The present application is based on, and claims priority from JP Application Serial Number 2020-160632, filed Sep. 25, 2020, the disclosure of which is hereby incorporated by reference herein in its entirety.
The present disclosure relates to a printing device.
Printing devices in the related art are known that include a remaining amount detecting section for detecting a remaining amount of roll paper (see, for example, JP-A-2012-184056).
The remaining amount detecting section includes an arm that is provided on the outer surface side of a side plate of a hopper that holds the roll paper, is swingable toward the side plate, and is urged by a spring, and a protrusion formed at an end of the arm to penetrate the side plate. When the outer diameter of the roll paper is large, the protrusion is in contact with the side surface of the roll paper; in contrast, when the outer diameter of the roll paper is small, the protrusion enters the hollow portion of the winding core of the roll paper, causing the arm to swing. As a result, the swing of the arm is detected by the sensor, and a low remaining amount of the roll paper is detected.
In JP-A-2012-184056, when the roll paper is loaded and unloaded in and out of the hopper of the printing device, the roll paper or the hand of a user interferes with the remaining amount detecting section when the protrusion or the like of the remaining amount detecting section projects to a roll paper accommodating section, which may cause a problem.
According to an aspect of the present disclosure, there is provided a printing device including a main body, an opening/closing cover configured to be coupled to the main body and configured to move to an open position or a closed position, a roll paper holder configured to be provided on the main body and configured to accommodate a first roll paper, and a remaining amount detecting section configured to detect a remaining amount of the first roll paper accommodated in the roll paper holder, in which the remaining amount detecting section is configured to shift from a first state in which the remaining amount of the first roll paper is not detected to a second state in which the remaining amount of the first roll paper is detected, with movement of the opening/closing cover from the open position to the closed position.
Hereinafter, embodiments to which the present disclosure are applied will be described with reference to the drawings. In each figure, for convenience of understanding, each member is illustrated on a scale different from the actual one.
As shown in
The printing device 10 has a box shape and includes a main body 15 and an opening/closing cover 16 provided on the front portion of the main body 15 to be open/closed.
The main body 15 accommodates a roll paper holder 22, the thermal head 11, a part of a cutter unit 24, and a substrate 26 in a resin case 21. The cutter unit 24 corresponds to an example of a cutting mechanism.
The case 21 forms a cover that covers an upper portion of the front surface, both side surfaces, the upper surface, the lower surface, and the back surface of the main body 15.
The roll paper holder 22 accommodates the roll paper in which the thermal paper 12 is rolled into a roll shape. The printing device 10 can use the thermal paper 12 having a different paper width as a recording medium. In the present embodiment, an example in which a first roll paper 31 having a predetermined width and a second roll paper 61 having a paper width narrower than that of the first roll paper 31 are used will be described. When the second roll paper 61 is used in the printing device 10, roll paper guides 65 and 66, which will be described later, are mounted on the roll paper holder 22 corresponding to the narrow paper width.
The roll paper holder 22 includes a placement portion 22a on which the first roll paper 31 is placed, and an opening 22c opened in a side wall 22b on one left side when the printing device 10 is viewed from the front. The side wall 22b corresponds to an example of a first side wall.
The placement portion 22a includes a bottom 22d formed to be the lowest and flat in the placement portion 22a at a front end thereof, and a slope 22e curved so as to gradually increase from the rear end of the bottom 22d toward the rear. Assuming that the first roll paper 31 having a large outer diameter at the beginning of use is a first roll paper 31A, the first roll paper 31A is placed on the slope 22e and is held in a state of being in contact with the inner surface 16a of the opening/closing cover 16 in the roll paper holder 22.
Assuming that the first roll paper 31 of which outer diameter has been decreased up to less than a predetermined value due to the consumption of the thermal paper 12 is a first roll paper 31B, the first roll paper 31B is located at the bottom 22d.
In the figure, the contours and winding cores of the first roll papers 31A and 31B and the thermal paper 12 drawn from the first roll papers 31A and 31B are shown by double-dashed lines.
