This application claims priority to Japanese Patent Application No. 2008-218197, filed Aug. 27, 2008, the entirety of which is incorporated by reference herein.
1. Technical Field
The present invention relates to the technology of executing decision of opening and closing of an opening section of an apparatus.
2. Related Art
An ink jet printer has an opening section for performing the mounting and detaching of, for example, an ink cartridge, and a cover for opening or closing the opening section. For the avoidance of the execution of a printing operation in a state in which the opening section is opened, and so on, in general, the ink jet printer has a decision device which executes a decision of whether or not the opening section is closed (decision of opening and closing of the opening section). As the decision device which executes the decision of opening and closing of the opening section, for example, a sensor lever which interferes in the cover, thereby being displaced when the opening section is closed by the cover, and an opening and closing sensor having a detection section for detecting the displacement of the sensor lever are used (for example, JP-A-2006-264160).
In a case where the prior opening and closing sensor is used as the decision device which executes the decision of the opening and closing of the opening section, on the grounds of the contact variation of the opening and closing sensor and the like, there was a case where although the opening section is slightly opened, the opening cannot be detected, so that the sensor decides that the opening section is closed. Further, although the sensor lever is displaced by interfering in a body other than the cover, the opening and closing sensor decides that the opening section is closed, and therefore the opening and closing state of the opening section is erroneously decided. In this manner, in the prior decision device which executes the decision of the opening and closing of the opening section, there was room for improvement in decision precision.
Also, such a problem is not limited to the decision of the opening and closing of the opening section for performing the mounting and detaching of the ink cartridge which is provided at the ink jet printer, but generally was a common problem in the case of executing the decision of the opening and closing of the opening section provided at an apparatus.
An advantage of some aspects of the invention is that it provides technology enabling improvement in the precision of the decision of the opening and closing of the opening section of an apparatus.
The invention can be realized as modes or application examples described below.
According to an embodiment of the invention, there is provided an apparatus including: an opening and closing mechanism that opens or closes an opening section of the apparatus; a first movable body that is moved in accordance with the operation of opening and closing the opening section by the opening and closing mechanism; a movement detecting section that detects the movement amount of the first movable body; a determination section that determinates whether or not the opening section is closed, on the basis of the detected movement amount; a second movable body disposed in the apparatus and movable; and a movement transmitting mechanism which moves the first movable body in accordance with the movement of the second movable body in a state in which the opening section is closed, and does not move the first movable body in accordance with the movement of the second movable body in a state in which the opening section is opened.
In this apparatus, the first movable body is moved in accordance with the operation of opening and closing the opening section by the opening and closing mechanism, and whether or not the opening section is closed is decided on the basis of the detected movement amount of the first movable body. Also, in a state in which the opening section is closed, the first movable body is moved by the movement transmitting mechanism in accordance with the movement of the second movable body, and in a state in which the opening section is opened, the first movable body is not moved in accordance with the movement of the second movable body. Therefore, in this apparatus, the accuracy of the decision of the opening and closing of the opening section of the apparatus can be improved.
According to an embodiment of the invention, the first movable body is a linear scale which reciprocates in accordance with the operation of opening and closing the opening section by the opening and closing mechanism, and
the movement transmitting mechanism moves the linear scale in accordance with the movement of the second movable body in a state in which the opening section is closed.
In this apparatus, the movement amount of the linear scale which reciprocates in accordance with the operation of opening and closing the opening section by the opening and closing mechanism is detected, and whether or not the opening section is closed is decided on the basis of the detected movement amount. Also, the movement transmitting mechanism moves the linear scale in accordance with the movement of the second movable body in a state in which the opening section is closed. Therefore, also in this apparatus, the accuracy of the decision of the opening and closing of the opening section of the apparatus can be improved.
According to an embodiment of the invention, the first movable body is a rotating scale which rotates in accordance with the operation of opening and closing the opening section by the opening and closing mechanism, and
the movement transmitting mechanism rotates the rotating scale in accordance with the movement of the second movable body in a state in which the opening section is closed.
