JP3128350U - Printer - Google Patents

Abstract

Provided is a printer having both a small size and a simple structure, which is compatible with both horizontal and vertical placement.
A printer includes a printer main body, a roll paper storage unit provided in the printer main body, a roll paper storage unit provided in the roll paper storage unit, and a roll paper when the printer main body is in a landscape orientation. A first near-end detector 18 that detects a near-end state of the roll paper 20 in the storage unit 15 and a near-end state of the roll paper 20 provided in the roll paper storage unit 15 when the printer main body 11 is in the vertical state. And a second near-end detector 19 for detecting. Both the first and second near-end detectors 18 and 19 are positioned so that the presence of unused roll paper in the roll paper storage unit 15 can be detected regardless of whether the printer body 11 is placed horizontally or vertically. Is provided.
[Selection] Figure 3

Description

  The present invention relates to a printer, and more particularly to a printer having a function of detecting the remaining amount of roll paper.

  Thermal printers are widely used as electronic cash register printers for POS (Point Of Sale) systems that are widespread in convenience stores and supermarkets. This type of printer uses roll-shaped thermal paper, and is configured such that after printing is performed by heating the roll paper with a thermal head, the printed portion is cut and discharged as a receipt.

  In printers that use roll paper, roll paper that is out of paper must be replaced, and frequently used paper may be replaced several times a day. For this reason, a so-called throwing-type thermal printer, in which the setting is completed simply by throwing the roll paper, is not popular, in which an axis is inserted into the center hole of the roll paper and the roll paper is rotatably supported. In actual roll paper replacement, it is only necessary to set roll paper in the roll paper storage unit, pull the roll paper tip out from the paper discharge port, and close the cover. Even people who are not familiar with the operation can perform replacement work.

  Also, many printers are provided with a near-end detection function that detects the state immediately before the roll paper runs out and notifies the replacement timing. According to the near-end detection function, it is urged to replace the roll paper before the paper runs out completely. Therefore, the replacement work can be performed between customers, and a smooth operation can be performed.

Generally, printers are used horizontally on a horizontal table, but in order to increase installation efficiency, small printers using roll paper are often used in a wall-mounted state. Printers that can be used in both vertical orientations have also appeared. For example, the printer disclosed in Patent Document 1 includes a first sensor that detects a near-end state of a roll paper in the landscape orientation and a roll paper in the portrait orientation so that both the landscape orientation and the portrait orientation can be supported. A second sensor for detecting the near-end state of the.
JP-A-2005-350235

  In the conventional printer disclosed in Patent Document 1, when unused roll paper is set in the roll paper storage unit, either the first sensor or the second sensor is turned off, so that the printer is placed vertically. Or the horizontal position is detected. However, in order to do so, the position of one of the first and second sensors is slightly separated from the center of the roll paper more than the other, and a guide portion is provided in the roll paper storage portion, and the near end state It is necessary to drop the roll paper into this guide section. Therefore, an extra space is required in the roll paper storage unit, which has been a factor that hinders downsizing of the printer.

  Accordingly, an object of the present invention is to provide a printer having a small size and a simple structure, which is compatible with both horizontal and vertical placement.

  The object of the present invention is to provide a printer main body, a roll paper storage portion provided in the printer main body, a roll paper storage portion provided in the roll paper storage portion, and a roll in the roll paper storage portion when the printer main body is in the first installation state. A first near-end detector that detects the near-end state of the paper and a roll-paper near-end state that is provided in the roll paper storage unit and the printer main body is in a second installation state different from the first installation state. A first near-end detector, and the first and second near-end detectors are both unused rolls in the roll paper storage section regardless of whether the printer body is in the first or second installation state. This is achieved by a printer characterized by being provided at a position where the presence of paper can be detected.

  In the present invention, the printer main body includes an installation surface that comes into contact with the installation surface in the first installation state, and the first near-end detector is provided on the installation surface side in the roll paper storage unit, and the second near-end is provided. The detector is preferably provided at a position substantially orthogonal to the first near-end detector in the roll paper storage unit. Further, it is preferable that the first installation state is a state in which the printer main body is horizontally placed, and the second installation state is a state in which the printer main body is vertically placed.

