The present application is based on, and claims priority from, Japanese Application Number 2009-258621, filed Nov. 12, 2009, the disclosure of which is hereby incorporated by reference herein in its entirety.
1. Technical Field
The present invention relates to a printer that can move a platen that defines the printing position where a print head prints on a recording medium to a position removed from the printing position so that the recording medium transportation path is open at the printing position. More particularly, the invention relates to a printer that can position a platen movably supported by a platen support mechanism to the printing position in a specific posture.
2. Related Art
When loading roll paper in a roll paper printer, the cover of the roll paper compartment must be opened, the roll paper loaded, and the recording paper must be pulled from the roll and threaded through the recording paper transportation path passed the printing position of the print head. To simplify loading the recording paper, the platen, which determines the printing position, may be configured to move with the cover so that when the cover opens the platen separates from the printing position (from the print head disposed on the printer housing side) and the recording paper transportation path is open.
Japanese Unexamined Patent Appl. Pub. JP-A-2009-95993 and Japanese Unexamined Patent Appl. Pub. JP-A-2007-175911 teach platen support mechanisms that support a platen frame on which the platen is carried by means of a four joint parallel linkage mechanism disposed on each side of the platen frame. This platen support mechanism causes the platen frame to move in the front-back direction of the printer between a closed position where the platen is positioned to the printing position and an open position separated from the closed position while the platen frame, and more specifically the platen, is held in a constantly horizontal posture.
A problem with these platen support mechanisms that use a linkage mechanism is that play develops in the joints between the links over time. As a result, when the cover is closed and the platen is positioned to the printing position, play in the platen support mechanism may result in the platen or platen frame not being set to the desired specific posture. If the platen is positioned at an angle to the print head instead of in the desired horizontal posture, and the print head is an inkjet head, print quality will drop because the gap between the recording paper conveyed over the platen surface and the ink nozzle surface of the print head is not constant. In addition, if the platen frame is not supported in the specified position when the platen is positioned to the printing position, parts on the platen frame may interfere with the print head, for example, and cause other problems.
With the platen support mechanism taught in JP-A-2009-95993, a pair of protrusions are formed at the front part of the platen frame on opposite sides widthwise to the printer, and the platen is positioned to the printing position by engaging the pair of protrusions in matching channels disposed to the printer frame when the cover closes. However, because this positioning method cannot control the inclination of the platen frame in the front-back direction of the printer when positioning the platen, the platen frame is not supported in the specified posture and the platen becomes tilted in the front-back direction of the printer when play develops in the platen support mechanism.
With the platen support mechanism taught in JP-A-2007-175911, a guide roller is disposed at the back end part of the platen frame on one side widthwise to the printer, and the platen is positioned to the printing position when the cover is closed by causing the guide roller to ride onto a positioning member formed on the printer frame. However, because this positioning method cannot control the inclination of the platen frame in the front-back direction of the printer when positioning the platen, the platen frame is not supported in the specified posture and the platen becomes tilted in the front-back direction of the printer when play develops in the platen support mechanism.
A printer according to the present invention can position a platen that is supported movably from the printing position by a platen support mechanism to the printing position in a specific desirable posture regardless of play in the platen support mechanism.
A first aspect of the invention is a printer having a platen that determines a printing position of a print head; a platen frame on which the platen is mounted; and a platen support mechanism that supports the platen frame movably to a closed position where the platen is positioned to the printing position, and an open position separated from the closed position, and has a platen positioning mechanism that positions the platen frame at four places so that the platen frame is in a predetermined posture at the closed position, the four places including a first front position and a second front position on opposite sides at the front in the opening direction, and a first back position and a second back position on opposite sides at the back in the opening direction.
The platen support mechanism according to this aspect of the invention has a platen positioning mechanism that positions the platen frame in a specific posture at four locations when at the closed position, that is, both sides of the front and both sides of the back of the platen frame in the direction in which the platen frame opens. The platen frame is therefore always positioned to the closed position in a specific posture regardless of any play in the platen support mechanism. As a result, because the posture of the platen in the printing position is always controlled to a specific posture, a constant gap can be assured between all parts of the platen surface and the print head. The gap between the recording paper conveyed over the platen surface and the print head is therefore constant, and print quality can be maintained. In addition, because the platen frame is controlled to a specific posture in the closed position, there is no interference between parts on the platen frame and the print head or other parts.