In this apparatus, the movement amount of the rotating scale which rotates in accordance with the operation of opening and closing the opening section by the opening and closing mechanism is detected, and whether or not the opening section is closed is decided on the basis of the detected movement amount. Also, the movement transmitting mechanism rotates the rotating scale in accordance with the movement of the second movable body in a state in which the opening section is closed. Therefore, in this apparatus, the accuracy of the decision of the opening and closing of the opening section of the apparatus can be improved.
According to an embodiment of the invention, the first movable body has a plurality of slits arranged along the movement direction thereof, and
the movement detecting section includes a light emitting portion for emitting light, and a light receiving portion for receiving the light emitted from the light emitting portion, and detects the movement amount of the first movable body on the basis of signals representing a light received state by the light receiving portion.
In this apparatus, the movement detecting section can detect the movement amount of the first movable body.
According to an embodiment of the invention, in the apparatus according to any one of Application Examples 1 to 4, the second movable body is a carriage which reciprocates in the apparatus.
In this apparatus, the accuracy of the decision of the opening and closing of the opening section of the apparatus can be improved by using the carriage which reciprocates in the apparatus.
Also, the invention can be realized in various aspects and, for example, realized in modes of a method and apparatus for deciding the opening and closing of the opening section, a printing apparatus, and the like.
The invention will be described with reference to the accompanying drawings, wherein like numbers reference like elements.
Next, modes for carrying out the invention will be explained based on the following embodiments and modification examples.
As shown in
A control section 40 for controlling each section of the printer 10 is also housed in the main body case 20. In this embodiment, the control section 40 includes Application Specific Integrated Circuits (ASICs) having hardware such as a Central Processing Unit (CPU), a Read Only Memory (ROM), a Random Access Memory (RAM), etc. The control section 40 is installed with software for realizing various functions of the printer 10.
An upper case 30 is disposed on the upper portion of the main body case 20. In the upper case 30, there is a scanner mechanism (not shown) for providing the scanner function. The upper case 30 is mounted on the main body case 20 to be rotationally movable about a rotation shaft 350.
As shown in
The linear scale 420 is joined to the upper case 30 (referring to
The sensor 410 is a photo-interrupter sensor having a light emitting portion 412 and a light receiving portion 414, which face each other with the linear scale 420 interposed therebetween. The light emitting portion 412 emits light from a light emitting element (not shown), and the light receiving portion 414 receives the light emitted from the light emitting portion 412 by a light receiving element (not shown). The sensor 410 is fixed to the printing mechanism section 50 (or the main body case 20).
When the linear scale 420 is moved along the longitudinal direction in accordance with the rotational movement of the upper case 30, a light received state in which the light emitted from the light emitting portion 412 is received by the light receiving portion 414 through the slit of the linear scale 420, and a light non-received state in which the light emitted from the light emitting portion 412 is not received by the light receiving portion 414 by being interrupted by the linear scale 420, are alternately repeated. At this time, the light receiving portion 414 outputs a pulse signal representing the repetition of the light received state and the light non-received state. In this embodiment, the light receiving portion 414 outputs two pulse signals having different phases from each other. The sensor 410 detects the moving direction and displacement amount of the linear scale 420 on the basis of the phase shift and pulse number of two pulse signals. Also, the displacement amount of the linear scale 420 may also be expressed as a movement amount. Since the sensor unit 400 detects the movement amount of the linear scale 420, the sensor unit 400 corresponds to the movement detecting section in the invention.
