JP3912501B2 - INK CARTRIDGE INSTALLATION STATE DETECTING DEVICE AND INKJET RECORDING DEVICE HAVING THE INK CARTRIDGE INSTALLATION STATUS DETECTING DEVICE - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ink cartridge mounting state detection device of an ink jet recording apparatus in which a plurality of ink cartridges can be mounted, and an ink jet recording apparatus including the ink cartridge mounting state detection device.
[0002]
[Prior art]
In an ink jet recording apparatus, a color ink cartridge in which a plurality of color inks are stored in one cartridge replaces the entire color ink cartridge when one of the plurality of color inks runs out, even if other ink remains There is a lot of waste because you have to do it. In recent inkjet recording apparatuses, the types of color inks used are increasing in order to realize high-quality photographic image quality without graininess, and this tendency has become more prominent. Therefore, in order to eliminate such waste of ink, an ink jet recording apparatus in which a plurality of color inks are accommodated in independent ink cartridges and only ink cartridges that have run out of ink can be replaced has become widespread. It's getting on.
[0003]
As described above, when a plurality of color inks become independent ink cartridges, and the number of ink cartridges increases, there is a high possibility that the ink cartridges may be erroneously attached or disconnected. Therefore, as a man interface function, a function for transmitting the mounting state of each ink cartridge to the user as much as possible is required. Therefore, the conventional ink jet recording apparatus has a function of detecting the presence or absence of an unmounted ink cartridge and transmitting it to the user. FIG. 8 is a circuit diagram showing a schematic configuration of an ink cartridge mounting state detecting device of a conventional ink jet recording apparatus.
[0004]
Each of the ink cartridges I / C1 to I / C4 has a short pin S1 to a short pin S4. In a state where each ink cartridge is installed in a predetermined ink slot, the power supply voltage Vcc is short-circuited to GND through the resistor R1, and the voltage of the I / O port becomes 0V. If any one or more of the ink cartridges I / C1 to I / C4 are not mounted, the voltage of the I / O port becomes the power supply voltage Vcc. The I / O port is a digital input port of a recording control unit that controls the ink jet recording apparatus 50.
[0005]
Accordingly, the I / O port becomes 0 V (low level) when all of the ink cartridges I / C1 to I / C4 are mounted, and the Vcc voltage when any one or more of the ink cartridges is not mounted. (High level). Then, the recording control unit detects whether the voltage level of the I / O port is low level or high level, and determines whether or not all of the ink cartridges I / C1 to I / C4 are mounted.
[0006]
[Problems to be solved by the invention]
However, it is not possible to know which color ink cartridge is not installed simply by knowing whether or not all of the ink cartridges are installed. For this reason, when the user detects an unmounted ink cartridge, the user must check the ink cartridge mounted state of the ink jet recording apparatus at a glance to determine which color ink cartridge is not mounted. It was. In addition, if the above circuit detects the mounting state of each ink cartridge, digital input ports are required as many as the number of ink cartridges to be mounted. This greatly increases the cost of the ink cartridge mounting state detection device. This is not realistic.
[0007]
The present invention has been made in view of such a situation, and an object thereof is to realize an ink cartridge mounting state detection device capable of individually detecting the mounting state of each ink cartridge at low cost.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, an invention according to claim 1 of the present application electrically detects an ink cartridge mounting portion having n ink slots into which ink cartridges can be mounted and the presence / absence of an ink cartridge in each ink slot. An ink cartridge mounting state detection apparatus comprising: an ink cartridge detection circuit; and an ink cartridge mounting state calculation unit that calculates an ink cartridge mounting state of the ink cartridge mounting unit from a DC voltage value output from the ink cartridge detection circuit. The ink cartridge detection circuit divides a predetermined DC voltage by a voltage dividing ratio between a first voltage dividing resistor and a second voltage dividing resistor, and outputs the divided DC voltage to the ink cartridge mounting state calculation unit; With the ink cartridge mounted in the ink slot, the ink cartridge And n detection resistors disposed at each ink slot whose both ends are short-circuited by a short-circuiting conductor disposed on the ridge, wherein the voltage dividing circuit includes the first voltage dividing resistor and the second voltage dividing resistor. The voltage dividing ratio varies depending on the combined resistance value of the n detection resistors connected in series with the voltage dividing resistors, and the n detection resistors are included in all possible combinations. An ink cartridge mounting state detecting device characterized in that the resistance ratio is such that the ink cartridge mounting state can be uniquely determined from a serial combined resistance value.