The printing device 10 of the present embodiment includes a remaining amount detecting section 32 for detecting the first roll paper 31B in order to prompt replacement of the first roll paper 31B of which an outer diameter has been decreased up to less than the predetermined value. A part of the remaining amount detecting section 32 is exposed to the first roll paper 31 from the opening 22c of the roll paper holder 22.
The thermal head 11 is disposed above a platen 43 provided on the opening/closing cover 16 to face the platen 43. The thermal paper 12 drawn from the first roll paper 31 is interposed between the thermal head 11 and the platen 43, and the thermal paper 12 is transported forward by the rotational drive of the platen 43 and characters and images are recorded on the thermal paper 12 by the thermal head 11.
The cutter unit 24 includes a fixed blade 35 and a movable blade 36 arranged close to a paper outlet 33 of the thermal paper 12 with respect to the thermal head 11 and the platen 43 and a cutter drive motor (not shown) for driving the movable blade 36. The fixed blade 35 is arranged on the opening/closing cover 16, and the movable blade 36 is arranged on the main body 15. The movable blade 36 descends and cooperates with the fixed blade 35 to sandwich the thermal paper 12, and cuts a part or the whole of the thermal paper 12. When a partial cut for cutting a part of the thermal paper 12 is performed, the central portion of the paper width of the thermal paper 12 is not cut, and thus the user tears off the uncut portion of the thermal paper 12 to cut it.
The fixed blade 35 corresponds to an example of a second blade, and the movable blade 36 corresponds to an example of a first blade.
The substrate 26 is disposed at the rear portion of the upper portion of the printing device 10, and includes a controller 38 that controls each portion of the printing device 10. Further, the front surface 21a of the case 21 of the main body 15 is provided with a display 39 for displaying each state of the printing device 10. The display 39 is an indicator that displays the operating state and the like of the printing device 10. The display 39 displays, for example, the low remaining amount of the thermal paper 12 as will be described later according to the control of the controller 38. The controller 38 corresponds to an example of a processor.
The opening/closing cover 16 is swingably supported on the lower end of the front portion of the main body 15 via a hinge shaft 42. The opening/closing cover 16 can be temporarily fixed to the main body 15. The opening/closing cover 16 includes the platen 43 and the fixed blade 35 arranged in front of the platen 43 at the upper portion.
The platen 43 is rotatably supported by the opening/closing cover 16. The platen 43 not only functions as a base for supporting the thermal paper 12 during recording, but also serves as a transport mechanism for the thermal paper 12.
Next, a transport path of the thermal paper 12 will be described below.
The main body 15 includes a first paper guide portion 45 above the roll paper holder 22. Further, the opening/closing cover 16 includes a second paper guide portion 46 below the platen 43, and the second paper guide portion 46 is disposed in front of the first paper guide portion 45. The first paper guide portion 45 and the second paper guide portion 46 are disposed at a predetermined distance in a front-rear direction, and an upstream transport path 47 is provided between the first paper guide portion 45 and the second paper guide portion 46.
The thermal paper 12 drawn from the first roll paper 31A contacts the first paper guide portion 45 on the inlet side of the upstream transport path 47 and contacts the second paper guide portion 46 on the outlet side of the upstream transport path 47. Then, the thermal paper 12 passes between the platen 43 and the thermal head 11 located downstream in the upstream transport path 47, and transported in front of the printing device 10 via a paper outlet 33 between the front end of the main body 15 and the opening/closing cover 16.
Further, the thermal paper 12 drawn from the first roll paper 31B contacts the second paper guide portion 46 on the inlet side of the upstream transport path 47, and further, contacts the first paper guide portion 45 at the intermediate portion of the upstream transport path 47 and again contacts the second paper guide portion 46 on the outlet side of the upstream transport path 47. Then, a downstream portion of the upstream transport path 47 traces the same transport path as the thermal paper 12 of the first roll paper 31A.
As shown in
The opening/closing cover 16 includes, in front of the roll paper holder 22, a roll paper abutting portion 48 on which the first roll paper 31 abuts. The roll paper abutting portion 48 is formed in a concave shape with the rear portion being opened, and includes a front wall 48a and a pair of right and left side walls 48b. An outer peripheral surface 31d of the first roll paper 31 contacts the front wall 48a, and both side surfaces 31c of the first roll paper 31 are held by the right and left side walls 48b.
