The present application claims priority from Japanese Patent Application No. 2015-74151, which was filed on Mar. 31, 2015, the disclosure of which is incorporated herein by reference in its entirety.
Field
The present disclosure relates to a roll holding apparatus capable of holding a print-receiving paper roll in the form of rolled-up print-receiving paper to be fed to a printer.
Description of the Related Art
A structure has hitherto been known that is capable of holding a print-receiving paper roll in the form of rolled-up print-receiving paper to be fed to a printer. In this prior art, a pair of holding members (holing rib protruding portions) are inserted into the inner periphery (core through hole) of the print-receiving paper roll (rolled paper) so that the print-receiving paper roll can rotatably be held.
In the above described prior art, a protruding length of the holding members into the print-receiving paper roll inner periphery is a fixed value. For this reason, for example, if the above described protruding length of the holding members is set shorter, the force holding the print-receiving paper roll weakens in spite of a good operability upon mounting the print-receiving paper roll. On the other hand, if the above described protruding length of the holding members is set longer, the operability upon mounting the print-receiving paper roll is impaired in spite of a good holding force for the print-receiving paper roll.
It is therefore an object of the present disclosure to provide a roll holding apparatus capable of securely holding a print-receiving paper roll without impairing the operability upon the mounting of the print-receiving paper roll.
In order to achieve the above-described object, according to aspect of the present application, there is provided a roll holding apparatus comprising a pair of holding members that is arranged in a manner facing each other, and is configured to be inserted into an inner periphery of a print-receiving paper roll that includes an outer periphery around which a print-receiving paper to be fed to a printer is wound and configured to rotatably support the print-receiving paper roll, and an advancing/retracting support device configured to support the holding member to switch an advancing/retracting state of the holding member into a first state where a tip end portion of the holding member protrudes to a first position, a second state where the tip end portion lies inward along an axial direction of the print-receiving paper roll than the first position, or a third state where the tip end portion lies outward along the axial direction from the first position.
The roll holding apparatus of the present disclosure is capable of rotatably holding the print-receiving paper roll by inserting the pair of holding members into the inner periphery of the print-receiving paper roll in the form of rolled-up print-receiving paper to be fed to the printer. The holding members are supported in an advanceable and retractable manner by the advancing/retracting support device. The advancing/retracting support device is capable of switching the advancing/retracting state of the holding members into three states, i.e., a first state, a third state, and a second state. The first state is, for example, a state where the tip end portions of the holding members protrude to first positions (e.g., positions in the vicinity of positions of axially end surfaces) axially inward from positions of axially end surfaces of the print-receiving paper roll. The third state is a state where the tip end portions of the holding members lie at the above described positions of the axially end surfaces or axially outward therefrom. The second state is, for example, a state where the tip end portions of the holding members protrude to second positions (e.g., positions apart to some extent from the positions of the axially end surfaces) axially further inward from the above described first positions.
When mounting the print-receiving paper roll for example, the advancing/retracting support device first retracts the holding members from the print-receiving paper roll as the third state, and then inserts slightly into the inner periphery of the print-receiving paper roll as the first state, whereby the print-receiving paper roll can temporarily be held while preventing the holding members from interfering with the print-receiving paper roll mounting action. When a case cover is in the closed-state for example, the advancing/retracting support device inserts the holding members to a large extent into the print-receiving paper roll inner periphery as the second state, whereby the print-receiving paper roll can steadily be held.
As described above, by enabling the holding members to be switched to the above described three states, the print-receiving paper roll can securely be held without impairing the operability at the time of mounting the print-receiving paper roll.
An embodiment of the present disclosure will now be described with reference to the drawings. In the case that there are notes on terms “front”, “rear”, “left”, “right”, “top”, and “bottom” in the drawings, the “front”, “rear”, “left”, “right”, “top”, and “bottom” in the description of this specification refer to the directions indicated by the notes.
<Schematic Configurations of Roll Holding Apparatus and its Surroundings>
First, referring to
As shown in
The case 5 has a case body 7 of a substantially rectangular shape in planar view, and a case cover 9 of a substantially rectangular shape in planar view.
The case body 7 includes therein a first storage part 11, two attachment parts 13, 13, and a second storage part 14.
The first storage part 11 is disposed along the left and right directions that are horizontal directions on the forward side, i.e., the front side within the case body 7. The first storage part 11 stores the printer 3 transversely such that a feed port 19 described later faces the top side that is the ceiling side and such that a discharge port 25 described later faces the front side.