  In the present invention, when the printer main body is in the first installation state, the second near-end detector does not detect the presence of the roll paper in the roll paper storage unit, and the first near-end detector is the roll paper. It is preferable to include a determination unit that determines that the roll paper is in the near-end state when the near-end state is detected. Further, when the printer main body is in the second installation state, the first near-end detector does not detect the presence of the roll paper in the roll paper storage unit, and the second near-end detector is in the near-end state of the roll paper. It is preferable to include a determination unit that determines that the roll paper is in the near-end state when the paper is detected. According to this, highly reliable near-end detection can be performed by using two near-end detectors including a near-end detector that does not directly contribute to near-end detection.

  In the present invention, it is preferable that the first and second near-end detectors detect the near-end state of the roll paper by detecting a hollow portion of the core tube of the roll paper that has been consumed and has a predetermined diameter or less. In this case, it is preferable that the first and second near-end detectors include micro switches that mechanically detect the hollow portion.

  Thus, according to the present invention, it is an object to provide a printer having both a small size and a simple structure that is compatible with both horizontal and vertical placement.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a perspective view showing an external configuration of a printer according to a preferred embodiment of the present invention.

  As shown in FIG. 1, the printer 10 has a printer main body 11, and the printer main body 11 has a front panel 12, a paper discharge port 13, an upper cover 14, and the like. The front panel 12 is provided with an LED display section 12a and a button 12b, and can display an operation state of the printer and instruct an operation of feeding a roll paper. Further, when the open button 11a is pressed, the lock is released and the upper cover 14 is opened.

  The printer main body 11 can be installed in two ways, horizontally and vertically, and it is preferable that the two are substantially orthogonal. However, “horizontal placement” and “vertical placement” of a printer indicate that there are two ways of placing in view of the shape of the printer, and do not require a strict landscape orientation or portrait orientation. Absent. That is, the angle between the two installation surfaces can be arbitrarily designed according to the installation posture required for the printer body 11. In addition, “vertically placed” is intended to include a wall-mounted state as well as a case where it is actually placed vertically on the ground.

  FIG. 2 is a perspective view showing an external configuration of the printer 10 with the upper cover 14 opened.

  As shown in FIG. 2, the printer main body 11 includes an upper cover 14, and a roll paper storage unit 15 is formed in the printer main body 11. By opening the upper cover 14, the roll paper storage unit 15 is exposed as shown in the figure, and the roll paper can be set. The roll paper can be set by being thrown into the roll paper storage unit 15. That is, when replacing the roll paper, the upper cover 14 is opened, the used roll paper or the roll paper core tube in the roll paper storage unit 15 is taken out, a new roll paper is loaded, and the leading end of the roll paper is placed on the paper. After pulling out from the discharge port 13, the upper cover 14 is closed to complete the process. As described above, according to the printer 10 of the present embodiment, a troublesome operation such as inserting the shaft core into the roll paper is not necessary, and the roll paper is set by simply inserting the roll paper into the roll paper storage unit 15. Therefore, the roll paper replacement operation is very simple.

  FIG. 3 is a side cross-sectional view of the printer 10 taken along line YY in FIG.

  As shown in FIG. 3, in addition to the roll paper storage unit 15, the printer main body 11 includes a paper feeding / printing mechanism 16 provided in the conveyance path of the roll paper 20 and a control circuit board 17. The paper feeding / printing mechanism 16 is a mechanism for performing printing while intermittently pulling the roll paper, and includes a feed roller 16a, a thermal head (not shown), and the like. The paper feeding / printing mechanism 16 has a paper cutter unit (not shown), and cuts the roll paper on which printing has been completed in conjunction with the paper feeding operation and the printing operation. The control circuit board 17 is a board on which various electronic components constituting the control circuit are mounted, and each part of the printer is controlled by the control circuit.