On the side of the side wall 22b, the remaining amount detecting section 32 is disposed for detecting the remaining amount of the first roll paper 31, that is, the first roll paper 31 of which the diameter is less than a predetermined outer diameter.
The remaining amount detecting section 32 includes a base 51, a detection switch 52 provided on the base 51, a first detection lever 53, and a first compression coil spring 54. The first detection lever 53 corresponds to an example of a first projection main body, and the first compression coil spring 54 corresponds to an example of a first urging portion.
The base 51 is fixed to the case 21. The detection switch 52 is attached to the base 51 and turns on or off depending on the swing state of the first detection lever 53.
The first detection lever 53 is swingably supported by the base 51 via a support shaft 57, and the swing state of the first detection lever 53 is transmitted to the detection switch 52. The first compression coil spring 54 urges the first detection lever 53 to swing inward of the roll paper holder 22.
The first detection lever 53 and the first compression coil spring 54 constitute a first projection 55.
The first detection lever 53 is swingably supported by the base 51 via the support shaft 57; however, the present disclosure is not limited thereto. For example, the first detection lever 53 may be provided on the base 51 to be slidable so that the entire first detection lever 53 moves.
A detailed structure and operation of the remaining amount detecting section 32 described above will be described below.
The detection switch 52 includes a switch main body 52a attached to the base 51 with screws 56, and a detector 52b swingably provided on the switch main body 52a. The detector 52b is swingably supported around a swing shaft (not shown) and is urged counterclockwise by an urging member (not shown). The switch main body 52a is turned on or off depending on the swing position of the detector 52b.
The first detection lever 53 includes a lever base 53a provided on the support shaft 57 and a first protrusion 53b formed at the tip end of the lever base 53a. The lever base 53a includes an arm portion 53c projecting toward the detection switch 52, and the arm portion 53c is in contact with the detector 52b of the detection switch 52.
The first compression coil spring 54 urges the first detection lever 53 to swing inward of the roll paper holder 22.
A tip end 53d of the first protrusion 53b of the first detection lever 53 is pressed against the side surface 31c of the first roll paper 31A. In this state, the arm portion 53c of the first detection lever 53 contacts the detector 52b of the detection switch 52, and thus the detector 52b is in a position extending in the front-rear direction. When the detector 52b is at this position, the detection switch 52 is in the off state.
When the thermal paper 12 of the first roll paper 31A is consumed in this state and becomes the first roll paper 31B having the outer diameter less than a predetermined value, the tip end 53d of the first protrusion 53b does not come into contact with the side surface 31c of the first roll paper 31B. As a result, the first detection lever 53 swings counterclockwise around the support shaft 57 by the urging force of the first compression coil spring 54, as shown by arrow A, and is shown by the white arrow, and the first protrusion 53b shifts to a state of projecting into the roll paper holder 22.
At this time, as the arm portion 53c of the first detection lever 53 swings, the detector 52b of the detection switch 52 swings clockwise by an angle θ1 from the state before the swing of the first detection lever 53. As a result, the detection switch 52 is turned from OFF to ON, and this on signal is input to the controller 38.
The controller 38 controls the display 39 to display the fact that the remaining amount of the first roll paper 31 is low, based on the on signal from the detection switch 25.
In this way, the position where the first protrusion 53b of the first detection lever 53 projects from the side wall 22b to the inside of the roll paper holder 22 is defined as a first position. In a state where the first detection lever 53 projects into the roll paper holder 22, the first detection lever 53 contacts a stopper (not shown) provided on the base 51 or the roll paper holder 22 while receiving the urging force from the first compression coil spring 54 and becomes stationary.
Further, the position where a projecting amount of the first protrusion 53b of the first detection lever 53 from the side wall 22b to the inside of the roll paper holder 22 is less than that at the first position or the first protrusion 53b does not project is defined as a second position. As described above, the first protrusion 53b of the first detection lever 53 can move between the first position and the second position.