In order for the platen support mechanism to control the path of platen frame movement between the closed position and the open position, the platen positioning mechanism preferably includes a first guide channel formed at the first front position on one side of the platen frame and a first side panel part of the main printer frame opposite the first back position, a second guide channel formed at the second front position on the other side of the platen frame and a second side panel part of the main printer frame opposite the second back position, a first front positioning pin and a first back positioning pin respectively disposed at the first front position and the first back position of the platen frame, a second front positioning pin and a second back positioning pin respectively disposed at the second front position and the second back position; and the first front positioning pin and the first back positioning pin are guided by the first guide channel, and the second front positioning pin and the second back positioning pin are guided by the second guide channel, from an intermediate position of platen frame movement toward the closed position, and are thereby respectively positioned to the first front position and the first back position, and the second front position and the second back position, when the platen frame is in the closed position.
Further preferably, in order to simplify positioning in the closing direction to the closed position of the platen frame, the platen frame is positioned in the closing direction to the closed position by the first back positioning pin contacting the end of the first guide channel in the closing direction of the platen frame and the second back positioning pin contacting the end of the second guide channel in the closing direction of the platen frame.
Yet further preferably, in order to suppress a drop in the rigidity of the main printer frame caused by forming the first and second guide channels, the ends of the first guide channel and the second guide channel in the direction to which the platen frame opens are open ends; the part where the open end of the channel is formed in the first side panel is reinforced by a reinforcing member without interfering with the first front positioning pin and first back positioning pin; and the part where the open end of the channel is formed in the second side panel part is reinforced by a reinforcing member without interfering with the second front positioning pin and second back positioning pin.
In another aspect of the invention, the platen support mechanism has a first front link and a first back link respectively disposed to the first front position and first back position side, and a second front link and a second back link respectively disposed to the second front position and the second back position side, at front and back locations in the opening direction of the platen frame; the first front link and the second front link are compound links rendered by connecting respective first links and second links in series through a first pin joint; the first back link and the second back link are compound links rendered by connecting respective third links and fourth links in series through a second pin joint; a fifth link spans between the first pin joint and the second pin joint; and a six joint parallel linkage mechanism that supports the platen frame on both sides of the platen frame is rendered by the first to fifth links. The path of platen frame movement can be designed more freely if the platen support mechanism has a six joint parallel linkage mechanism.
In a printer according to another aspect of the invention, the platen support mechanism has a first front link and a first back link respectively disposed to the first front position and first back position side, and a second front link and a second back link respectively disposed to the second front position and the second back position side, at front and back locations in the opening direction of the platen frame; and a four joint parallel linkage mechanism that supports the platen frame on both sides of the platen frame is rendered by these links. The platen frame can be made to move along a curved path if the platen support mechanism has a four joint parallel linkage mechanism.
In order to open the recording paper transportation path that conveys recording paper passed the printing position when the access cover for opening and closing a roll paper compartment in which roll paper is stored is opened, a printer according to another aspect of the invention preferably has a roll paper compartment that stores roll paper; and an access cover for opening and closing the roll paper compartment; wherein the platen frame opens and closes in conjunction with opening and closing the access cover.
A printer according to another aspect of the invention has a main frame to which a print head is disposed and which has a first side panel part and second side panel part; and a platen frame that carries a platen that is positioned opposite the print head, can move relative to the main frame, and is disposed between the first side panel part and the second side panel part of the main frame. The platen frame can move to a first position where the platen is opposite the print head, and a second position where the platen is separated from the print head, and includes a first protrusion and a third protrusion that protrude towards the first side panel of the main frame, and a second protrusion and a fourth protrusion that protrude toward the second side panel of the main frame. The first protrusion and the second protrusion are disposed coaxially, and the third protrusion and the fourth protrusion are disposed coaxially. On the first side panel part the main frame has a first guide unit that guides the first protrusion of the platen frame, and a third guide unit that guides the third protrusion of the platen frame; and on the second side panel part has a second guide unit that guides the second protrusion of the platen frame, and a fourth guide unit that guides the fourth protrusion of the platen frame. The first guide unit has a first stop that contacts the first protrusion when the platen frame is positioned at the first position, and the second guide unit has a second stop that contacts the second protrusion when the platen frame is positioned at the first position. When the platen frame is positioned to the first position, the first protrusion is supported by the first guide unit and contacts the first stop, the second protrusion is supported by the second guide unit and contacts the second stop, the third protrusion is supported by the third guide unit, and the fourth protrusion is supported by the fourth guide unit.