The attachment parts 13, 13 are disposed on left and right ends on the rear side that is the backward side within the case body 7. A pair of holding mechanisms 29, 29 of the roll holding apparatus 1 are attached to the attachment parts 13, 13 (in other words, surfaces of the case body 7) so as to face each other.
The second storage part is disposed between the attachment parts 13, 13 within the case body 7. A print-receiving paper roll 21, obtained by rolling print-receiving paper 23 into a roll around the outer periphery of a core 31, is received in the second storage part 14 from above and stored therein while being mounted on the above described roll holding apparatus 1 in such a manner that an axis 22 in the axial direction of the roll (width direction of the print-receiving paper 23) extends in the left and right directions.
The case cover 9 is supported by hinge parts 15, 15 disposed on the rear end sides of the case 5 in such a manner as to be openable and closable with respect to the case body 7. The case cover 9 is pivotable between a closed position (position shown in
The printer 3 has a substantially rectangular parallelepiped-shaped housing 17. The feed port 19 is disposed on the top surface of the housing 17 so that the print-receiving paper 23 fed out from the print-receiving paper roll 21 as described later is fed through the feed port 19 into the interior of the housing 17. A conveying roller (not shown) conveying the fed print-receiving paper 23 along a predetermined feeding path, a print head (not shown) forming a desired print on the conveyed print-receiving paper 23, etc., are disposed in the housing 17. The discharge port 25 is disposed on the front surface of the housing 17 so that printed paper, i.e., the print-receiving paper 23 having a print formed thereon is discharged through the discharge port 25 to the exterior of the housing 17.
An opening 27 is disposed on a front surface (surface forming a front in the state where the case cover 9 is in the closed position) of the case cover 9 at a position corresponding to the position of the above described discharge port 25 of the case 5 so that the above described printed paper discharged from the discharge port 25 to the exterior of the housing 17 is discharged through the opening 27 to the exterior of the case 5.
The roll holding apparatus 1 is an apparatus for holding the above described print-receiving paper roll 21 rotatably. The print-receiving paper roll 21 is mounted on the roll holding apparatus 1 in such a manner that the above described axis 22 extends in the left and right directions. The print-receiving paper roll 21 is held rotatably about the axis 22 by the roll holding apparatus 1, to feed out the print-receiving paper 23.
<Configuration of Roll Holding Apparatus>
The roll holding apparatus 1 includes the pair of holding mechanisms 29, 29 each having a rod-like holding member (shaft) 33.
By attaching the holding mechanisms 29, 29 to the attachment parts 13, 13, the holding members 33, 33 are arranged facing each other in the left and right directions. The holding members 33, 33 are members (shafts) inserted, from left and right end sides, into an inner periphery 32 of the core 31 of the print-receiving paper roll 21 received in the above described second storage part 14 from above, and capable of holding the print-receiving paper roll 21 rotatably about the axis 22. The holding members 33 are supported in an advanceable and retractable manner in the holding mechanisms 29, respectively, and their respective advancing/retracting state is switched into three states, i.e., a first state, a second state, and a third state.
The first state is a state (state shown in
The third state is a state (state shown in
The second state is a state (state shown in
Each of the holding mechanisms 29 includes the above described holding member 33, the above described flange 51, a slide support mechanism 57, and a swing support mechanism 59.
The flange 51 faces the end surface 37 of the print-receiving paper roll 21 stored in the second storage part 14. The left and right flanges 51, 51 face each other.
The slide support mechanism 57 and the swing support mechanism 59 are configured to support the holding member 33 in an advanceable and retractable manner to enable the advancing/retracting state of the holding member 33 to be switched into the above described first state, second state, and third state.
The slide support mechanism 57 is configured to support the holding member 33 slidably in the left and right directions to enable the advancing/retracting state of the holding member 33 to be switched into the above described first state and second state. The slide support mechanism 57 includes a guide member 49, a slide member 47, and a spring (slide spring, not shown).
The guide member 49 has its interior extending along the left and right directions.
The slide member 47 is disposed within the guide member 49 and is supported by the guide member 49 slidably in the left and right directions relative to the guide member 49. The holding member 33 is coupled to the slide member 47 so as to move in the same direction together with the slide of the slide member 47.
