1. Field of the Invention
The present invention relates to a printing apparatus in which an ink ribbon having a plurality of monochromatic inks of different colors is repeatedly arranged in a longitudinal direction on a sheet is used, an image to be transferred is formed on an intermediate transfer sheet serving as a recording medium, the image to be transferred on the intermediate transfer sheet is transferred on a printed matter, and a desired image is formed on a printed matter such as a disk, a card and the like.
2. Description of the Related Art For this type of printing apparatus, for example, a printing apparatus 100X has been known, as shown in
Specifically, in the printing apparatus 100X, a head unit U3 and an intermediate transfer unit U6 are mounted on a supporting plate 2X upwardly constructed on a rear portion of a chassis 1 (described as a frame in Patent Document 1). In addition, a ribbon unit U7 is detachably mounted in the supporting plate 2X.
Further, by making heater elements of a thermal head (not shown) of the head unit U3 emit heat selectively, an ink of an ink ribbon wound on a ribbon roller (not shown) of the ribbon unit U7 mounted on the supporting plate 2X is melted, and transferred to an intermediate transfer body (not shown) of an intermediate transfer unit U6. Thus, the ink transferred again to a predetermined printed matter. Thereafter a desired printing is performed.
Furthermore, the afore-mentioned printing apparatus 100X is constructed such that the head unit U3 is supported by the supporting plate 2X in a cantilever manner. In addition, positioning projections 51 provided on the supporting plate 2X are fitted into positioning holes 52 of the ribbon unit U7, a positioning projection 53 of the head unit U3 is fitted into a positioning hole 54 of the ribbon unit U7, and a stopper lever 55 of the head unit U3 is rotated so as to make one end of the stopper lever 55 to be engaged with an engagement portion 56 of the ribbon unit U7. As a result, the ribbon unit U7 is fixed on the chassis 1.
According to the printing apparatus having the above-mentioned structure, since the other side of the head unit U3, which is supported in a cantilever manner, is supported by a supporting frame 57 of the ribbon unit U7, the head unit U3 can be reliably supported.
[Patent Document 1] Japanese Unexamined Patent Application Publication No. 2002-337369
However, according to the above-mentioned printing apparatus disclosed in Patent Document 1, it is required that, even though the intermediate transfer body of the intermediate transfer unit is a long intermediate transfer sheet wound on a sheet bobbin, the intermediate transfer sheet be easily detachable, and a portion that holds the intermediate transfer sheet be reliably supported, similarly to the head unit.
Accordingly, the present invention is designed to solve the above-mentioned problems, and thus an object of the present invention is to provide a printing apparatus in which even though an intermediate transfer sheet is long, the intermediate transfer sheet can be easily attachable and detachable, and a part holding the intermediate transfer sheet can be reliably supported, similarly to a head unit.
In order to achieve the object, according to the present invention, there is provided a printing apparatus which comprises a main body unit for performing recording on a printed matter and a first detachable unit and a second detachable unit provided detachably in the main body unit. The printing apparatus further comprises an unit fixing means attached to at least one of the main body unit the first detachable unit and the second detachable unit, the unit fixing means is switchable to a lock position to engage with the remaining units so that the first and second detachable units are fixed to the main body unit and to an unlock position at which the first and second detachable units are detachably mounted to the main body unit.
Further, when the unit fixing means is switchable to the lock position, the main body unit, the first removable means and the second removable means are connected to each other through the unit fixing means to thus be fixed. In addition, when the unit fixing means is switchable to the unlock position, the first and second detachable units are attachable to the main body unit and detachable from the main body unit. Therefore, the attachment and detachment of the first and second detachable units to and from the main body unit can be easily performed. Further the first and second detachable units can be reliably attached to the main body unit.