The platen support mechanism according to this aspect of the invention has a platen positioning mechanism that positions the platen frame in a specific posture at four locations when at the closed position, that is, both sides of the front and both sides of the back of the platen frame in the direction in which the platen frame opens. The platen frame is therefore always positioned to the closed position in a specific posture regardless of any play in the platen support mechanism. As a result, because the posture of the platen in the printing position is always controlled to a specific posture, a constant gap can be assured between all parts of the platen surface and the print head. The gap between the recording paper conveyed over the platen surface and the print head is therefore constant, and print quality can be maintained. In addition, because the platen frame is controlled to a specific posture in the closed position, there is no interference between parts on the platen frame and the print head or other parts.
Other objects and attainments together with a fuller understanding of the invention will become apparent and appreciated by referring to the following description and claims taken in conjunction with the accompanying drawings.
A preferred embodiment of an inkjet roll paper printer according to the present invention is described below with reference to the accompanying figures.
General Configuration of a Roll Paper Printer
The roll paper printer 1 (referred to below as simply a printer) shown in
An operating tab 5a is attached protruding down from a position at the front bottom side of the discharge guide 5. When this operating tab 5a is pulled out in front of the printer, the cover 4 lock is disengaged. When the lock is disengaged and the operating tab 5a is pulled further forward, the cover 4 can be opened forward and down from the closed position 4A shown in
A power switch 8a, paper feed switch 8b, and a plurality of operating indicators 8c are disposed in the front of the case 2 on the right side of the cover 4. An opening 9a to the ink cartridge loading unit 9 is rendered in the front of the case 2 on the left side of the cover 4, and an ink cartridge 10 storing plural colors of ink is loaded in this ink cartridge loading unit 9.
The roll paper compartment 7 has a roll paper tray 11 with an arcuate section as shown in
A platen 16 and print head 17 (inkjet head) are disposed above the roll paper compartment 7. The print head 17 is mounted on a head carriage 18, and can move bidirectionally widthwise to the printer 1 along a guide shaft 19. The nozzle surface 17a of the print head 17 faces the top surface of the platen 16 with a specific gap therebetween.
A paper feed drive roller 20 is disposed behind the platen 16, and a paper feed follower roller 21 is pressed from below to the paper feed drive roller 20. A discharge drive roller 22 is disposed in front of the platen 16, and a discharge follower roller 23 is pressed from above to the discharge drive roller 22.
The web of recording paper 13 pulled from the roll paper 12 is conveyed passed a feed roller 14 and a tension roller 15 disposed behind and above the feed roller 14 toward the platen 16. The recording paper 13 passes between the paper feed drive roller 20 and paper feed follower roller 21, is conveyed passed the printing position defined by the top surface of the platen 16, passes between the discharge drive roller 22 and discharge follower roller 23, and is fed towards the paper exit 6. The recording paper 13 is thus conveyed over the top surface of the platen 16 from the back of the printer to the front. The surface of the recording paper 13 passing the printing position is then printed on by the print head 17. The recording paper 13 fed out from between the discharge drive roller 22 and discharge follower roller 23 is cut widthwise by a cutter mechanism 25 disposed near the paper exit 6.
The cutter mechanism 25 includes a fixed knife 25a disposed to a front connecting plate 35 described below, and a movable knife 25b disposed to the platen unit 30. The recording paper 13 is conveyed between the fixed knife 25a and movable knife 25b, and is cut by the movable knife 25b moving towards the fixed knife 25a. The recording paper slip (not shown in the figure) that is cut off is removed from the paper exit 6 of the printer 1 and issued as a receipt, for example.