The slide member 47 is urged outward in the left and right directions by the above described spring, and, when subjected to no external force, is moved to the outermost position in the left and right directions (in other words, the direction of the above described axis 22) along the above described guide member 49 by an urging force of the above described spring. When the slide member 47 is moved to the outermost position in the left and right directions, the holding member 33 is in the above described first state (if no external force is applied). At this time, the central axes of the left and right holding members 33, 33 are coaxial with each other (lie on the axis 22). When as a result of being subjected to an external force, the slide member 47 slides inward in the left and right directions (rightward for the left-hand holding mechanism 29, leftward for the right-hand holding mechanism 29) relative to the guide member 49 against the urging force of the spring, the holding member 33 also simultaneously moves inward in the left and right directions. When the slide member 47 is moved to the innermost position in the left and right directions, the holding member 33 is in the above described second state (if no external force is applied).
In this embodiment, the slide support mechanism 57 causes the holding member 33 to slide in conjunction with the opening/closing action of the above described case cover 9. Protrusions 53, 53 acting as members applying an external force to the slide members 47, 47 are disposed on portions of the case cover 9 corresponding to the slide members 47, 47. The protrusions 53 are each configured to come into pressure contact with the upper end of each of the slide members 47 when the case cover 9 is closed.
The swing support mechanism 59 is configured to support the holding member 33 in a swingable manner to enable the advancing/retracting state of the holding member 33 to be switched into the above described first state and third state. The swing support mechanism 59 includes a coil spring 45. In
The coil spring 45 is disposed to couple the holding member 33 and the above described slide member 47 and urges the holding member 33 so as to direct it along the left and right directions, that is, so as to be in the above described first state (if no external force acts on the above described slide member 47). In the state where the holding member 33 is subjected to no external force, the holding member 33 is in the above described first state (if no external force is applied to the above described slide member 47) by the urging force of the coil spring 45. When the holding member 33 is subjected to any external force, the holding member 33 is swung against the urging force of the coil spring 45, (if no external force is applied to the slide member 47) resulting in the above described third state (state where the tip end portion 35 enters the interior of the holding mechanism 29).
<Actions of Roll Holding Apparatus>
Referring to
In
At the time of mounting the print-receiving paper roll 21, the print-receiving paper roll 21 is received into the second storage part 14 from above such that the tip end portion 35 is pressure contacted (or pushed in) by the outer periphery of the print-receiving paper roll 21, so that the holding member 33 is swung against the urging force of the coil spring 45, resulting in the state where the tip end portion 35 is in contact with the end surface 37 of the print-receiving paper roll 21 (see
When the position of the inner periphery 32 of the core 31 arrives at the position of the tip end portion 35, the holding member 33 is urged to be directed along the left and right directions by the urging force of the coil spring 45 (see
Subsequently, when the case cover 9 is closed, the upper end of the slide member 47 is pressure contacted (or pushed in) by an edge 55 of the protrusion 53, whereby the slide member 47 slides inward in the left and right directions along the guide member 49 against the urging force of the above described spring, simultaneously allowing the holding member 33 to move inward in the left and right directions. When the case cover 9 is completely closed, the tip end portion 35 protrudes to the second position 43 (see
<Effects of this Embodiment>
As described above, in this embodiment, upon the mounting of the print-receiving paper roll 21, the holding member 33 is first retreated as the third state from the print-receiving paper roll 21, and then is allowed as the first state to enter a little into the inner periphery 32 of the print-receiving paper roll 21, thereby enabling the print-receiving paper roll 21 to temporarily be held while preventing the interference to the mounting of the print-receiving paper roll 21. Also, when the case cover 9 becomes closed, the holding member 33 is allowed as the second state to enter to a large extent into the inner periphery 32 of the print-receiving paper roll 21, thereby enabling the print-receiving paper roll 21 to steadily be held. Thus, by enabling the holding member 33 to be switched into the above described three state, the print-receiving paper roll 21 can securely be held without impairing the operability in mounting of the print-receiving paper roll 21.
This embodiment has in particular the slide support mechanism 57 capable of supporting the holding member 33 slidably in the left and right directions to switch the advancing/retracting state of the holding member 33 into the first state and the second state. This enables the position of the holding member 33 to securely be switched, by the simple configuration, into the position capable of temporarily holding the print-receiving paper roll 21 and the position steadily holding the print-receiving paper roll 21.