  The bottom surface of the roll paper storage unit 15 has a shape similar to an arc of unused roll paper, and a plurality of driven rollers 16b to 16g are provided on the bottom surface of the roll paper storage unit 15 from the downstream side to the upstream side of the conveyance path. It is provided in order. Further, on the side surface in the roll paper storage unit 15, a first near-end detector 18 that detects a state immediately before the roll paper 20 is out of paper (near-end state) when the printer 10 is placed horizontally, and the printer 10 are vertically installed. A second near-end detector 19 for detecting the near-end state of the roll paper 20 at the time of placing is provided. The first near-end detector 18 is disposed between the second driven roller 16c and the third driven roller 16d, and the second near-end detector 19 is a fifth driven roller 16f and a sixth driven roller. Therefore, it is not necessary to secure a dedicated space for providing the near-end detectors 18 and 19, and the space in the roll paper storage unit 15 can be efficiently used.

  As described above, the printer main body 11 has a structure that can be installed in two ways, that is, a landscape orientation and a portrait orientation, which are in a substantially orthogonal relationship. When unused roll paper is set, the first driven roller 16b and the fourth driven roller 16e are in contact with the roll surface of the roll paper 20 in the horizontal state, and these contribute to smooth feeding of the roll paper 20. To do. When the roll paper 20 is consumed and becomes a predetermined diameter or less, the driven roller in contact with the roll paper 20 is switched from the fourth driven roller 16e to the third driven roller 16d, and when the roll paper 20 is further consumed and becomes the predetermined diameter or less. Then, the first driven roller 16b is switched to the second driven roller 16c, and the small-diameter roll paper is smoothly fed out by the second driven roller 16c and the third driven roller 16d.

  In the vertically placed state, the sixth driven constant roller 16 g and the fourth driven roller 16 e are in contact with the roll surface of the roll paper 20, and these contribute to smooth feeding of the roll paper 20. When the roll paper 20 has a predetermined diameter or less, the driven roller in contact with the roll paper 20 is switched from the fourth driven roller 16e to the fifth driven roller 16f, and the small-diameter roll by the fifth driven roller 16f and the sixth driven roller 16g. Smooth feeding of paper is performed. As described above, due to the presence of the plurality of driven rollers 16b to 16g, even if the diameter or weight of the roll paper is changed due to consumption of the roll paper, smooth feeding can be performed regardless of whether the paper is placed vertically or horizontally. It is possible.

  The near-end detectors 18 and 19 of the present embodiment detect the near-end state of the roll paper 20 by detecting the presence or absence of the side surface of the roll paper 20. The roll paper 20 is gradually reduced in diameter by consumption, and the center position of the roll paper 20 is also gradually moved. However, since the near end detector is arranged on the locus of the center position, the core tube of the roll paper 20 is hollow. When the portion reaches the installation position of the near-end detector, this hollow portion (that is, the portion having no side surface) can be detected, and thereby the near-end state can be detected. For this reason, the first near-end detector 18 is provided at a position where a hollow portion when the roll paper 20 set in the horizontally placed printer 10 is consumed and becomes a near-end state can be detected. In addition, the second near-end detector is provided at a position where the hollow portion when the roll paper 20 set in the vertically placed printer 10 is consumed and becomes a near-end state can be detected.

  4A to 4C are schematic cross-sectional views showing the configuration and operation of the near-end detectors 18 and 19.

  As shown in FIGS. 4A to 4C, the near-end detectors 18 and 19 of the present embodiment are configured to include a microswitch 21 that mechanically detects the presence of the side surface of the roll paper. As shown in FIG. 4A, when the roll paper 20 is not present in the roll paper storage unit 15, the microswitch 21 is turned off because it is released from the pressing force by the side surface of the roll paper 20. The same applies to the case where the hollow portion of the core tube 20a of the roll paper 20 exists as shown in FIG. On the other hand, as shown in FIG. 4C, when the roll paper 20 exists in the roll paper storage unit 15, the micro switch 21 is turned on by being pushed by the side surface 20 b of the roll paper 20.