Platen Unit
As shown in
The tension roller 15 is mounted on the back end of the platen unit 30, and the discharge guide 5 is attached to the front end of the platen unit 30. The platen unit 30 is normally positioned where the platen 16 defines the printing position of the print head 17, that is, in the closed position 30A shown in
When the operating tab 5a of the discharge guide 5 is pulled forward, a lock not shown disengages and the platen unit 30 can be pulled out to the open position 30B shown in
The cover 4 is attached to a cover mounting frame 46 connected to the platen unit 30, and opens to the front in conjunction with movement of the platen unit 30 from the closed position 30A to the open position 30B. The roll paper tray 11 of the roll paper compartment 7 also pivots to a position that is tilted a specific angle to the front of the printer as shown in
As shown in
Main Frame
As shown in
Platen Support Mechanism
The platen support mechanism that supports the platen unit 30 movably with the cover 4 from the closed position 30A to the open position 30B is described next. The platen support mechanism is constructed around a six joint parallel linkage mechanism 42 (also called simply a six joint linkage mechanism below).
Referring to these figures, the platen support mechanism has a right-side platen support mechanism 40R disposed on the side of the right inside side panel 38, and a left-side platen support mechanism 40L disposed on the side of the left inside side panel 37. The right-side platen support mechanism 40R and the left-side platen support mechanism 40L are symmetrical left and right (plane symmetric) and have basically the same construction.
The right-side platen support mechanism 40R has a platen positioning mechanism 41 and a six joint linkage mechanism 42.
The platen positioning mechanism 41 guides the platen unit 30 to an intermediate position from the closed position 30A to the open position 30B along the first path S1, and positions the platen unit 30 in a predetermined specific posture at the closed position 30A. The six joint linkage mechanism 42 holds the platen unit 30 guided along the first path S1 in a specific posture, and moves while holding the platen unit 30 in a specific posture along the curved second path S2 from this intermediate position to the open position 30B.
Platen Positioning Mechanism
The platen positioning mechanism 41 has guide channels 43 that guide the platen unit 30 from the closed position 30A along the straight first path S1 toward the front of the printer.
The guide channels 43 extend toward the back of the printer from the front edges 37a, 38a of the left and right inside side panels 37 and 38, respectively. Each guide channel 43 has a rear positioning guide channel part 43a at the back end of the guide channel 43, a straight guide channel part 43b of a specific width extending from the rear positioning guide channel part 43a toward the front of the printer, and a curved inclined guide surface 43c that slopes down contiguously from the bottom guide surface of the front end part of the straight guide channel part 43b. The front end part of the straight guide channel part 43b renders a front positioning guide channel part 43d.
The bosses 26d that protrude to the sides widthwise to the printer at the front of the platen unit 30, the shaft ends 27a of the support shaft 27 protruding to the sides widthwise to the printer at the back of the platen unit 30, and the guide channel 43 together render the platen positioning mechanism 41.
More specifically, when the platen unit 30 moves to the closed position 30A, the boss 26d (first front-side positioning pin) that protrudes from a position at the front and the shaft end 27a (first back-side positioning pin) that protrudes from a position at the back of the platen unit 30 opposite the left inside side panel 37 (first side panel part) are slidably inserted to the platen unit guide channel 43 (first guide channel) in the left inside side panel 37, and the boss 26d (second front-side positioning pin) that protrudes from a position at the front and the shaft end 27a (second back-side positioning pin) that protrudes from a position at the back of the platen unit 30 opposite the right inside side panel 38 (second side panel part) are slidably inserted to the platen unit guide channel 43 (second guide channel) in the right inside side panel 38. As a result, the platen unit 30 moves along the guide channel 43.
When the platen unit 30 is pushed toward the back of the printer (in the direction in which the platen frame 26 closes) to the closed position 30A, the shaft ends 27a at the back of the platen unit 30 ride onto the rear positioning guide channel part 43a at the back end of the guide channel 43 and contact the end of the platen unit guide channel 43. The bosses 26d at the front of the platen unit 30 simultaneously ride onto the front positioning guide channel part 43d at the front end of the straight guide channel part 43b. As a result, the platen unit 30 is positioned in a predetermined specific posture at the closed position 30A, and the platen 16 is positioned to the printing position in a posture with a specified gap to the nozzle surface 17a of the print head 17.
The right inside side panel 38 has a flange 38b that bends to the outside from the front edge 38a thereof. The platen unit guide channel 43 is formed with an open end rendered in the part where the flange 38b is formed, and extends from this front edge 38a toward the back of the printer. The boss 26d and shaft end 27a can be inserted to the platen unit guide channel 43 from the open end. The flange 38b functions as a reinforcing member that suppresses a drop in the rigidity of the inside side panel 38 that results from forming the platen unit guide channel 43.