A printing apparatus comprises a main body unit for performing recording on a printed matter, a first detachable unit and a second detachable unit provided detachably in the main body unit and unit fixing means attached to at least one of the main body unit, the first detachable unit and the second detachable unit. The unit fixing means is switchable to a lock position at which the unit fixing means engages with the remaining units to connect three units to each other so that the first and second detachable units are fixed to the main body unit and to an unlock position at which the first and second detachable units are detachably mounted to the main body unit. In addition, the main body unit comprises a chassis, a head unit for transferring an ink of an ink ribbon on an intermediate transfer sheet serving as a recording medium an end supported by the chassis in a cantilever manner, and a pinch roller unit for guiding the ink ribbon and/or the intermediate transfer sheet an end supported by the chassis in a cantilever manner. In addition, the first detachable unit comprises the ink ribbon, the second detachable unit comprises the intermediate transfer sheet, and the unit fixing means comprises connecting means for connecting or disconnecting the other end of the head unit to or from the other end of the pinch roller unit. When the unit fixing means is switchable to the lock position, the other end of the head unit and the other end of the pinch roller unit are connected to each other through the connecting means so that the first and second detachable units are fixed to the main body unit so as not to be detached therefrom. When the unit fixing means is switchable into the unlock position, the other end of the head unit and the other end of the pinch roller unit are disconnected from each other so that the first and second detachable units are detachably mounted to the main body unit.
An embodiment of the present invention will be described with reference to FIGS. 1 to 8. As shown in
The main body unit U5 has a chassis 1 that a vertical supporting plate 2 stands up on a rear side thereof, and a head unit U3 and a pinch roller unit U4 are mounted in a front side of the vertical supporting plate 2 so as to be supported in a cantilever manner. In addition, image transfer means 4 and printed matter carrying means 5 are mounted in the chassis 1. The printed matter carrying means 5 is arranged at a lower side of the image transfer means 4 such that a tray 6 can move in a horizontal direction. In addition, by the printed matter carrying means 5, a printed matter M, such as a CD and a DVD mounted in the tray 6, is arranged under the image transfer means 4 at a right side of the printing apparatus so that the printed matter M can be carried out from the right side of the printing apparatus after the image is transferred onto the printed matter M.
The first detachable unit U1 comprises a front-side vertical plate 7 (in detail, a plate obtained by bonding a relatively thin steel plate to a relatively thick resin plate), a back-side vertical plate 8, and an ink ribbon feeding bobbin 9 and an ink ribbon winding bobbin 10 that are rotatably bridged between the front-side vertical plate 7 and the back-side vertical plate 8 in upper and lower portions, respectively. The first detachable unit U1 is slid and pressed in a direction of arrow in
Further, the lower rotary shaft 16B is driven by a motor (not shown) so that the lower ink ribbon winding bobbin 10 is rotatably driven. In this case, an ink ribbon S1 that is wound on the ink ribbon feeding bobbin 9 by the ink ribbon winding bobbin 10 which is rotating is wounded on the ink ribbon winding bobbin 10 via a part of the head unit U3 by a plurality of guide rollers.
The second detachable unit U2 comprises a front-side vertical plate 17 (in detail, a plate obtained by bonding a relatively thin steel plate to a relatively thick resin plate), a back-side vertical plate 18, and an intermediate-transfer sheet feeding bobbin 19 and an intermediate transfer sheet winding bobbin 20 that are rotatably bridged between the front-side vertical plate 17 and the back-side vertical plate 18 in right and left portions, respectively. The second detachable unit U2 is slid and pressed in a direction of arrow in
Further, when the second detachable unit U2 is positioned as mentioned above, a circular recess portion 19A formed at a rear side of the intermediate transfer sheet feeding unit 19 and a circular recess portion 20A formed at a rear side of the intermediate transfer sheet winding bobbin 20 are fitted to two left side and right side rotary shafts 31A and 31B that protrude at a front side of the vertical supporting plate 2 in a bowl shape, so that the second detachable unit U2 is attached to the main body unit U5.
In the case of the second detachable unit U2, two left side and right side rotary shafts 31A and 31B are suitably driven by driving two motors (not shown) selectively. In this case, an intermediate transfer sheet S2 that is wound on the intermediate-transfer sheet feeding bobbin 19 can be wounded on the intermediate transfer sheet winding bobbin 20 via parts of the pinch roller unit U4 and image transfer means 4 by a plurality of guide rollers. To the contrary, the intermediate transfer sheet S2 can be rewound on the intermediate-transfer sheet feeding bobbin 19 from the intermediate transfer sheet winding bobbin 20.