  The near-end state of the roll paper is a state immediately before the roll paper is completely out of paper. The printer designer or user may set the remaining amount of time in the near-end state as appropriate. In the present embodiment, the position of the near-end detectors 18 and 19 can be adjusted in the radial direction of the roll paper by sliding the lock release buttons 18a and 19a while pressing them, so that the user can detect the near-end. The diameter can be freely adjusted within a predetermined range.

The positional relationship between the first near-end detector 18 and the second near-end detector 19 is as follows. When a roll paper having the maximum radius R ₀ is put into the roll paper storage unit 15 when not in use, in the horizontal state, the distance D ₁ from the center of the roll paper 20 to the first near-end detector 18 and the roll paper The relationship between the distance D ₂ from the center of 20 to the second near-end detector 19 and the maximum half length R ₀ of the roll paper is R ₀ > D ₁ and R ₀ > D ₂ . Although the relationship between D ₁ and D ₂ is not particularly limited, D ₁ ≈D ₂ results as a result of the relationship between the maximum half-longitude R ₀ . In the vertically placed state, the center position of the roll paper 20 slightly deviates from the center position in the horizontally placed state, but the relationship between D ₁ , D ₂ and R ₀ is the same as in the horizontally placed state. In other words, in both cases of horizontal placement and vertical placement, the first and second near-end detectors 18 and 19 are both provided at a position where the end face of the unused roll paper 20 can be detected. Therefore, it is not necessary to separate the position of the other near-end detector that does not directly contribute to near-end detection from the center of the roll paper, and the roll paper storage unit 15 can be downsized.

  FIG. 5 is a block diagram illustrating the configuration of the control circuit of the printer 10.

  As shown in FIG. 5, the control circuit 30 of the printer 10 controls a system controller 31 that controls the entire printer system such as conveyance control and print control, a memory 32 that stores control programs and various data, and an LED display unit 12a. And a communication interface 34 that performs data transfer with the host PC. The sensor outputs of the first and second near-end detectors 18 and 19 are input to the system controller 31, and the system controller 31 determines the final near-end state based on these sensor outputs. This determination result is sent to the display control unit 33 as a near-end signal, and the display control unit 33 causes the LED display unit 12a to blink in a predetermined pattern.

  Next, the near-end detection operation of the printer 10 will be described with reference to FIGS. 6 and 7.

  FIG. 6 is a schematic diagram for explaining the near-end detection operation of the printer 10 in the horizontal position. FIG. 7 is a schematic diagram for explaining the near-end detection operation of the printer 10 in the vertically placed state.

  As shown in FIG. 6, when the unused roll paper 20A is set in the horizontally placed printer 10, the first near-end detector 18 detects the side surface of the unused roll paper 20A and is turned on, and the second near-end is turned on. The detector 19 is also turned on by detecting the side surface of the unused roll paper 20A. When the roll paper 20A is consumed and the roll diameter is gradually reduced, the second near-end detector 19 is first turned off. Thereafter, when the roll paper is further consumed and becomes the roll paper 20B in the near-end state, the output of the first near-end detector 18 is also turned off. That is, in this state, both the first and second near-end detectors 18 and 19 are turned off. The system controller 31 that has detected that this sensor output state has continued for a predetermined time determines that the roll paper has become a near-end state, and outputs a near-end signal.

  As shown in FIG. 7, when the unused roll paper 20A is set in the vertically placed printer 10, the second near-end detector 19 is turned on by detecting the side surface of the roll paper 20A, and the first near-end detector is turned on. 18 is also turned on by detecting the side surface of the roll paper 20A. When the roll paper 20A is consumed and the roll diameter is gradually reduced, the first near-end detector 18 is first turned off. Thereafter, when the roll paper is further consumed and the roll paper 20B is in the near-end state, the output of the second near-end detector 19 is also turned off. That is, in this state, both the first and second near-end detectors 18 and 19 are turned off. The system controller 31 that has detected that this sensor output state has continued for a predetermined time determines that the roll paper has become a near-end state, and outputs a near-end signal.