The platen unit guide channel 43 in the left inside side panel 37 is formed by cutting a channel of a specific length from the front edge 37a of the inside side panel 37. On the other inside side panel 37, a reinforcing member 37d vertically spans the platen unit guide channel 43 from one inside side panel part 37b to the other inside side panel part 37c disposed one above the other with the platen unit guide channel 43 therebetween. The reinforcing member 37d is recessed to the outside so that it does not interfere with the boss 26d and shaft end 27a sliding through this platen unit guide channel 43. A drop in the rigidity of the inside side panel 37 can be suppressed by providing this reinforcing member 37d.
Note that a configuration in which the guide channel (or guide recess) is rendered on the platen unit 30 side, and the shaft (or protrusion) is formed on the main frame 31 side, could also be used.
Six Joint Linkage Mechanism
The six joint linkage mechanism 42 includes a first compound link 71 (front link) including a first link 51 second link 52 connected in series by a first joint pin 61, a second compound link 72 (back link) including a third link 53 and a fourth link 54 connected in series by a second joint pin 62, and a fifth link 55 connected to the first joint pin 61 of the first compound link 71 and the second joint pin 62 of the second compound link 72.
The bottom end of the first compound link 71 and the bottom end of the second compound link 72 are respectively connected to a third joint pin 63 and fourth joint pin 64 at specific front and back positions separated a specific distance when seen along the front-back direction of the printer (the direction in which the platen unit 30 opens). The third and fourth joint pins 63, 64 are rendered by support rods that extend widthwise to the printer and are attached to the inside side panel 38 or bottom panel 32.
The top end of the first compound link 71 and the top end of the second compound link 72 are similarly respectively connected to a fifth joint pin 65 and sixth joint pin 66 disposed at places on the side of the platen unit 30 separated a specific distance in the front-back direction of the printer. The rear sixth joint pin 66 is rendered by the end 27a of the support rod 27 that can slide along the guide channel 43.
The six joint linkage mechanism 42 is thus rendered by first to fifth links 51 to 55, and first to sixth joints 61 to 66. More specifically, the length of the line segment connecting the first pin joint 61 and second joint 62, the length of the line segment connecting the third joint 63 and fourth joint 64, and the length of the line segment connecting the fifth joint 65 and sixth joint 66 are equal; the length of the line segment connecting the first joint 61 and the third joint 63, and the length of the line segment connecting the second joint 62 and the fourth joint 64 are equal; and the length of the line segment connecting the first joint 61 and the fifth joint 65, and the length of the line segment connecting the second joint 62 and the sixth joint 66, are equal. In addition, the line segments connecting the first joint 61 and second joint 62, the third joint 63 and the fourth joint 64, and the fifth joint 65 and sixth joint 66 are parallel. The six joint parallel linkage mechanism 42 is thus rendered.
Note that in this embodiment of the invention the two first links 51 disposed on the left and right sides are rendered in unison (that is, are rendered as a single part), and the second link 52 is likewise rendered from two second links disposed on the left and right sides formed in unison (that is, formed as a single part).
When the platen unit 30 is in the closed position 30A, the first and second compound links 71, 72 of the six joint linkage mechanism 42 curve toward the front. More specifically, the first compound link 71 is curved with the first joint 61 connecting the first link 51 and second link 52 of the first compound link 71 positioned closer to the front of the printer than the third and fifth joints 63, 65. Likewise, the second compound link 72 is curved with the second joint 62 connecting the third link 53 and fourth link 54 of the second compound link 72 positioned closer to the front of the printer than the fourth and sixth joints.
The curved front first compound link 71 and rear second compound link 72 are connected to each other by the fifth link 55. Therefore, when the platen unit 30 slides forward guided by the guide channel 43, that is, while the elevation (height) of the sixth joint 66 (end 27a) of the six joint linkage mechanism 42 is controlled by the guide channel 43, the platen unit 30 slides forward while held in a constant posture.
As the platen unit 30 slides forward, the first and second compound links 71, 72 gradually extend from the curved position. More specifically, the first and second compound links 71, 72 are configured so that they are fully extended when the end 27a of the support rod 27 that renders the sixth joint 66 at the top end of the second compound link 72 has moved from the front end of the straight guide channel part 43b of the guide channel 43 to the inclined guide surface 43c (at an intermediate position between the closed position 30A and open position 30B).