[0009]
In the voltage dividing circuit, n detection resistors are connected in series between the first voltage dividing resistor and the second voltage dividing resistor, so that the first voltage dividing resistor and the second voltage dividing resistor are connected to each other. In addition, the voltage dividing ratio is determined by the combined resistance value of the n detection resistors. That is, the combined resistance value of the detection resistors disposed in the ink slots in which no ink cartridge is mounted is added to the first voltage dividing resistor or the second voltage dividing resistor to determine the voltage dividing ratio. Further, the n detection resistors have a resistance ratio that can uniquely determine the ink cartridge mounting state from the series combined resistance values in all possible combinations. That is, the individual mounting state of the ink cartridge can be determined from the series combined resistance value of the detection resistors.
[0010]
Therefore, in the ink cartridge mounting state calculation unit that calculates the ink cartridge mounting state of the ink cartridge mounting unit, the individual mounting state of the ink cartridge is determined from the voltage value of the DC voltage of the voltage dividing circuit output to the ink cartridge mounting state calculation unit. Can be determined.
[0011]
Thus, according to the ink cartridge mounting state detection device of the first aspect of the present invention, each mounting state of the ink cartridge is determined from the voltage value of the DC voltage of the voltage dividing circuit output to the ink cartridge mounting state calculation unit. Therefore, it is possible to obtain the operational effect that the mounting state of each ink cartridge can be detected individually.
[0012]
In addition, since the mounting state information of each ink cartridge is converted into a DC voltage by the combined resistance of each detection resistor, the mounting state of each ink cartridge can be individually determined from the voltage value. Compared to the detection device, the present invention can be implemented only by adding a detection resistor to each ink slot and changing the input port of the recording control unit from the digital input port to the A / D input port. Therefore, since the mounting state of each ink cartridge can be detected individually with a slight additional change compared to the prior art, an ink cartridge mounting state detection device that can individually detect the mounting state of each ink cartridge can be manufactured at low cost. The effect that it can be realized is obtained.
[0013]
The invention according to claim 2 of the present application is the ink cartridge detection circuit according to claim 1, wherein the ink cartridge detection circuit includes a resistance value obtained by adding a resistance value of the first voltage dividing resistor to a series composite resistance value of the n detection resistors. An ink cartridge mounting state detecting device characterized in that a predetermined DC voltage is divided by a voltage dividing ratio with a resistance value of the second voltage dividing resistor and output to the ink cartridge mounting state calculation unit. It is.
[0014]
In this way, a predetermined DC voltage is obtained by a voltage dividing ratio between the resistance value obtained by adding the resistance value of the first voltage dividing resistor to the series combined resistance value of the n detection resistors and the resistance value of the second voltage dividing resistor. Since the voltage is divided and output to the ink cartridge mounting state calculation unit, the DC output voltage of the voltage dividing circuit can be configured to increase or decrease in stages according to the number and position of the unmounted ink cartridges.
[0015]
Thus, according to the ink cartridge mounting state detecting device according to the second aspect of the present invention, in addition to the function and effect of the first aspect of the present invention, the DC output voltage of the voltage dividing circuit is not mounted. Since it can be configured to increase or decrease in stages according to the number and position of the cartridges, it is easy to associate the DC output voltage value of the voltage dividing circuit with the individual mounting state of each ink cartridge. Is obtained.