Further, unit fixing means 33 is pivotally attached to the front-side vertical plate 14 of the head unit U3 by a supporting shaft 34 and is rotatable in a vertical plane of the front-side vertical plate 14. The supporting shaft 34 is provided with a spring 35 for biasing the unit fixing means 33 in a clockwise direction. Further, a concave portion 33A is formed in the unit fixing means 33. When the unit fixing means 33 rotates in the clockwise direction to be laid horizontally, the unit fixing means is eccentrically arranged toward a right end 33R indicating a direction of three o'clock so that a boss 36 provided on the front-side vertical plate 27 of the pinch roller unit U4 is fitted into the concave portion 33A.
Further, a fitting portion 33B composed of a thin plate, which can be loosely fitted into a circumferential groove 36A formed in the boss 36, is provided in a part corresponding to the concave portion 33A. When the fitting portion 33B is loosely fitted into the circumferential groove 36A of the boss 36, the right end 33R of the unit fixing means 33 is displaced in the back and forth direction of the unit fixing means 33 without misalignment. Further, the unit fixing means 33 is provided with an operating handle 33C.
Furthermore, when the unit fixing means 33 rotates in a clockwise direction to be laid horizontally, the unit fixing means 33 is provided to be relatively thin and long, the right end 33R indicating a direction of three o'clock is deviated from the front-side vertical plate 14 toward the right side so that the right end 33R protrudes to the second detachable unit U2 inserted and mounted in the main body unit U5, and a left end 33L indicating a direction of nine o'clock is away from the front-side vertical plate 14 toward the left side so that the left end 33L protrudes to the first detachable unit U1 inserted and mounted in the main body unit U5. In addition, the thin and long main body of the unit fixing means 33 that is formed so as to be thin and long becomes connecting means according to claim 2.
In addition, when the first detachable unit U1 and the second detachable unit U2 are inserted and mounted in the main body unit U5, the front surface of each of the first and second detachable units U1 and U2 is arranged on the same plane with the front surface of the front-side vertical plate 14 of the head unit U3 to which the unit fixing means 33 is pivotally attached or is arranged so as to be recessed as compared to the front surface of the front vertical plate 14 of the head unit U3.
Accordingly, the first detachable unit U1 and the second detachable unit U2 are mounted in the main body unit U5, the unit fixing means 33 is rotated in a clockwise direction to be laid horizontally, and the concave portion 33A is fitted into the boss 36. In this case, the head unit U3 and the pinch roller unit U4 are connected to each other through the unit fixing means 33, the front-side vertical plate 7 of the first detachable unit U1 is pressed by the left end 33L of the unit fixing means 33, and the front-side vertical plate 17 of the second detachable unit U2 is pressed by the right end 33R of the unit fixing means 33. As a result, it is possible to prevent the first and second detachable units U1 and U2 from separating from the main body unit U5 forwardly.
On the other hand, when the unit fixing means 33 is rotated in a counterclockwise direction to be upwardly constructed, the head unit U3 and the pinch roller unit U4 that are connected to each other through the unit fixing means 33 are disconnected from each other so that the first detachable unit U1 and the second detachable U2 are attachable to the main body unit U5 and are detachable from the main body unit U5.
In addition, when the first detachable unit U1 is mounted in the main body unit U5, the engaging and fixing bosses 15A and 15B are respectively fitted into the engaging and fixing holes 13A and 13B so that the front-side vertical plate 14 of the head unit U3 which is supported by the front side of the vertical supporting plate 2 in a cantilever manner is supported by the front-side vertical plate 7 of the first detachable unit U1, and the engaging and fixing boss 15C is fitted into the engaging and fixing hole 13C so that the front-side vertical plate 7 of the first detachable unit U1 is supported by the front side of the chassis 1. As a result, the front side of the head unit U3, which is supported by the front side of the vertical supporting plate 2 in a cantilever manner, is not bent downwardly due to a self-weight.