The lengths of the first and second compound links 71, 72, that is, the length when the compound links are fully extended from the curved position, are the same. In other words, the maximum distance between the top and bottom fifth joint 65 and third joint 63 of the first compound link 71 when the first compound link 71 is fully extended (the length of the line segment connecting the third joint (contact point) 63 and fifth joint (contact point) 65 when the first, third, and fifth contact points 61, 63, 65 are positioned on the same line), and the maximum distance between the top and bottom sixth joint 66 and fourth joint 64 of the second compound link 72 when the second compound link 72 is fully extended (the length of the line segment connecting the fourth joint (contact point) 64 and sixth joint (contact point) 66 when the second, fourth, and sixth contact points 62, 64, 66 are positioned on the same line), are equal.
The first compound link 71 is configured so that when fully extended the first link 51 and second link 52 are mutually engaged and cannot curve in the opposite direction (to the back). Therefore, after the first and second compound links 71, 72 are fully extended, the six joint linkage mechanism 42 functions as a four joint parallel linkage mechanism. As a result, the platen unit 30 thereafter moves along the curved second path S2 defined by the linkage length of the first and second compound links 71, 72 to the open position 30B while held in a constant posture.
As shown in
Note that the shapes of the left and right first to fifth links 51 to 55 do not need to be the same, but the positions of the first to sixth joints 61 to 66 must be symmetric.
The cover mounting frame 46 spans between the bottom surface of the front end part of the platen unit 30 and the bottom end parts of the left and right inside side panels 37, 38. As shown in
Out-of-Plane Rigidity Reinforcement Mechanism of the Six Joint Linkage Mechanism
As shown in
Because the first to fifth links 51 to 55 rendering the six joint linkage mechanism 42 are thus disposed with the inside side panel 38 therebetween, the out-of-plane rigidity of the linkage mechanism is assured by the inside side panel 38, and sideways deflection of the six joint linkage mechanism 42 widthwise to the printer and chatter can be suppressed when force is applied from the side.
More particularly, when the platen unit 30 has moved to the open position 30B in this embodiment of the invention, the complete third link 53 is opposite the outside surface of the inside side panel 38, and approximately half of the fourth link 54 connected thereto is opposite the inside surface of the inside side panel 38 (see
Note that as will be understood from
Opening and Closing the Platen Unit
When the platen unit 30 is positioned in the closed position 30A in the specific predetermined posture, the platen 16 mounted on the platen unit 30 is positioned to a position opposite the nozzle surface 17a of the print head 17 with a specific gap therebetween. The paper feed follower roller 21 and discharge drive roller 22 mounted on the platen unit 30 are also respectively pressed to the paper feed drive roller 20 and discharge follower roller 23 on the main frame 31 side. The front and back compound links 71, 72 of the six joint linkage mechanism 42 are bent forward and the length of the links is shortened.
When the operating tab 5a attached to the front of the platen unit 30 is pulled forward, the lock is released and the operating tab 5a is then pulled further forward, the platen unit 30 is pulled along the guide channel 43 to the printer front. As a result, the shaft ends 27a of the platen unit 30 move from the rear positioning guide channel part 43a to the straight guide channel part 43b a step lower, and the bosses 26d of the platen unit 30 move from the front positioning guide channel part 43d to the inclined guide surface 43c side. As a result, the complete platen unit 30 descends a step, and the paper feed follower roller 21 and discharge drive roller 22 move down and away from the paper feed drive roller 20 and discharge follower roller 23 on the main frame 31 side.
Because the platen unit 30 moves forward along the straight guide channel part 43b while held in a constant posture by the six joint linkage mechanism 42, the platen unit 30 moves forward without interference with other parts disposed above the platen unit 30 on the main frame 31 side. The platen unit 30 is also configured so that it is pulled forward without interference with the roll paper 12 stored below the platen unit 30.
The platen unit 30 is thus pulled out in a straight line towards the operating direction of the operating force applied to the operating tab 5a at the front. Because the platen unit is pulled on a curved path when the platen unit is supported by a four joint parallel linkage mechanism, the direction of the operating force and the direction of platen unit movement are not the same, and the platen unit cannot be pulled out smoothly. In this embodiment of the invention, however, the platen unit 30 can be pulled out smoothly with little operating force along the straight guide channel part 43b without being constrained by the linkage mechanism (that is, because the linkage mechanism can expand).