[0016]
The invention according to claim 3 of the present application is the invention according to claim 1 or 2, wherein the resistance ratio of the n detection resistors is 2. ^n-1 : 2 ^n-2 : ...: 2 ⁿⁿ This is an ink cartridge mounting state detecting device.
[0017]
Thus, the resistance ratio of the n detection resistors is 2 ^n-1 : 2 ^n-2 : ...: 2 ⁿⁿ Therefore, for example, in an ink jet recording apparatus having an ink cartridge mounting portion for mounting four ink cartridges, the resistance ratio of the four detection resistors is 2 ³ : 2 ² : 2 ¹ : 2 ⁰ = 8: 4: 2: 1. Therefore, the series combined resistance value of the four detection resistors does not become the same resistance value in all combinations of the detection resistors, and the individual mounting state of each ink cartridge is uniquely determined by the series combined resistance value. It will be. Furthermore, the DC voltage value output from the voltage dividing circuit is increased or decreased stepwise by a voltage difference of approximately equal intervals depending on the resistance ratio, so that the possibility of erroneous detection can be reduced.
[0018]
Thereby, according to the ink cartridge mounting state detecting device according to the invention described in claim 3 of the present application, in addition to the function and effect of the invention described in claim 1 or 2, the voltage divider circuit outputs the resistance ratio. The direct current voltage value can be increased or decreased step by step with a voltage difference of approximately equal intervals, thereby reducing the possibility of erroneous detection, so that the individual mounting state of each ink cartridge can be detected more accurately. The effect that it can be obtained.
[0019]
A fourth aspect of the present invention is an ink cartridge mounting state detecting device according to any one of the first to third aspects, wherein the two ink cartridge detecting circuits are provided.
[0020]
As the number of ink cartridges to be installed in the ink cartridge mounting section increases, the number of combinations of the mounting states of each ink cartridge increases, so the voltage of the DC voltage value of the voltage dividing circuit that increases or decreases depending on the combination of mounting states of each ink cartridge The difference will inevitably become smaller. Therefore, there is a possibility that the voltage difference becomes a voltage difference that cannot be detected by the ink cartridge mounting state calculation unit, or a voltage difference that is easily detected by noise or the like. Therefore, the n ink cartridges are divided into two groups, and the two ink cartridge detection circuits individually detect the ink cartridge mounting state of each group, whereby the voltage difference of the DC voltage value of the voltage dividing circuit is reduced. It can prevent becoming too small.
[0021]
As a result, according to the ink cartridge mounting state detection device of the invention described in claim 4 of the present application, in addition to the function and effect of the invention described in any one of claims 1 to 3 of the present application, a large number of ink cartridges are provided. Even in an ink jet recording apparatus having an ink cartridge mounting portion to be mounted, it is possible to prevent the voltage difference of the DC voltage value of the voltage dividing circuit from becoming too small and reliably detect the mounting state of each ink cartridge. The effect of being able to be obtained is obtained.
[0022]
A fifth aspect of the present invention is an ink jet recording apparatus including the ink cartridge mounting state detecting device according to any one of the first to fourth aspects.
According to the ink jet recording apparatus according to the fifth aspect of the present invention, in the ink jet recording apparatus, it is possible to obtain the operational effects of the invention according to any one of the first to fourth aspects of the present invention.
[0023]
The invention according to claim 6 of the present application is characterized in that, in claim 5, the recording head for ejecting ink is mounted on the recording paper, and the ink cartridge mounting portion is installed in a carriage that is pivotally supported so as to reciprocate in the main scanning direction. The ink jet recording apparatus is characterized by being configured.
[0024]
According to the ink jet recording apparatus of the present invention, in the ink jet recording apparatus in which the ink cartridge mounting portion is configured in the carriage that is pivotally supported so as to reciprocate in the main scanning direction. Thus, the function and effect of the invention of claim 5 can be obtained.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic plan view showing an “inkjet recording apparatus” according to the present invention.
