JP3807716B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus applied to a laser printer, PPC, PPF, and the like.
[0002]
[Prior art]
This type of conventional image forming apparatus has a heat fixing device, and this heat fixing device has a halogen heater, a fixing roller, a thermistor, a thermal fuse, and the like, and is easy to assemble, service, and maintain. Is considered as a unit. The fixing unit can be easily replaced with the main body of the image forming apparatus, and a CPU for controlling the fixing unit is provided in the main body of the image forming apparatus, and the operation time of the fixing unit is stored in the NVRAM. When the time when the quality cannot be maintained is reached, the user is notified that the fixing unit is to be replaced, and the operation time of the stored fixing unit is deleted when the user connects a new fixing unit.
[0003]
FIG. 9 shows a first example of an image forming apparatus having a fixing unit 1 detachably disposed on the main body 5 of the conventional image forming apparatus. The fixing unit 1 includes a fixing unit 1 in operation. A new article detection temperature fuse 3 (hereinafter referred to as a temperature fuse 3) that is disconnected at a steady temperature is attached, and the opposite connection destination of the temperature fuse 3 is connected to the inside of the image forming apparatus main body 5 via the connectors 2 and 6. In the control board 7, one is connected to GND and the other is connected to the pull-up resistor 9 and the input port of the CPU 8. When the signal input to the CPU 8 is LOW (hereinafter referred to as L), it is detected that the fixing unit 1 is new, and when the signal is HIGH (hereinafter referred to as H), it is not new. When the new fixing unit 1 is used for the first time, the temperature fuse 3 is disconnected by the heat of the fixing roller, and the above-mentioned state changes.
[0004]
Further, a jumper harness 4 for detecting connection of the fixing unit 1 is attached to the connector 2, and the connection destination of the jumper harness 4 facing the control in the image forming apparatus main body 5 is via the connectors 2 and 6. In the substrate 7, one is connected to GND, and the other is connected to the pull-up resistor 9 and the input port of the CPU 8. When the signal input to the CPU 8 is L, the connection of the fixing unit 1 is detected, and when the signal is H, the connection is not established. Thus, the presence or absence of the fixing unit 1 is the presence or absence of the jumper harness 4 and the state changes.
[0005]
FIG. 10 shows a second example of a conventional image forming apparatus. This second example is different from the first example in that the number of pins of the connectors 2 and 6 is reduced. The opposing connection destination of the thermal fuse 3 is connected to the GND on the control board 7 in the image forming apparatus body 5 via the connectors 2 and 6, and the other is connected to the pull-up resistor 9 and the input port of the CPU 8. When the signal is L, it is detected that the fixing unit 1 is new. When the signal is H, the fixing unit 1 is not new.
[0006]
A jumper harness 4 for attaching / detaching detection of the fixing unit 1 is attached to the connector 2. One of the opposing connection destinations of the jumper harness 4 is connected to the GND common to the thermal fuse 3 in the fixing unit 1, and the other is connected to the control board 7 in the image forming apparatus main body 5 via the connectors 2 and 6. Are connected to the pull-up resistor 10 and the input port of the CPU 8. In the case of the signal L, the connection of the fixing unit 1 is detected, and in the case of the signal H, it is not connected. Thus, this example differs from the first example in the specification of the number of connection pins, and the specification of the CPU 8 is the same.
[0007]
FIG. 11 shows a third example of a conventional image forming apparatus. In the fixing unit 1, a resistor 11 for detecting connection is attached in parallel with the thermal fuse 3. And the resistor 11 are connected to the control board 7 in the image forming apparatus main body 5 via the connectors 2 and 6, one connected to GND and the other connected to the pull-up resistor 10 and the analog input port of the CPU 8. The If the pull-up resistor 10 and the resistor 11 have the same resistance value, if the value of the analog input port is near “0 V”, it is detected that the fixing unit 1 is new, and “2.5 V”. In the vicinity, the connection of the fixing unit 1 is detected, and in the vicinity of “5 V”, the connection is not established.
[0008]
New article detection and connection detection are not affected by the values of the resistor 11 and the pull-up resistor 10, but in the connection detection of the fixing unit 1, the voltage divided by the resistance value of the resistor 11 and the pull-up resistor 10 is detected. Voltage. Originally, the number of pins of the connectors 2 and 6 required for detecting the new article of the fixing unit 1 is two, and the number of pins of the connectors 2 and 6 required for detecting the connection is also two, and a total of four pins are used. However, by using a common GND terminal, three pins can be used. In FIG. 11, the number of pins is further reduced. Detection can be performed.
[0009]
[Problems to be solved by the invention]
In the conventional example as described above, detection of a new fixing unit and detection of attachment / detachment of the fixing unit at the same time are performed by disconnection of the thermal fuse. However, many components are required for the construction for detecting a new article and detecting attachment / detachment, and separate ports are provided. For this reason, an extra I / O IC must be mounted on the control board, and the structure as a whole. Is complicated and expensive.