Furthermore, while the platen unit 30 is pulled out along a straight first path S1 (such as the path of the sixth joint pin 66) in this embodiment of the invention, this first path S1 is not limited by the six joint linkage mechanism 42 because the linkage mechanism is not a fixed length. As a result, insofar as there are no problems with operability, the first path S1 is not limited to a straight path, and the platen unit 30 can be pulled along any desired path of movement that is within the extension range of the compound links 71, 72, including a curved path or stepped path, for example.
As shown in
From this position a four joint parallel linkage mechanism is rendered by the fully extended first and second compound links 71, 72. More specifically, the top end of the first link 51 contacts a stop 52a formed on the bottom end of the second link 52, and the first compound link 71 is held fully extended. The second compound link 72 linked to the first compound link 71 by the fifth link 55 is also held fully extended, rendering a four-joint parallel linkage mechanism with joints at the third to sixth joints 63 to 66.
The platen unit 30 is then pulled to the forward open position 30B while held in the same posture along the curved second path S2 (such as the path drawn by the sixth joint 66) defined by the first and second compound links 71, 72 functioning as a four-joint parallel linkage mechanism.
Note that the third link 53 and fourth link 54 of the second compound link 72 could be engaged with each other so that they do not curve to the opposite side (back side).
The closing operation whereby the platen unit 30 is closed from the open position 30B to the closed position 30A is the reverse of the opening operation described above. When closing the platen unit 30, the platen unit 30 moves from the open position 30B along the curved second path S2. When the shaft ends 27a at the back of the platen unit 30 are then inserted to the platen unit guide channel 43 and reach the front end of the straight guide channel part 43b, the platen unit 30 is pushed toward the back of the printer along the straight first path S1.
When the platen unit 30 is pushed to the closed position 30A, the platen unit 30 is positioned in a specific posture by the platen positioning mechanism 41. More specifically, the shaft ends 27a at the back of the platen unit 30 ride onto the rear positioning guide channel part 43a of the platen unit guide channel 43 and contact the end of the platen unit guide channel 43. At the same time, the bosses 26d at the front of the platen unit 30 ride onto the front positioning guide channel part 43d at the front of the straight guide channel part 43b. As a result, the platen 16 returns to the position shown in
Because the platen unit 30 (platen frame 26) on which the platen 16 is carried is positioned by bosses 26d on both sides widthwise to the printer at the front of the platen unit 30, and by shaft ends 27a on both sides widthwise to the printer at the back of the platen unit 30, tilting of the platen unit 30 in the front-back direction of the printer and tilting widthwise to the printer is controlled. As a result, inclination of the platen 16 is controlled both in the front-back direction of the printer and widthwise to the printer. Therefore, even if play develops in the platen support mechanism, the platen 16 can be constantly positioned to the printing position in a specified posture.
In addition, because the shaft ends 27a at the back of the platen unit 30 contact the ends of the platen unit guide channel 43, the platen 16 can be accurately positioned in the front-back direction of the printer.
An embodiment applying the invention to a roll paper printer that has a platen support mechanism that supports the platen unit 30 by means of a four joint parallel linkage mechanism is described below.
The configuration of this roll paper printer 1A is basically the same as the configuration of the roll paper printer 1 described above, and corresponding parts are therefore identified by the same reference numerals.
In this printer 1A the platen support mechanism 40A is rendered by a four joint parallel linkage mechanism including a front link 101 and a back link 102. The bottom ends of these links are connected to joints disposed to the main frame 31 side. The tops ends thereof are connected to the platen unit 30, and more specifically the top ends of the front link 101 are connected to the bosses 26d and the top ends of the back link 102 are connected to the support shaft 27 (shaft ends 27a).
The platen unit 30 can pivot in the front-back direction of the printer along a curved path of movement along the inside side panels 37, 38 (such as the path drawn by the back shaft ends 27a), and the platen 16 moves between the closed position 30A defining the printing position and the open position 30B where the platen 16 is pulled out in front of the main frame 31 while held in a specified posture.