As shown in
In a closed state in which the upper case 30 covers the upper portion of the main body case 20, whereby the opening section 22 is closed (referring to
In the printer 10 according to this embodiment, the control section 40 performs the decision of the opening and closing of the opening section 22 of the main body case 20 on the basis of the results detected by the sensor unit 400. That is, the control section 40 functions as the determination section in the invention. Specifically, the control section 40 determines whether the opening section 22 is closed or opened, by defining a state in which the upper case 30 covers the upper portion of the main body case 20, whereby the opening section 22 is closed, as a reference state, and detecting the position of the upper case 30 on the basis of the moving direction and displacement amount of the linear scale 420 from the reference state, which are detected by the sensor 410. Therefore, in the printer 10 according to this embodiment, the decision of the opening and closing of the opening section 22 can be performed with a high degree of accuracy irrespective of the variations of the dimension or position of each section of the printer 10.
Also, that the opening section 22 is closed may be considered, for example, a state in which the opening section 22 is completely closed by the opening and closing mechanism such as the upper case 30. In this case, when the detected displacement amount of the linear scale 420 from the reference state is zero, the control section 40 decides that the opening section 22 is closed, and when the detected displacement amount is greater than zero, the control section 40 decides that the opening section 22 is opened. Also, that the opening section 22 is closed is not limited to a state in which the opening section 22 is completely closed, but may include also a state in which the opening section 22 is opened only by a small amount. In this case, when the detected displacement amount of the linear scale 420 from the reference state is less than or equal to a predetermined threshold value, the control section 40 decides that the opening section 22 is closed, and when the detected displacement amount is greater than the predetermined threshold value, the control section 40 decides that the opening section 22 is opened.
Also, the control section 40 can also perform the decision of the opening and closing of the opening section 22 on the basis of the occurrence or nonoccurrence of the movement of the linear scale 420 according to the movement of the carriage 60. That is, when the carriage 60 is moved up to the position at which it can interfere in the transmission section 800, and the movement of the linear scale 420 according to the movement of the carriage 60 is detected by the sensor 410, the control section 40 decides that the opening section 22 is closed, and when the movement of the linear scale 420 according to the movement of the carriage 60 is not detected, the control section 40 decides that the opening section 22 is opened. Therefore, for example, the decision of the opening and closing of the opening section 22 is based on the moving direction and displacement amount of the linear scale 420 from the reference state, and is additionally based on the occurrence or nonoccurrence of the movement of the linear scale 420 according to the movement of the carriage 60. Only when in both decisions that the opening section 22 is closed have been given, the control section 40 can finally decide that the opening section 22 is really closed. Accordingly, even when there is a case where an erroneous decision that the opening section 22 is closed is given, the erroneous decision can be prevented by carrying out the decision of the opening and closing of the opening section 22 based on the occurrence or nonoccurrence of the movement of the linear scale 420 according to the movement of the carriage 60. Therefore, in the printer 10 according to this embodiment, the accuracy of the decision of the opening and closing of the opening section 22 of the main body case 20 can be improved.
The carriage 60a has a rod-shaped connecting portion 63 extending obliquely downwardly from the carriage 60a. The connecting portion 63 has a hole portion 64 of a long ellipse shape and the wheel portion 810 of the transmission section 800 is sliding-movably fitted into the hole portion 64. The connecting portion 63 of the carriage 60a and the transmission section 800 correspond to the movement transmitting mechanism in the invention.
If the carriage 60a is moved toward the transmission section 800, the position of the wheel portion 810 in the hole portion 64 of the connecting portion 63 is moved upward, so that the transmission section 800 is pushed up upward as a whole. Therefore, the decision of the opening and closing of the opening section 22 based on the occurrence or nonoccurrence of the movement of the linear scale 420 according to the movement of the carriage 60a can be carried out, and therefore the accuracy of the decision of the opening and closing of the opening section 22 of the main body case 20 can be improved.