[0026]
The ink jet recording apparatus 50 is provided with a carriage 1 that moves in the main scanning direction X as a recording unit that performs recording on recording paper such as plain paper. The carriage 1 is pivotally supported by the carriage guide shaft 2 at the bearing portion 11 so as to reciprocate in the main scanning direction X. The carriage 1 is equipped with a recording head (not shown) that ejects ink onto recording paper. The recording paper automatically fed from the paper feed tray 3 is recorded while alternately repeating the operation of reciprocating the carriage 1 in the direction indicated by the symbol X and the operation of transporting the recording paper by a predetermined transport amount. Recording is performed on the recording paper by ejecting ink from the head onto the recording paper, and the recording paper is discharged to the paper discharge tray 4.
[0027]
Further, an opening 5 is formed in the main body of the ink jet recording apparatus 50 as shown in the figure. As shown in the drawing, a part of the opening is wide open to form an ink cartridge replacement opening 6, and the ink cartridge is out of ink while the carriage 1 is stopped at the ink cartridge replacement opening 6. It is the structure which can perform the operation | work which replaces 31.
[0028]
FIG. 2 is an enlarged perspective view showing the vicinity of the carriage 1 positioned at the ink replacement position.
[0029]
The carriage 1 positioned at the ink replacement position is positioned in the ink cartridge replacement opening 6 as shown in the drawing, and the upper surface of the carriage 1 is exposed in the ink cartridge replacement opening 6. An upper lid 12 is disposed on the carriage 1 so as to open and close upward with the support portion 13 as a rotation axis. A hole 121 is formed in the upper lid 12 for each ink cartridge 31 stored in the carriage 1. Through the holes 121, the ink cartridge 31 stored in the carriage 1 and the color label 32 indicating the ink color attached to the ink cartridge 31 can be confirmed with the upper lid 12 closed. It has become.
[0030]
FIG. 3 is an enlarged perspective view showing the inside of the carriage 1 in which the ink cartridge 31 is stored.
[0031]
The ink cartridges 31 are stored in the ink cartridge mounting portion 14 of the carriage 1, and in the embodiment, seven ink cartridges 31 are mounted. Each ink cartridge 31 is provided with a color label 32 indicating the ink color filled individually. Further, the ink cartridge 31 has claw portions 33 at both ends as shown in the figure, and the claw portions 33 engage with the ink slots 15 formed for each ink cartridge 31 in the ink cartridge mounting portion 14. Thus, both ends are fixed and stored in the ink cartridge mounting portion 14. The ink filled in the ink cartridge 31 flows out from the ink outlet 34 of the ink cartridge 31 to the ink pool 16 formed for each ink cartridge 31 at the bottom of the ink cartridge mounting portion 14. The protrusion 17 formed at the approximate center of the ink pool 16 is for breaking through the lid formed at the ink outlet 34 of the new ink cartridge 31.
[0032]
FIG. 4 is a circuit diagram showing a schematic configuration of an “ink cartridge detection circuit” according to the present invention.
[0033]
As described above, the ink cartridge mounting unit 14 of the ink jet recording apparatus 50 includes the seven ink slots 15 so that the seven ink cartridges 31 (ink cartridges 311 to 317) can be mounted. The “ink cartridge detection circuit” has detection resistors R1 to R7 corresponding to the ink slots 15. The detection resistor R1 is short-circuited by the short pin (short-circuiting conductor) S1 of the ink cartridge 311 in a state where the ink cartridge 311 (I / C1) is mounted on the ink cartridge mounting unit 14, and similarly, the detection resistors R2 to R7 are Ink cartridges 312 (I / C2) to 317 (I / C7) are short-circuited by the short pins S2 to S7, respectively, in a state where they are mounted on the ink cartridge mounting portion 14.