With this four joint parallel linkage mechanism the shaft ends 27a at the back of the platen unit 30 and the bosses 26d at the front of the platen unit 30 move along different curved paths of movement when the platen unit 30 moves. As a result, the platen positioning mechanism 41A has curved back platen unit guide channels 143 that guide the shaft ends 27a, and curved front platen unit guide channels 144 that guide the bosses 26d. The shaft ends 27a are slidably inserted to the back platen unit guide channels 143, and the bosses 26d are slidably inserted to the front platen unit guide channels 144. The back end part of the back platen unit guide channels 143 is a rear positioning guide channel part 143a, and the back end part of the front platen unit guide channels 144 is a front positioning guide channel part 144a.
The right inside side panel 38 has a flange 38b that bends to the outside from the front edge 38a of the side panel. The back platen unit guide channel 143 and front platen unit guide channel 144 each have an open end where the flange 38b is formed, and are formed extending from the front edge 38a toward the back of the printer. Note that the left inside side panel 37 has a flange identically to the right inside side panel 38, and the back platen unit guide channel 143 and the front platen unit guide channel 144 can be formed from this flange in the left inside side panel 37. Alternatively, a reinforcing member similar to the reinforcing member 37d described above may be attached near the open ends of the back platen unit guide channels 143 and front platen unit guide channels 144.
In the closing operation that closes the platen unit 30 from the open position 30B to the closed position 30A, the platen unit 30 is held in the same posture while moving along a curved path of movement to the back of the printer. When the platen unit 30 is pushed to the closed position 30A, the platen unit 30 is positioned in a specific posture by the platen positioning mechanism 41. More specifically, the shaft ends 27a at the back of the platen unit 30 are positioned in the rear positioning guide channel part 143a of the back platen unit guide channels 143 in contact with the end of the channel. At the same time, the bosses 26d of the platen unit 30 are positioned in the front positioning guide channel part 144a of the front platen unit guide channels 144 in contact with the end of the channel. As a result, the platen 16 is positioned in a specific posture to the printing position as shown in
In this embodiment of the invention the platen unit 30 (platen frame 26) on which the platen 16 is carried is positioned by the bosses 26d on both sides widthwise to the printer at the front of the platen unit 30, and the shaft ends 27a on both sides widthwise to the printer at the back of the platen unit 30. As a result, because tilting of the platen unit 30 in the front-back direction of the printer and tilting widthwise to the printer is controlled, inclination of the platen 16 is controlled both in the front-back direction of the printer and widthwise to the printer. Therefore, even if play develops in the platen support mechanism, the platen 16 can be constantly positioned to the printing position in a specified posture.
In addition, because the bosses 26d of the platen unit 30 contact the ends of the front platen unit guide channels 144 and the shaft ends 27a of the platen unit 30 contact the ends of the back platen unit guide channels 143, the platen 16 is accurately positioned in the front-back direction of the printer.
The foregoing embodiment of the invention applies the invention to a roll paper printer with a roll paper compartment. The invention is not so limited, however, and can also be used in roll paper printers that do not have a roll paper compartment, as well as other types of printers having a platen unit that opens and closes in order to open and close the recording paper transportation path (such as printers that can print on fanfold paper).
Although the present invention has been described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be noted that various changes and modifications will be apparent to those skilled in the art. Such changes and modifications are to be understood as included within the scope of the present invention as defined by the appended claims, unless they depart therefrom.
Number | Date | Country | Kind |
---|---|---|---|
2009-258621 | Nov 2009 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4681468 | Kallin et al. | Jul 1987 | A |
6022158 | Nakayama et al. | Feb 2000 | A |
6155730 | Nakayama et al. | Dec 2000 | A |
7563045 | Nagata | Jul 2009 | B2 |
8157462 | Hirabayashi | Apr 2012 | B2 |
8197060 | Maekawa | Jun 2012 | B2 |
20090096854 | Maekawa | Apr 2009 | A1 |
Number | Date | Country |
---|---|---|
02041445 | Feb 1990 | JP |
07042046 | Feb 1995 | JP |
07184725 | Jul 1995 | JP |
10278369 | Oct 1998 | JP |
2001070062 | Mar 2001 | JP |
2001-158141 | Jun 2001 | JP |
2001-205896 | Jul 2001 | JP |
2001-213552 | Aug 2001 | JP |
2007175911 | Jul 2007 | JP |
2009095993 | May 2009 | JP |
Number | Date | Country | |
---|---|---|---|
20110107932 A1 | May 2011 | US |