Subsequently, a configuration when the second roll paper 61 is accommodated in the printing device 10 will be described.
As shown in
On the roll paper holder 22, a pair of right and left guide mounting groove portions 22h are formed that extends in the front-rear direction in a plan view. The roll paper guides 65 and 66 for holding the second roll paper 61, which has the narrower paper width than the first roll paper 31, are mounted on the right and left guide mounting groove portions 22h. The roll paper guide 65 is disposed close to the side wall 22b of the roll paper holder 22, and the roll paper guide 66 is disposed close to the side wall 22f of the roll paper holder 22. By mounting the roll paper guides 65 and 66, the space for accommodating the second roll paper 61 in the roll paper holder 22 is narrowed, and the second roll paper 61 is stabilized.
The roll paper guide 65 on the left side is provided with a detection assistance section 63 for assisting the remaining amount detecting section 32 in detecting the remaining amount, and the roll paper guide 66 on the right side is not provided with the remaining amount detecting section 32.
The right and left roll paper guides 66 and 65 are provided with side walls 66a and 65a for holding the side surface 61c of the second roll paper 61, respectively. Further, one roll paper guide 65 is provided with an opening 65b in the side wall 65a. Through the opening 65b, the detection assistance section 63 is exposed to a roll paper accommodating space 70 between the right and left roll paper guides 66 and 65. The roll paper guide 65 corresponds to an example of a partition portion, a first partition section, and the roll paper guide 66 corresponds to an example of a partition portion, a second partition section. Further, the side wall 65a corresponds to an example of a third side wall, and the side wall 66a corresponds to an example of a fourth side wall.
Assuming that the second roll paper 61 having a large outer diameter at the beginning of use is a second roll paper 61A, the second roll paper 61A is placed on the slope 22e and is held in a state of being in contact with the inner surface 16a of the opening/closing cover 16 in the roll paper holder 22.
Assuming that the second roll paper 61 of which outer diameter has been decreased up to less than a predetermined value due to the consumption of the thermal paper 12 is a second roll paper 61B, the second roll paper 61B is located at the bottom 22d.
The printing device 10 of the present embodiment includes the detection assistance section 63 for assisting the remaining amount detecting section 32 in detecting the remaining amount in order to prompt the replacement of the second roll paper 61B.
Hereinafter, the roll paper guide 65 including the detection assistance section 63 will be described.
As shown in
The vertical rib 65c and the plurality of lateral ribs 65d and 65e are portions for increasing the rigidity of the side wall 65a.
Further, the vertical rib 65c includes a plurality of engaging portions 65f and 65g that project rearward from the upper portion and the intermediate portion in the vertical direction, apart from the side wall 65a. The plurality of engaging portions 65f and 65g are portions that are engaged with the roll paper holder 22 when the roll paper guide 65 is mounted on the roll paper holder 22.
As shown in
The detecting section cover 71 includes a cover opening 71a through which the second detection lever 72 is exposed.
The second detection lever 72 is urged by the second compression coil spring 73 toward the side wall 22b of the roll paper holder 22 on the left. In
The second detection lever 72 and the second compression coil spring 73 constitute a second projection 74.
As shown in
The horizontal wall 65h includes a notch 65n extending horizontally at a rear position of the opening 65b and having a bottom 65m formed in a concave arc. The recess 65j positions one end 73a of the second compression coil spring 73. The pair of boss portions 65k are portions where the pair of screws 68 are screwed together.
The second detection lever 72 includes a cylindrical shaft portion 72a, a plate-shaped portions 72b extending from both ends of the shaft portion 72a, and second protrusions 72c formed to bend at the tip end of the plate-shaped portion 72b.
The shaft portion 72a is inserted into the notch 65n of the horizontal wall 65h, projects from the inner surface 71b of the detecting section cover 71, and is held by the end surface 71d of a pressing portion 71c inserted into the notch 65n. As a result, the shaft portion 72a is prevented from coming off from the notch 65n and is rotatably supported by the horizontal wall 65h and the pressing portion 71c. Thereby, the second detection lever 72 is swingably supported by the horizontal wall 65h and the pressing portion 71c via the shaft portion 72a.