In this embodiment, in particular, the slide support mechanism 57 causes the holding member 33 to slide in conjunction with the action of opening or closing the case cover 9. As a result, when the case cover 9 is opened to load or unload the print-receiving paper roll 21, the position of the holding member 33 can be the position capable of temporarily holding the print-receiving paper roll 21, whereas when the case cover 9 is closed to perform printing operation, the position of the holding member 33 can be the position capable of steadily holding the print-receiving paper roll 21, thereby improving the convenience.
In this embodiment, in particular, when the case cover 9 undergoes the closing action, the slide member 47 supporting the holding member 33 is pressure contacted by the case cover 9 to slide inward in the left and right directions against the urging force of the spring. As a result, there can be implemented the roll holding apparatus 1 capable of switching the position of the holding member 33 into the position allowing the stable holding of the print-receiving paper roll 21, in conjunction with the closing action of the case cover 9.
This embodiment has in particular the swing support mechanism 59 capable of supporting the holding member 33 swingably to switch the advancing/retracting state of the holding member 33 into the first state and the third state. This enables the position of the holding member 33 to securely be switched, by the simple configuration, into the position allowing the print-receiving paper roll 21 to temporarily be held and the position free from interference with the print-receiving paper roll 21.
In this embodiment, in particular, when loading the print-receiving paper roll 21, the holding member 33 is pressure contacted by the print-receiving paper roll 21 so that the holding member 33 swings against the urging force of the coil spring 45, switching to the third state. As a result, there can be implemented the roll holding apparatus 1 capable of switching the position of the holding member 33 into the position free from interference with the print-receiving paper roll 21, in conjunction with the action of loading the print-receiving paper roll 21.
<Modification Example, Etc.>
The present disclosure is not limited to the above described embodiment but may variously be modified without departing from the spirit and the technical idea thereof.
Although in the above described embodiment, for example, description has been given of the cases where, among switches to the above described three advancing/retracting states of the holding member 33, the switch between the first state and the second state is performed by the slide support mechanism 57 and where the switch between the first state and the third state is performed by the swing support mechanism 59, all of the switches to the above described three advancing/retracting states may be performed by the slide support mechanism 57 (without using the swing support mechanism 59). Such a modification example will be described with reference to
In this modification example, apart from the above described spring (hereinafter, referred to properly as “first slide spring”) urging the slide member 47 outward in the above described left and right directions (in other words, in the above described axial direction), the slide member 47 includes a slide spring (not shown, hereinafter referred to properly as “second slide spring”) urging the holding member 33 inward in the above described left and right directions with respect to the slide member 47, with the above described coil spring being omitted. Each holding member 33 is coupled to the corresponding slide member 47 via the above described second slide spring.
In the state where the case cover 9 is opened with the roll 21 being unloaded, the slide member 47 lies outward in the above described left and right directions by the urging force (along the above described axis 22) of the first slide spring, as shown in
In the state where the tip end portion 35 is pressure contacted by the outer periphery of the roll 21, the slide member 47 lies outward in the above described left and right directions by an outward urging force in the above described left and right directions of the first slide spring, in the same manner as the above, as shown in
In the state where the position of the inner periphery 32 of the core 31 reaches the position of the tip end portion 35, the slide member 47 lies outward in the above described left and right directions by the urging force of the first slide spring, similar to the above, as shown in
In the state where the case cover 9 is closed with the slide member 47 being pressure contacted by the protrusion 53, the slide member 47 slides inward in the above described left and right directions along the guide member 49 against the outward urging force in the above described left and right directions of the first slide spring, as shown in
Thus, this modification example can also obtain similar effects to those of the above described embodiment.
If in the above description there are terms such as “vertical”, “parallel”, and “plane”, those terms do not represent their strict meanings. That is, those “vertical”, “parallel”, “planar”, etc., permit allow for tolerances and errors on designing and on manufacturing, and mean “substantially vertical”, “substantially parallel” “substantially planar”, etc.
If in the above description there are terms such as “same”, “equal”, and “different” in dimensions or sizes on appearance, those terms do not represent their strict meanings. That is, those “same”, “equal”, “different”, etc., permit tolerances and errors on designing and on manufacturing, and mean “substantially same”, “substantially equal” “substantially different”, etc.
In addition to the already described ones, the techniques of the above described embodiment and modification examples may properly be combined for use.
Number | Date | Country | Kind |
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2015-074151 | Mar 2015 | JP | national |
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Entry |
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Sep. 26, 2017—(JP) Notification of Reasons for Refusal—App 2015-074151, Eng App. |
Number | Date | Country | |
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20160288485 A1 | Oct 2016 | US |