The rotary scale 430 is joined to the upper case 30 through, for example, a link to rotate according to the rotational movement of the upper case 30 (that is, the operation of opening and closing the opening section 22 of the main body case 20) (referring to the arrow in
The positional relation between the arm portion 65 and the gear 436 becomes arranged such that in the closed state in which the upper case 30 covers the upper portion of the main body case 20, whereby the opening section 22 is closed (referring to
Also in the third example, since the rotary scale 430 rotates according to the rotational movement of the upper case 30 (that is, the operation of opening and closing the opening section 22 of the main body case 20), the decision of the opening and closing of the opening section 22 of the main body case 20 can be carried out on the basis of the detected results of the rotating direction and rotation amount of the rotary scale 430 by the sensor unit 400b. Therefore the decision of the opening and closing of the opening section 22 can be performed with a high degree of accuracy irrespective of the variations of the dimension or position of each section of the printer 10. Further, since the decision of the opening and closing of the opening section 22 can be carried out on the basis of the occurrence or nonoccurrence of the rotation of the rotary scale 430 according to the movement of the carriage 60b, the accuracy of the decision of the opening and closing of the opening section 22 of the main body case 20 can be improved.
The sensor unit 700 in the fourth embodiment includes a light emitting portion 710, a light receiving portion 720, and a linear scale 730 described later. As shown in
In the state shown in
In the printer 10c, the control section 40 performs the decision of the opening and closing of the upper case 22 of the main body case 20 by detecting the alignment of the optical axes of the light emitting portion 710 and light receiving portion 720. That is, the control section 40 functions as the determination section in the invention. Specifically, when the control section 40 has detected that the light receiving portion 720 always outputs the signal representing the light received state, the control section 40 decides that the opening section 22 is closed. On the other hand, when the control section 40 has detected that the light receiving portion 720 always outputs the signal representing the light non-received state, the control section 40 decides that the opening section 22 is opened.
Further, the control section 40 can carry out the decision of the opening and closing of the opening section 22 on the basis of the detection or non-detection of the movement of the linear scale 730 in accordance with the movement of the carriage 60c. That is, by moving the carriage 60c up to a position at which it interferes in the transmission section 800c, and thus moving the linear scale 730, the control section 40 determines whether or not the movement of the linear scale 730 is detected by the sensor unit 700. If the movement of the linear scale 730 is detected, the control section 40 decides that the opening section 22 is closed, and if the movement of the linear scale 730 has not been detected, the control section 40 decides that the opening section 22 is opened. An erroneous decision of the opening and closing of the opening section 22 by the detection of the alignment of the optical axes of the light emitting portion 710 and light receiving portion 720, can be prevented by carrying out the decision of the opening and closing of the opening section based on the detection or non-detection of the movement of the linear scale 730 in accordance with the movement of the carriage 60c. Therefore, in the printer 10c according to the fourth example, the accuracy of the decision of the opening and closing of the opening section 22 of the main body case 20 can be improved.
Also, the invention is not to be limited to the examples and the embodiments described above, but can be implemented in various aspects within the scope not departing from the essential points thereof, and, for example, the following modification examples are also possible.
In each example described above, the printer 10 is a multi-function machine type printer. However, the printer 10 may also be a single function type printer having no scanner function. In this case, the opening section 22 may be opened and closed by a cover. Also, although the printer 10 has been described as being a so-called on-carriage type printer in which the ink cartridge Ic is mounted in the carriage 60, the printer 10 may also be a so-called off-carriage type printer in which the ink cartridge Ic is not mounted in the carriage 60. Also, the printer 10 is not limited to the ink jet type printer, but may also be the other type printer (for example, laser printer).
Also, in each example described above, description was made to the decision of the opening and closing of the opening section 22 of the main body case 20. However, the invention can be applied also to the decision of the opening and closing of another opening section (for example, the opening section for discharging a printed paper, which is opened and closed by the printed paper receiving tray 14 (referring to
In each example described above, as the sensor, a sensor in which a light emitting portion (light emitting portion 412 or 710) and a light receiving portion (light receiving portion 414 or 720) are disposed to face each other is adopted. However, a reflection type sensor in which a light emitting portion and a light receiving portion are disposed in parallel can also be adopted.