The second detection lever 72 is swingably supported via the shaft portion 72a; however, the present disclosure is not limited thereto. For example, the second detection lever 72 may be provided on the roll paper guide 65 to be slidable so that the entire second detection lever 72 moves.
The other end 73b of the second compression coil spring 73 is pressed against one side surface of the plate-shaped portion 72b to urge the second detection lever 72. Further, the other side surface of the plate-shaped portion 72b contacts the inner surface 71b of the detecting section cover 71, and the swing of the second detection lever 72 is restricted.
The back surface 72d of the second protrusion 72c is formed on a flat surface, and the tip end 53d of the first protrusion 53b of the remaining amount detecting section 32 is pressed against the back surface 72d.
Operations of the remaining amount detecting section 32 and the detection assistance section 63 described above will be described below.
In the second roll paper 61A having an outer diameter of a predetermined value or larger than the predetermined value, the tip end 72e of the second protrusion 72c of the second detection lever 72 of the detection assistance section 63 contacts the side surface 61c of the second roll paper 61A.
In this state, the tip end 53d of the first protrusion 53b of the first detection lever 53 contacts the back surface 72d of the second protrusion 72c. At this time, the arm portion 53c of the first detection lever 53 contacts the detector 52b of the detection switch 52. In this state, the detection switch 52 is OFF.
When the outer diameter of the second roll paper 61A gradually becomes smaller From this state and becomes the second roll paper 61B of which the outer diameter is smaller than a predetermined value, the tip end 72e of the second detection lever 72 does not contact the side surface 31c of the second roll paper 61B. Thereby, the first detection lever 53 swings in the direction of arrow B by the first compression coil spring 54, which has an urging direction opposite to the urging direction of the second compression coil spring 73 and has a larger urging force F2 than the urging force F1 of the second compression coil spring 73. Further, the second detection lever 72 is pushed by the first protrusion 53b of the first detection lever 53 and swings in the direction of the arrow C.
As a result, as shown by the white arrow, the second protrusion 72c of the second detection lever 72 is in a state of projecting into the roll paper accommodating space 70. At this time, as the arm portion 53c of the first detection lever 53 further swings, the detector 52b of the detection switch 52 swings clockwise by an angle θ2 from the state before the swing of the first detection lever 53. As a result, the detection switch 52 is turned from OFF to ON, and this on signal is input to the controller 38. The controller 38 controls the display 39 to display the fact that the remaining amount of the second roll paper 61B is low, based on the on signal from the detection switch 52.
In this way, the position where the second protrusion 72c of the second detection lever 72 projects from the side wall 65a to the inside of the roll paper holder 22, that is, to the roll paper accommodating space 70 is defined as a third position.
Further, the position where a projecting amount of the second protrusion 72c of the second detection lever 72 from the side wall 65a into the roll paper accommodating space 70 is less than that at the third position or the second protrusion 72c does not project is defined as a fourth position. As described above, the second protrusion 72c of the second detection lever 72 can move between the third position and the fourth position.
The printing device 10 includes a detection state switching section 80 that performs switching so as not to detect the remaining amount of the roll paper when the first roll paper 31 is inserted into the roll paper holder 22 or the first roll paper 31 of which the remaining amount is low is unloaded. That is, the detection state switching section 80 temporarily prevents the first detection lever 53 from projecting into the roll paper holder 22.
The detection state switching section 80 is disposed outside the roll paper holder 22, and the front end of the detection state switching section 80 is pressed against the inner surface 16a of the opening/closing cover 16.
As described above, in a state where the opening/closing cover 16 is closed, the remaining amount detecting section 32 is in a state where the remaining amount of the first roll paper 31 can be detected. On the other hand, when the opening/closing cover 16 is opened, the detection state switching section 80 described above operates, and the remaining amount detecting section 32 is in a state where the remaining amount of the first roll paper 31 is not detected. A detailed structure of the detection state switching section 80 will be described below.
As shown in
As shown in
The interlocking lever 82 includes a plate-shaped and long interlocking lever main body 84 extending in the front-rear direction along the vertical plate portion 81a of the frame portion 81, and a roller 86 rotatably supported at front end of the interlocking lever main body 84 through a support shaft 85.