[0010]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to solve the problems of the conventional image forming apparatus as described above, reduce the number of components required for detecting a new fixing unit and detecting the attachment / detachment thereof, and an extra I / O on the control board. Therefore, an inexpensive image forming apparatus with a simple structure can be provided.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides an image forming apparatus including a fixing unit that is detachably disposed on a main body of the image forming apparatus. A fuse and a jumper harness that are disconnected when a predetermined current flows are provided. When the fixing unit is mounted, the image forming apparatus main body connects a first resistor (12) with one end of the fuse and one end of the jumper harness. ), A power source is connected to the connection position where one end of the fuse and the first resistor (12) are connected via the second resistor (10), and a predetermined current is supplied to the fuse. A drive circuit that is connected, and the other end of the fuse and the other end of the jumper harness are connected to each other while being grounded, and provided with a determination means for determining the potential at the connection position The determination unit is configured to detect the disconnection of the fuse based on said potential determination result, and detecting the detachment of the fixing unit.
[0012]
According to a second aspect of the present invention, in the image forming apparatus including the fixing unit detachably disposed on the image forming apparatus main body, the fixing unit is connected via a connector provided to detect attachment / detachment of the fixing unit. The fuser unit is electrically connected to the fuselage unit, and the fixing unit is provided with a fuse that is disconnected when a predetermined current flows, and a jumper harness, and one end of the fuse is connected to the first connector terminal, The other end is connected to the third connector terminal, and the jumper harness has one end connected to the other end of the fuse and the other end connected to the second connector terminal. Is connected to a power source via a second resistor (10), and a branch line branched from a connection line between the first terminal and the second resistor (10) is connected to the second terminal. Connected via a first resistor (12), the third terminal is connected to ground, and a connection line between the first terminal and the second resistor (10) And connecting a drive circuit capable of supplying a predetermined current for disconnecting the fuse, and determining means for determining a potential therebetween, wherein the determining means is configured to disconnect the fuse based on the determination result of the potential. And the attachment / detachment of the fixing unit is detected.
[0013]
According to a third aspect of the present invention, in the first or second aspect, the voltage supplied from the power source is a voltage in a range that can be directly input to the determination unit and that can be determined by the determination unit. To do.
[0014]
According to a fourth aspect of the present invention, in any one of the first to third aspects, the drive circuit includes a transistor and a current limiting resistor .
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Parts common to the above-described conventional example and other embodiments of each embodiment shown in the drawings are denoted by the same reference numerals, description thereof is omitted, and different parts are mainly described.
1 and 2 show a first embodiment included in the invention described in claim 1, and a thermal fuse 3 is attached in the fixing unit 1. Is a control board 7 in the image forming apparatus body 5 via connectors 2 and 6, one being connected to GND and the other being connected to a pull-up resistor 10 and an analog input port of the CPU 8. A jumper harness 4 for detecting connection of the fixing unit 1 is attached to the connector 2.
[0016]
One of the opposing connection destinations of the jumper harness 4 is connected to the GND common to the thermal fuse 3 in the fixing unit 1, and the other is connected in series with the resistor 12 in the image forming apparatus main body 5 via the connectors 2 and 6. They are connected and connected to the signal of the thermal fuse 3 by the control board 7.
[0017]
The operation of this embodiment will be described with reference to FIG. When this embodiment is started, the power is turned on or the cover is closed (ST1-1), and if the resistor 12 and the pull-up resistor 10 have the same resistance value, the input value V to the analog input port of the CPU 8 is set to the set value “ 1.6 ”(ST1-2), if V <1.6, it is determined that the fixing unit 1 is new (ST1-3). If V> 1.6, then input The value V is compared with the set value “3.2” (ST1-4). If V <3.2, it is determined that the fixing unit 1 is connected (ST1-5), and V> 3.2. In this case, it is determined that the fixing unit 1 is not connected.
[0018]
The new detection and connection detection of the fixing unit 1 are not affected by the values of the resistor 12 and the pull-up resistor 10, but the voltage divided by the resistance values of the resistor 12 and the pull-up resistor 10 is detected in the detection of the connection of the fixing unit 1. Is the connection detection voltage.
[0019]
Thus, according to the first aspect of the present invention, the number of components on the side of the fixing unit 1 that is an exchange unit is reduced as compared with the conventional one, thereby reducing the cost and minimizing the use port of the CPU 8 of the control board 7. It is possible to detect new products and detect connections.
[0020]
FIGS. 3 and 4 show a second embodiment included in the invention described in claims 2 and 3. In the fixing unit 1, a nonreciprocal switch (hereinafter referred to as a new article) that is opened when the fixing unit 1 is driven is shown. The new connection detection switch 13 is connected to the control board 7 in the image forming apparatus main body 5 via the connectors 2 and 6, one of which is connected to the GND and the other is connected to the GND. The pull-up resistor 10 is connected to the analog input port of the CPU 8. A jumper harness 4 for detecting the set of the fixing unit 1 is attached to the connector 2.