In each example described above, as the first movable body, the linear scale 420, the rotary scale 430, the linear scale 730, or the like is adopted. However, the first movable body does not necessarily have to be a scale. Also, in each example described above, as the movement detecting section for detecting the movement amount of the first movable body, the sensor unit 400 or 700 is adopted. However, as long as the movement detecting section is one that detects the movement amount of the first movable body, it does not necessarily have to be a sensor. Also, for example, in the first example, the configuration may also be arranged such that the sensor 410 is connected to the upper case 30, thereby being moved up and down in accordance with the rotational movement of the upper case 30, and the linear scale 420 is fixed to the printing mechanism section 50 (or the main body case 20). In this case, the sensor 410 corresponds to the first movable body.
Also, in each example described above, as the second movable body, the carriage 60 (60a, 60b, or 60c) is adopted. However, the second movable body may be any other movable element. For example, in a case where the printer has a processing gap adjusting mechanism (APG: Auto Platen Gap mechanism) for adjusting a gap between the surface of the platen 530 and the recording head 610 for print processing on the printing paper P different in thickness, or direct printing on a CD-R surface (referring to JP-A-2008-80649), the processing gap adjusting mechanism can also be used as the second movable body. Also, in a case in which the printer has an EJ frame (paper discharging frame), the EJ frame can also be used as the second movable body.
In the fourth example described above, the configuration is arranged such that the linear scale 730 is horizontally moved in accordance with the movement of the carriage 60c irrespective of whether the printer is in the closed state or the opened state. However, it may also be adopted that the linear scale 730 is moved in accordance with the movement of the upper case 30 (that is, the operation of opening and closing the opening section 22) and in the opening opened state, the linear scale 730 is not horizontally moved in accordance with the movement of the carriage 60c. Also, the moving direction of the linear scale 730 in accordance with the movement of the carriage 60c is not limited to the horizontal direction, but may also be either a vertical direction or an inclined direction.
Also, in the fourth example described above, the light emitting portion 710 is connected to the upper case 30 and the light receiving portion 720 is fixed to the printing mechanism section 50 (or the main body case 20). However, to the contrary, the configuration may also be arranged such that the light receiving portion 720 is connected to the upper case 30 and the light emitting portion 710 is fixed to the printing mechanism section 50 (or the main body case 20).
Also, in the fourth example described above, as the first movable body, the linear scale 730 is adopted. However, instead of the linear scale 730, a rotating scale which has a plurality of slits along the circumferential direction thereof and rotates in accordance with movement of the carriage 60c can also be used.
In each example described above, the configuration in which the tapered portion 61, the connecting portion 63, or the arm portion 65 is integrated with the carriage 60 is adopted. However, the configuration in which the tapered portion 61, the connecting portion 63, or the arm portion 65 is separated from the carriage 60 may also be adopted. Even in this case, the configuration may be arranged such that the tapered portion 61, the connecting portion 63, or the arm portion 65, as a separate body, is moved in accordance with the movement of the carriage 60.
Further, as in each example described above, in a case where the configuration is adopted in which the tapered portion 61, the connecting portion 63, or the arm portion 65 is integrated with the carriage 60, the carriage 60 is designed so as not to protrude from the printer 10.
In the fourth example described above, a portion of the configuration which is realized by hardware may be replaced with software, and to the contrary, a portion of the configuration which is realized by software may be replaced with hardware.
Also, in a case where a part or all of the functions of the invention are realized by software, the software (computer program) may be provided in the form stored in a computer-readable recording medium. In the invention, the “computer-readable recording medium” is not limited to a portable recording medium such as a flexible disc or CD-ROM, but also includes an internal storage device in a computer, such as various RAM, ROM, and the like, or an external storage device fixed to a computer, such as a hard disc.
Number | Date | Country | Kind |
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2008-218197 | Aug 2008 | JP | national |
Number | Name | Date | Kind |
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7029006 | Izumi et al. | Apr 2006 | B2 |
Number | Date | Country |
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2006-264160 | Oct 2006 | JP |
Number | Date | Country | |
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20100050527 A1 | Mar 2010 | US |