The interlocking lever main body 84 includes a recess 84b formed in a lower edge 84a to open downward, and a spring hook 84d that extends laterally from an upper edge 84c and on which the other end 83b of the tension coil spring 83 is hooked. The recess 84b is formed in a substantially trapezoidal shape when seen from the side, which forms a shape that avoids the first protrusion 53b of the first detection lever 53.
A step 84f is formed at the rear portion of the interlocking lever main body 84. The step 84f is formed by bending the interlocking lever main body 84, and projects toward the frame portion 81. The step 84f abuts on a corner 53f of the first detection lever 53, as will be described later. The corner 53f is an end of the lever base 53a of the first detection lever 53 along the side wall 22b.
The tension coil spring 83 is hooked on the spring hook 81c of the frame portion 81 and the spring hook 84d of the interlocking lever 82 to urge the interlocking lever 82 forward with respect to the frame portion 81.
At this time, the first protrusion 53b of the first detection lever 53 of the remaining amount detecting section 32 projects into the roll paper holder 22, and is in a state where the remaining amount of the first roll paper 31 can be detected. That is, in
The opening/closing cover 16 is opened until it is substantially horizontal to the main body 15. The flat abutting portion 16b abutting on the roller 86 of the interlocking lever 82 of the detection state switching section 80 is provided on the left of the inner surface 16a of the opening/closing cover 16. The abutting portion 16b is a portion projecting from the surface of the front wall 48a of the roll paper abutting portion 48 that contacts the outer peripheral surface of the first roll paper 31 accommodated in the roll paper holder 22.
An engaging portion 91 is provided in the vicinity of the platen 43 of the opening/closing cover 16, and when the opening/closing cover 16 is closed, the engaging portion 91 engages with an engaged portion (not shown) provided on the main body 15, and thus the opening/closing cover 16 is maintained in the closed state.
As shown in
Thereby, the first detection lever 53 swings about the support shaft 57 as shown by arrow E, and the first protrusion 53b gradually moves from the inside of the roll paper holder 22 toward the outside of the roll paper holder 22. In
Assuming that this state is the first state and the state in which the remaining amount of the first roll paper 31 is detected as shown in
Further, the positions of the first detection lever 53 and the first protrusion 53b shown in
In this way, the detection state switching section 80 prevents the first protrusion 53b of the remaining amount detecting section 32 from forcibly projecting into the roll paper holder 22 when the opening/closing cover 16 is opened, and sets the state to be the first state in which the remaining amount detecting section 32 does not detect the remaining amount.
Further, the detection state switching section 80 enables the first protrusion 53b of the first detection lever 53 in the remaining amount detecting section 32 to project into the roll paper holder 22 when the opening/closing cover 16 is closed, and sets the state to be the second state in which the remaining amount detecting section 32 is enabled to detect the remaining amount.
In the above, the operation of the detection state switching section 80 when the first roll paper 31 is accommodated in the roll paper holder 22 has been described. Further, the detection state switching section 80 also operates when the right and left roll paper guides 66 and 65 are mounted on the roll paper holder 22 and the second roll paper 61 is accommodated between the roll paper guides 65 and 66.
Unless the first protrusion 53b of the first detection lever 53 forcibly projects into the roll paper holder 22 by the detection state switching section 80, the second protrusion 72c of the second detection lever 72 does not project to the roll paper accommodating space 70, and thus the remaining amount of the second roll paper 61 is not detected. Further, when the first protrusion 53b of the first detection lever 53 can project into the roll paper holder 22 by the detection state switching section 80, the second protrusion 72c of the second detection lever 72 can project to the roll paper accommodating space 70, and thus the remaining amount of the second roll paper 61 is detected.
As shown in
The opening/closing cover 16 is coupled to the main body 15 and moves to the open position or the closed position. The roll paper holder 22 is provided in the main body 15 and can accommodate the first roll paper 31. The remaining amount detecting section 32 detects the remaining amount of the first roll paper 31 accommodated in the roll paper holder 22. The remaining amount detecting section 32 shifts from the first state where the remaining amount of the first roll paper 31 is not detected to the second state where the remaining amount of the first roll paper 31 is detected, with the movement of the opening/closing cover 16 from the open position to the closed position.