[0034]
The “ink cartridge mounting state detection device” in this embodiment includes two “ink cartridge detection circuits”. Assuming that the first ink cartridge detection circuit and the second ink cartridge detection circuit are respectively used, the first ink cartridge detection circuit is connected in series with the first voltage dividing resistor r2 and the second voltage dividing resistor r1. The detected resistors R1 to R4 constitute a “voltage dividing circuit”. In the second ink cartridge detection circuit, the first voltage dividing resistor r12, the second voltage dividing resistor r11, and the detection resistors R5 to R7 connected in series constitute a “voltage dividing circuit”. The output voltage of the first ink cartridge detection circuit is output to the A / D port 1 of a recording control unit (not shown) that performs recording execution control of the ink jet recording apparatus 50, and the output of the second ink cartridge detection circuit. The voltage is output to the A / D port 2. The recording control unit inputs the DC voltage values output from the first ink cartridge detection circuit and the second ink cartridge detection circuit from the A / D port 1 and the A / D port 2, and from the DC voltage values, the ink cartridge An “ink cartridge mounting state calculation unit” for calculating the ink cartridge mounting state of the mounting unit 14 is provided.
[0035]
Since there are 128 combinations of seven ink cartridges, when trying to detect them with one A / D port, the voltage difference of the DC voltage value of the voltage dividing circuit that varies depending on the combination of the mounting states of the ink cartridges. There is a risk of false detection and the like because it becomes too small. Therefore, two ink cartridge detection circuits are provided, the first ink cartridge detection circuit detects the mounted state (16 types) of the four ink cartridges, and the second ink cartridge detection circuit detects the remaining three ink cartridges. A wearing state (8 ways) is detected. As a result, it is possible to detect the mounting state of the ink cartridge with little risk of erroneous detection.
[0036]
The first voltage dividing resistor r2 and the second voltage dividing resistor r1 have a resistance value that provides a resistance ratio of 2: 210. The resistance ratio of the detection resistors R1 to R4 is 2 with respect to the first voltage dividing resistor r2 and the second voltage dividing resistor r1. ⁰ : 2 ¹ : 2 ² : 2 ³ = 1: 2: 4: 8. Similarly, the first voltage dividing resistor r12 and the second voltage dividing resistor r11 have a resistance ratio of 2: 210, and the resistance ratio of the detection resistors R5 to R7 is 2 ⁰ : 2 ¹ : 2 ² = 1: 2: 4. In this embodiment, the power supply voltage Vcc is DC42V.
[0037]
FIG. 5 is a table showing output voltages of the first ink cartridge detection circuit with respect to individual mounting states of the ink cartridges I / C1 to I / C4, and FIG. 6 shows the ink cartridges I / C5 to I / C7. 6 is a table showing output voltages of a second ink cartridge detection circuit with respect to individual mounting states.
[0038]
The unmounted I / C is a combination of the ink cartridges that are not mounted in the ink cartridges I / C1 to I / C4 (ink cartridges I / C5 to I / C7 in FIG. 6). It is shown by. The combined resistance ratio is that of the first voltage dividing resistor r2 and the detection resistors R1 to R4 (in FIG. 6, the first voltage dividing resistor r12 and the detection resistors R5 to R7) for the combination of ink cartridges that are not mounted. The resistance ratio (voltage division ratio) between the combined resistance and the second voltage dividing resistor r1 (second voltage dividing resistor r11 in FIG. 6) is shown. The output voltage obtained by dividing the power supply voltage Vcc (DC42V) by the combined resistance ratio becomes the output voltage to the A / D port 1 (in FIG. 6, the output voltage to the A / D port 2). .
[0039]
For example, in the first ink cartridge detection circuit shown in FIG. 5, when there is no unmounted ink cartridge, that is, when all the ink cartridges are mounted (first row in the table of FIG. 6), the detection resistance Since R1 to R4 are all short-circuited by the short pins S1 to S4, the power supply voltage Vcc is a resistance ratio between the second voltage dividing resistor r1 and the first voltage dividing resistor r2, that is, 210: 2. The voltage is divided by the pressure ratio, and the output voltage to the A / D port 1 is 42 V × 2 / (210 + 2) = 0.396 V.
