 18 is rotated, the platen gear 104 is rotated by the rotation of the output gear 18, and the platen roller 103 is rotated by the rotation of the platen gear 104.
According to the illustrative embodiment described in detail above, the following effects may be obtained.
(1a) The output gear 18 is disposed at the second case portion 42 sandwiched between the first case portion 41 and the third case portion 43. Therefore, even if the printing cassette 10 is dropped and the surface of the printing cassette 10 extending perpendicular to the axial direction of the rotation axis of the output gear 18 collides with a surface of a floor or somewhere, the output gear 18 is protected by the first case portion 41 and the third case portion 43 and damage to the output gear 18 is reduced.
(1b) The protruding portion 32E and the facing portion 32F are connected to each other by the third surface 32J. Thus, strength of the protruding portion 32E may be increased. As a result, damage to the protruding portion 32E when the printing cassette 10 is dropped is reduced.
(1c) The volume and total weight of the third case portion 43 is greater than the volume and total weight of the first case portion 41. Thus, even if the printing cassette 10 is dropped, the third case portion 43 faces down and is likely to collides with a surface of a floor surface or somewhere. Therefore, damage to the output gear 18 disposed at the first case portion 41 and exposed to the head opening 32B is reduced.
(1d) The case portions are partitioned by the respective separation walls. Thus, even if the printing cassette 10 is dropped, a collision between parts disposed at the different case portions is reduced. Therefore, damage to the parts is reduced.
(1e) The to-be-printed tape wound around the first feed spool 12 may be smoothly fed from the third case portion 43 to the first case portion 41 by the first restricting portion 32L, the second restricting portion 33M, and the third restricting portion 34A.
(1f) In the second case portion 42, the first partition wall 32M and the second partition wall 33G prevent the to-be-printed tape conveyed toward the outlet 32C from interfering with the output gear 18, the input gear 19, and the idle gear 20.
A printer 1A illustrated in
The printing cassette 10A includes a third roll 21, an additional spool 22, an additional gear 23, and a pinch roller 24, each of which are illustrated in
The first cover portion 36 and the first frame portion 37 constitute a first case portion 41A. The first frame portion 37 and the second frame portion 38 constitute a second case portion 42A. The second frame portion 38 and the second cover portion 39 constitute a third case portion 43A.
The third feed spool 25 is identical to the input spool 16 except that the third feed spool 25 does not have the spline teeth 16B. The first cover portion 36, the first frame portion 37, the second frame portion 38, and the second cover portion 39 are identical to the first cover portion 31, the first frame portion 32, the second frame portion 33, and the second cover portion 34 that are further extended in the right-left direction, respectively. The other configurations of the printing cassette 10A are the same as those of the printing cassette 10 of the first illustrative embodiment except for the points described below and thus a description thereof will be omitted.
In the third roll 21, a laminating tape used for protecting the to-be-printed tape is wound around the third feed spool 25. The laminating tape has an adhesive surface to be adhered to the to-be-printed tape on which printing has been performed by the print head 102.
The additional spool 22 is rotatable about its rotation axis. The rotation axis of the additional spool 22 is parallel to the rotation axis of the second feed spool 15 (i.e., the up-down direction). The additional spool 22 is a take-up spool that takes up the ink ribbon by rotation of the additional gear 23.
The additional gear 23 is connected to the additional spool 22 and is in engagement with the idle gear 20. The additional gear 23 is rotated by a driving force input to the input gear 19 and rotates the additional spool 22.
The pinch roller 24 lays the laminating tape over the to-be-printed tape and presses the laminating tape toward the to-be-printed tape on which printing has been performed, in cooperation with a pressing roller 106. The pinch roller 24 is disposed downstream from the head opening 32B in the conveyance direction of the to-be-printed tape.
At least a portion (i.e., a portion drawn from the first roll 11) of the to-be-printed tape, at least a portion of the laminating tape, and at least a portion of the pinch roller 24 are arranged next to each other in directions (i.e., the front-rear direction and the left-right direction) perpendicular to the up-down direction and accommodated in the first case portion 41A.
The pinch roller 24 is supported by the second case portion 42A such that at least a portion of the pinch roller 24 overlaps the second case portion 42A in directions (i.e., the front-rear direction and the left-right direction) perpendicular to the up-down direction.
Specifically, an upper end portion of a shaft portion 24A of the pinch roller 24 is inserted in a recessed portion 37I defined in the first separation wall 32G of the first frame portion 37. The recessed portion 37I is a portion of the second case portion 42A.
The printer body 100A is identical to the printer body 100 of the first illustrative embodiment to which the pressing roller 106 illustrated in
The pressing roller 106 is configured to be swingable together with the platen roller 103 and the platen gear 104. That is, the pressing roller 106 are swingable between a position illustrated in
According to the illustrative embodiment described in detail above, the following effects may be obtained.
(2a) While having the same advantages as those of the first illustrative embodiment, contents printed on the to-be-printed tape may be protected by the laminating tape.
(2b) The particular portion of the pinch roller 24 overlaps the second case portion 42A in the directions perpendicular to the up-down direction. Therefore, the pinch roller 24 may be readily assembled to the case 35. As a result, productivity of the printing cassette 10 is improved.
Although the illustrative embodiments of the disclosure have been described above, it is needless to say that the disclosure is not limited to the above-described illustrative embodiments and may adopt various illustrative embodiments.
(3a) The printers of the above-described illustrative embodiments are not limited to printers that perform printing using an ink ribbon. The printers may perform printing using a heat-sensitive sheet that is a continuous strip as a to-be-printed tape. In addition, a printing cassette might not necessarily include a roll of an ink ribbon and a second feed spool.
For example, a printing cassette 10B illustrated in
In the printing cassette 10B, the third roll 52 is wound around the third feed spool 25 of the second illustrative embodiment. The printing cassette 10B includes the pinch roller 24 of the second illustrative embodiment, but does not include the second feed spool 15.
(3b) In the printing cassettes of the above-described illustrative embodiments, relationships of the volumes, the total weights, and the dimensions in the up-down direction between the first case portion, the second case portion, and the third case portion are not limited to those described above. The first case portion, the second case portion, and the third case portion may include parts other than the first cover portion, the first frame portion, the second frame portion, and the second cover portion described above.
(3c) In the printing cassette of the second illustrative embodiment, a laminating tape may be wound around the additional spool.
For example, a printing cassette 10C illustrated in
(3d) The functions of a single component in the above-described illustrative embodiments may be achieved by multiple components, or the functions of respective multiple components may be achieved by a single component. Further, some of the configurations of the above-described illustrative embodiments may be omitted. In addition, at least some of the configurations of one or more of the above-described illustrative embodiments may be added to or replaced with the configurations of another illustrative embodiment. It should be noted that all aspects included in the technical idea specified by the wording described in the claims are illustrative embodiments of the disclosure.
Number | Date | Country | Kind |
---|---|---|---|
2019-178164 | Sep 2019 | JP | national |
This is a continuation application of International Application No. PCT/JP2020/0341876 filed on Sep. 15, 2020 which claims priority from Japanese Patent Application No. 2019478164 filed on Sep. 30, 2019. The entire contents of the earlier applications are incorporated herein by reference.
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Number | Date | Country | |
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20220212480 A1 | Jul 2022 | US |
Number | Date | Country | |
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Parent | PCT/JP2020/034876 | Sep 2020 | US |
Child | 17702725 | US |