With the configuration, since the remaining amount of the first roll paper is not detected by the remaining amount detecting section at the open position of the opening/closing cover, the remaining amount detecting section does not project into the roll paper holder when the first roll paper is loaded and unloaded in and out of the roll paper holder, and thus it is possible to load and unload the first roll paper 31 without any trouble.
Further, as shown in
With the configuration, the abutting portion 16b and the detection state switching section 80 abut on each other when the opening/closing cover 16 is closed after the first roll paper 31 is inserted into the roll paper holder 22 or the first roll paper 31 is replaced. As a result, the remaining amount detecting section 32 can be automatically shifted from the first state to the second state, and thus no special operation is required, which can improve usability.
Further, as shown in
With the configuration, when the opening/closing cover 16 is opened, the remaining amount detecting section 32 can be automatically shifted from the second state to the first state by the urging force of the tension coil spring 83, and thus no special operation is required, which can improve usability.
Further, as shown in
With the configuration, the remaining amount of the first roll paper 31 is detected by moving the remaining amount detecting section 32 from the first position to the second position, and thus the remaining amount detecting section 32 can have a simple structure using a swinging lever or the like.
Further, the remaining amount detecting section 32 shifts from the second state to the first state with the movement of the opening/closing cover 16 from the closed position to the open position.
With the configuration, when the first roll paper 31 is inserted into the roll paper holder 22 or the opening/closing cover 16 is opened to replace the first roll paper 31, the remaining amount detecting section 32 can be automatically shifted from the second state to the first state. In this way, usability can be improved since no special operation is required.
Further, as shown in
The detection assistance section 63 shifts from a third state where the assistance in detecting the remaining amount of the second roll paper 61 is not performed to a fourth state where the assistance in detecting the remaining amount of the second roll paper 61 is performed, with the movement of the opening/closing cover 16 from the open position to the closed position.
With the configuration, the detection assistance section 63 does not assist the remaining amount detecting section 32 in detecting the remaining amount of the second roll paper 61 at the open position of the opening/closing cover 16. Therefore, when the second roll paper of which the side surface can come into contact with the side wall 65a of the roll paper guide is loaded and unloaded, the detection assistance section 63 does not project toward the second roll paper 61 and thus it is possible to load and unload the second roll paper 61 without any trouble.
Further, the detection assistance section 63 has the second projection 74 projecting from the side wall 65a of the roll paper guide 65, and the second projection 74 moves to a position where the second projection 74 projects from the side wall 65a in a state of abutting on the remaining amount detecting section 32, with the movement of the opening/closing cover 16 from the open position to the closed position.
With the configuration, the second projection 74 of the detection assistance section 63 projects to abut on the remaining amount detecting section 32 that moves when the opening/closing cover 16 is closed, and thus the detection assistance section 63 can have a simple structure.
The above-described embodiment illustrates one aspect of the present disclosure, and any modification and application can be made without departing from the spirit of the present disclosure.
For example, as shown in
Number | Date | Country | Kind |
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2020-160632 | Sep 2020 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
20010039893 | Kawakami | Nov 2001 | A1 |
20060173576 | Goerg | Aug 2006 | A1 |
20070278083 | Iso | Dec 2007 | A1 |
20080101843 | Murahashi | May 2008 | A1 |
20120224905 | Nihashi | Sep 2012 | A1 |
20140151491 | Mizutani | Jun 2014 | A1 |
20170255152 | Okamura | Sep 2017 | A1 |
20190268483 | Sakashita | Aug 2019 | A1 |
20190268485 | Sakashita | Aug 2019 | A1 |
20190384588 | Yagi | Dec 2019 | A1 |
Number | Date | Country |
---|---|---|
2011-110805 | Jun 2011 | JP |
2012-184056 | Sep 2012 | JP |
Number | Date | Country | |
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20220097418 A1 | Mar 2022 | US |