[0040]
When the ink cartridge I / C1 is not attached (second row in the table of FIG. 6), the detection resistors R2 to R4 are short-circuited by the short pins S2 to S4. 2 is divided by a resistance ratio of the voltage dividing resistor r1 of 2 and the resistance (2 + 1) obtained by adding the detection resistor R1 to the first voltage dividing resistor r2, that is, a voltage dividing ratio of 210: 3 to the A / D port 1 Output voltage of 42V × 3 / (210 + 3) = 0.582V.
[0041]
Further, when the ink cartridges I / C1 and I / C2 are not mounted (the fourth row in the table of FIG. 6), the detection resistors R3 and R4 are short-circuited by the short pins S3 and S4, so that the power supply voltage Vcc is divided by a resistance ratio between the second voltage dividing resistor r1 and the resistance (2 + 1 + 2) obtained by adding the detection resistors R1 and R2 to the first voltage dividing resistor r2, that is, a voltage dividing ratio of 210: 5. The output voltage to the A / D port 1 is 42V × 5 / (210 + 5) = 0.777V.
[0042]
In this way, the output voltage to the A / D port 1 and A / D port 2 for each combination of the unmounted ink cartridges is determined, and the first ink cartridge detection circuit and the second ink cartridge detection circuit detect the combinations. Resistance ratio is 2 ^n-1 : 2 ^n-2 : ...: 2 ⁿⁿ Therefore, the combined resistance ratio for each combination of unmounted ink cartridges is a unique resistance ratio for each combination. Therefore, the output voltage to the A / D port 1 and the A / D port 2 for each combination of the unmounted ink cartridges is a unique voltage value for each combination.
[0043]
The output voltage to the A / D port 1 and the A / D port 2 for each combination of unmounted ink cartridges has a detection resistance ratio of 2. ^n-1 : 2 ^n-2 : ...: 2 ⁿⁿ Therefore, the voltage difference is substantially equidistant. Therefore, the first voltage dividing resistor r2 and the second voltage dividing resistor r1, and each of the voltage dividing resistors r1 and r2, so that this voltage difference is a sufficient voltage difference with respect to the input characteristics of the A / D port 1 and the A / D port 2. By setting the resistance ratio of the detection resistors R1 to R4 (in FIG. 6, the first voltage dividing resistor r12 and the second voltage dividing resistor r11 and the detection resistors R5 to R7), the mounting state of each ink cartridge Can be detected individually, and an “ink cartridge detection circuit” can be configured with less risk of erroneous detection. In this embodiment, the difference in output voltage with respect to the mounting state of each ink cartridge is about 0.17 V to 0.2 V, and the minimum detected voltage difference of the A / D port is 0.003 V. Since there is a sufficient margin, there is almost no risk of erroneous detection due to noise or the like.
[0044]
Further, the ink cartridge 31 and the carriage 1 can be used as they are, and resistors R1 to R7 are added to the “ink cartridge detection circuit”, and the input port is changed from the digital I / O port to the A / D port. Since only the change is required, the mounting state of each ink cartridge can be detected individually with a slight additional change.
[0045]
As another embodiment, there is an ink jet recording apparatus 50 in which the number of ink cartridges mounted on the ink cartridge mounting unit 14 is four. FIG. 7 is a circuit diagram showing a schematic configuration in another embodiment of the “ink cartridge detection circuit” according to the present invention. In this embodiment, since there are 16 combinations of ink cartridge mounting states, one “ink cartridge detection circuit” can detect 16 ink cartridge mounting states with a sufficient voltage difference. The output voltage of the ink cartridge detection circuit for each cartridge mounting state is the same as the table shown in FIG.
[0046]
Furthermore, as another embodiment, there is an ink jet recording apparatus 50 in which the ink cartridge mounting portion 14 is configured at a different location from the carriage 1, and the present invention can also be implemented in such an embodiment. The effects of the present invention can be obtained.
[0047]
It should be noted that the present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the invention described in the claims, and these are also included in the scope of the present invention. Needless to say.