As shown in
Furthermore, when the pinch roller unit U4 is rotated toward a platen roller 37 side of the image transfer means 4, the intermediate transfer sheet S2 adheres closely to the platen roller 37 by the operation of two pinch rollers 38. The ink ribbon S1 adheres closely to the left side of the intermediate transfer sheet S2 that adheres closely to the platen roller 37. In this state, by making heater elements of a thermal head 39 of the head unit U3 emit heat selectively, the ink (not shown) of the ink ribbon S1 is melted to move to the intermediate transfer sheet S2. As a result, an image can be obtained.
On the ink ribbon S1, four colors of monochromatic inks consisting of, for example, black, cyan, magenta, and yellow are repeatedly arranged in this order in a longitudinal direction. The ink ribbon S1 moves sequentially in a direction of arrow. Whenever a monochromatic ink is transferred to the intermediate transfer sheet S2 from the ink ribbon Si, the intermediate transfer sheet S2 is rewound on the intermediate-transfer sheet feeding bobbin 19. Thereafter, an operation for transferring a subsequent monochromatic ink on the same image forming region of the intermediate transfer sheet S2 is repeatedly performed while the intermediate transfer sheet S2 is wound on the intermediate transfer sheet winding bobbin 20 from the intermediate-transfer sheet feeding bobbin 19, and thus the four colors of monochromatic inks are sequentially transferred to the intermediate transfer sheet S2. As a result, a full color image 41 is formed on the intermediate transfer sheet S2.
By moving the intermediate transfer sheet S2 and the printed matter M with the same speed while the image transfer roller 40 of the image transfer means 4 having heater elements therein is lowered to make the intermediate transfer sheet S2 adhere closely to the printed matter M of the tray 6, the full color image 41 formed on the intermediate transfer sheet S2 is transferred to the printed matter M. As a result, a printing 42 is performed for the printed matter M.
Further, since the present invention is not limited to the above-mentioned embodiment, various changes and modifications may be made in the invention without departing from the sprit and scope thereof.
For example, the unit fixing means 33 is provided in the pinch roller unit U4, the boss 36 is provided on the head unit U3, the unit fixing means 33 rotates in a counterclockwise direction to be laid horizontally, and the unit fixing means 33 and the boss 36 engage with each other. In this case, the head unit U3 and the pinch roller unit U4 are connected to each other through the unit fixing means 33, the front-side vertical plate 7 of the first detachable unit U1 is pressed by the left end of the unit fixing means 33, and the front-side vertical plate 17 of the second detachable unit U2 is pressed by the right end of the unit fixing means 33. As a result, it is possible to prevent the first and second detachable units U1 and U2 from separating from the main body unit U5 forward.
Furthermore, the unit fixing means 33 may comprise a first connecting means and a second connecting means. The first connecting means is rotatably provided on the front-side vertical plate 7 of the first detachable unit U1. When the first detachable unit U1 is inserted and mounted in the main body unit U5 to rotate, one end of the first connecting means is fitted into a concave portion formed in the head unit U3 and the other end of the first detachable unit is fitted into a concave portion formed in the chassis 1. As a result, it is possible to prevent the first detachable unit U1 from separating from the main body unit U5 forwardly. The second connecting means is rotatably provided on the front-side vertical plate 17 of the second detachable unit U2. When the second detachable unit. U2 is inserted and mounted in the main body unit U5 to rotate, one end of the second connecting means is fitted into a concave portion formed in the pinch roller unit U4 and the other end of the second detachable unit is fitted into a concave portion formed in the chassis 1. As a result, it is possible to prevent the second detachable unit U2 from separating from the main body unit U5 forwardly.
The printed matter M printed by the printing apparatus 100 of the present invention may be cards such as a telephone card and a credit card or may be plates for manufacturing identification.
Number | Date | Country | Kind |
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2003-373080 | Oct 2003 | JP | national |