  As described above, according to the present embodiment, the first near-end detector 18 and the second near-end detector 19 can be used for the unused roll paper regardless of whether the printer body 11 is placed vertically or horizontally. Since it is provided at a position where the presence can be detected, the position of the second near-end detector 19 that does not directly contribute to near-end detection when placed horizontally can be closer to the center of the roll paper 20 than in the past, Further, the position of the first near-end detector 18 that does not directly contribute to near-end detection when placed vertically can be made closer to the center of the roll paper 20 than in the prior art. Accordingly, it is not necessary to secure an extra space in the roll paper storage unit such as a guide unit for dropping the roll paper in the near-end state, so that the size of the entire printer can be reduced.

  The present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention, and these are also included in the scope of the present invention. Needless to say.

  For example, in the above embodiment, the near-end detectors 18 and 19 are configured using the microswitch 21 that mechanically detects the presence of the side surface of the roll paper 20, but the presence of the side surface of the roll paper is optically detected. It is also possible to use an optical sensor for detection. Further, although the LED display unit 12a is used as a display unit for the printer operation state including the near-end state, other display units such as a liquid crystal display can be used.

  In the above-described embodiment, the case where the output of the near-end detector is turned off when the side surface of the roll paper 20 is present and the output is turned on when the side surface is not present has been described. However, it may be configured such that the output of the near-end detector is turned on when the side face exists, and turned off when the side face is not present.

FIG. 1 is a perspective view showing an external configuration of a printer according to a preferred embodiment of the present invention. FIG. 2 is a perspective view showing an external configuration of the printer 10 with the upper cover 14 opened. FIG. 3 is a side cross-sectional view of the printer 10 taken along line YY in FIG. 4A to 4C are schematic cross-sectional views showing the configuration and operation of the near-end detectors 18 and 19. FIG. 5 is a block diagram illustrating the configuration of the control circuit of the printer 10. FIG. 6 is a schematic diagram for explaining the near-end detection operation of the printer 10 in the horizontal position. FIG. 7 is a schematic diagram for explaining the near-end detection operation of the printer 10 in the vertically placed state.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Printer 11 Printer main body 11a Top cover open button 11b Installation surface 12 Front panel 12a LED display part 12b Button 13 Paper discharge port 14 Upper cover 15 Roll paper storage part 16 Paper feed / printing mechanism 16a Feed roller 16b First driven roller 16c Second driven roller 16d third driven roller 16e fourth driven roller 16f fifth driven roller 16g sixth driven roller 17 control circuit board 18 first near-end detector 19 second near-end detector 20 roll paper 20A Unused roll paper 20B Near end roll paper 21 Micro switch 30 Control circuit 31 System controller 32 Memory 33 Display control unit 34 Communication interface

Claims (6)

The printer itself,
A roll paper storage section provided in the printer body;
A first near-end detector that is provided in the roll paper storage unit and detects a near-end state of the roll paper in the roll paper storage unit when the printer main body is in a first installation state;
A second near-end detector provided in the roll paper storage unit for detecting a near-end state of the roll paper when the printer body is in a second installation state different from the first installation state;
Both the first and second near-end detectors can detect the presence of unused roll paper in the roll paper storage section even when the printer body is in either the first or second installation state. A printer characterized by being provided in the printer.   When the printer main body is in the first installation state, the second near-end detector does not detect the presence of roll paper in the roll paper storage unit, and the first near-end detector is not in the roll. The printer according to claim 1, further comprising a determination unit that determines that the roll paper is in a near-end state when a near-end state of the paper is detected.   When the printer main body is in the second installation state, the first near-end detector does not detect the presence of roll paper in the roll paper storage unit, and the second near-end detector is not in the roll. The printer according to claim 1, further comprising a determination unit that determines that the roll paper is in a near-end state when a near-end state of the paper is detected.   The first and second near-end detectors detect a near-end state of the roll paper by detecting a hollow portion of the core tube of the roll paper that has been consumed and has a predetermined diameter or less. The printer according to any one of claims 1 to 3.   The printer according to claim 4, wherein the first and second near-end detectors include a micro switch that mechanically detects the hollow portion. The first installation state is a state in which the printer main body is placed horizontally,
The printer according to claim 1, wherein the second installation state is a state in which the printer main body is placed vertically.

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