[0048]
【The invention's effect】
According to the present invention, an ink cartridge mounting state detection device that can individually detect the mounting state of each ink cartridge can be realized at low cost.
[Brief description of the drawings]
FIG. 1 is a schematic plan view showing an “inkjet recording apparatus” according to the present invention.
FIG. 2 is an enlarged perspective view showing the vicinity of a carriage positioned at an ink replacement position.
FIG. 3 is a perspective view further enlarging an inside of a carriage in which an ink cartridge is stored.
FIG. 4 is a circuit diagram showing a schematic configuration of an “ink cartridge detection circuit” according to the present invention.
FIG. 5 is a table showing output voltages of the first ink cartridge detection circuit with respect to individual mounting states of the ink cartridges.
FIG. 6 is a table showing output voltages of a second ink cartridge detection circuit with respect to the mounting state of each ink cartridge.
FIG. 7 is a circuit diagram showing a schematic configuration in another embodiment of an “ink cartridge detection circuit” according to the present invention.
FIG. 8 is a circuit diagram showing an outline of an “ink cartridge mounting state detecting device” in the prior art.
[Explanation of symbols]
1 Carriage
2 Carriage guide shaft
3 Paper tray
4 Output tray
5 openings
6 Ink cartridge replacement opening
11 Bearing
12 Top cover
121 holes
13 Support part
14 Ink cartridge mounting part
15 Ink slot
16 Ink pool
17 Protrusion
31, 311 to 317, I / C1 to I / C7 ink cartridge
32 color labels
33 Nail
50 Inkjet recording device
r2, r12 First voltage dividing resistor
r1, r11 Second voltage dividing resistor
R1-R7 detection resistance
S1-S7 short pin

Claims (6)

Ink cartridge mounting portion having n ink slots into which ink cartridges can be mounted, an ink cartridge detection circuit for electrically detecting the presence or absence of an ink cartridge in each ink slot, and a DC voltage value output by the ink cartridge detection circuit An ink cartridge mounting state detecting device comprising: an ink cartridge mounting state calculating unit that calculates an ink cartridge mounting state of the ink cartridge mounting unit;
The ink cartridge detection circuit divides a predetermined DC voltage by a voltage dividing ratio between a first voltage dividing resistor and a second voltage dividing resistor, and outputs the divided voltage to the ink cartridge mounting state calculation unit, and the ink In a state where the ink cartridge is mounted in the slot, n detection resistors are provided for each ink slot whose both ends are short-circuited by a short-circuit conductor provided in the ink cartridge,
The voltage dividing circuit has a configuration in which a voltage dividing ratio is changed by a combined resistance value of the n detection resistors connected in series between the first voltage dividing resistor and the second voltage dividing resistor. The n detection resistors have a resistance ratio that allows the ink cartridge mounting state to be uniquely determined from series combined resistance values in all possible combinations. Detection device. 2. The ink cartridge detection circuit according to claim 1, wherein the ink cartridge detection circuit includes a resistance value obtained by adding a resistance value of the first voltage dividing resistor to a series combined resistance value of the n detection resistors, and a resistance value of the second voltage dividing resistor. An ink cartridge mounting state detecting device characterized in that a predetermined DC voltage is divided at a voltage dividing ratio and output to the ink cartridge mounting state calculation unit. 3. The ink cartridge mounting state detection device according to claim 1, wherein a resistance ratio of the ⁿ detection resistors is 2 ⁿ⁻¹ : 2 ⁿ⁻² :...: 2 ⁿ⁻ⁿ . 4. The ink cartridge mounting state detecting device according to claim 1, further comprising two ink cartridge detecting circuits. An ink jet recording apparatus comprising the ink cartridge mounting state detection apparatus according to claim 1. 6. The ink cartridge mounting portion according to claim 5, wherein a recording head for ejecting ink is mounted on the recording paper, and the ink cartridge mounting portion is configured in a carriage that is pivotally supported so as to reciprocate in the main scanning direction. Inkjet recording device.

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