[0021]
One of the opposing connection destinations of the jumper harness 4 is connected to the GND common to the thermal fuse 3 in the fixing unit 1, and the other is connected in series with the resistor 12 in the image forming apparatus main body 5 via the connectors 2 and 6. Connected to the signal of the new article detection switch 13 and the control board 7.
[0022]
The operation of this embodiment will be described with reference to FIG. When this embodiment is started, the power is turned on or the cover is closed (ST2-1), and until the fixing unit 1 is determined not to be connected (ST2-6), from (ST1-1) in the first embodiment. Since it is the same as that until the fixing unit 1 is determined not to be connected (ST1-6), description of steps (ST2-1) to (ST2-6) is omitted.
[0023]
As described above, after it is determined as new in step (ST2-3), the fixing roller is driven (ST2-7), the new article detection switch 13 is opened (ST2-8), and then the fixing roller is stopped. (ST2-9).
[0024]
As described above, the new article detection switch 13 that is closed when the new fixing unit 1 is used for the first time is opened in a short time by the driving of the fixing roller (not shown). The disconnection time can be shortened compared to disconnection by cutting the thermal fuse 3. Since the new article detection switch 13 is composed of a nonreciprocal switch, it does not close once it is opened.
[0025]
In this way, the invention according to claim 2 shortens the detection time of new article detection, makes the fixing unit 1 side inexpensive, minimizes the use port of the CPU 8 of the control board 7, and detects and connects the new article. Detection can be performed. If the new article detection switch 13 is closed and it is determined that the article is new, the heater is controlled. Thereafter, the fixing roller is driven for a certain period of time. Others are the same as those in the first embodiment.
[0026]
FIGS. 5 and 6 show a third embodiment included in the inventions described in claims 4 and 5, and a fuse 14 is attached in the fixing unit 1 that is disconnected when a predetermined current flows. The fuse 14 is connected to the control board 7 in the image forming apparatus body 5 through the connectors 2 and 6, one connected to GND and the other connected to the pull-up resistor 10 and the analog input port of the CPU 8. Is done. A jumper harness 4 for detecting the set of the fixing unit 1 is attached to the connector 2.
[0027]
One of the opposing connection destinations of the jumper harness 4 is connected to the GND common to the fuse 14 in the fixing unit 1, and the other is connected in series with the resistor 12 in the image forming apparatus main body 5 via the connectors 2 and 6. Then, the signal of the fuse 14 is connected to the control board 7. The control board 7 is provided with a transistor 15 and a current limiting resistor 16 as a drive circuit for supplying a predetermined current to the fuse 14, and is connected to the signal of the fuse 14. The transistor 15 is controlled by the output port of the CPU 8.
[0028]
The operation of this embodiment will be described with reference to FIG. From the start of this embodiment, when the power is turned on or the cover is closed (ST3-1), until the fixing unit 1 is determined not to be connected (ST3-6) (ST1-1) in the first embodiment. ) To (ST1-6) when it is determined that the fixing unit 1 is not connected, description of steps (ST3-1) to (ST3-6) will be omitted.
[0029]
As described above, after being judged as a new article in step (ST3-3), the transistor 15 is driven (ST3-7), a predetermined current flows through the fuse 14, and the fuse 14 is opened (ST3− 8) Thereafter, the transistor 15 is stopped (ST3-9), and the storage of the measured value in the NVRAM (not shown) is erased.
[0030]
In this way, the invention according to the third aspect reduces the cost by making the components on the fixing unit 1 side smaller than the conventional one, and reduces the mounting space of the apparatus on the fixing unit 1 side, thereby reducing the layout. New degree of detection and connection detection can be performed with a high degree of freedom. When it is determined that the fuse 14 is not disconnected and is new (ST3-3), the heater is controlled. Others are the same as those in the first embodiment.
[0031]
Next, FIGS. 7 and 8 show a fourth embodiment included in the invention described in claim 4, and this embodiment includes an NVRAM 17 and a cover sensor 18 in the image forming apparatus main body 5 in the first embodiment. And these are connected to the CPU 8.
[0032]
The operation of such an embodiment will be described with reference to FIG. In this embodiment, after starting and powering on or closing the cover (ST4-1), the disconnection state of the thermal fuse 3 of the fixing unit 1 is detected (ST4-2). The CPU 8 checks whether or not the measured value of the operation time of the fixing unit 1 stored in the NVRAM 17 has exceeded the lifetime. Therefore, the measured value of the operating time is compared with the life stored in the NVRAM 17 (ST4-6). If the measured value ≦ life and the measured value does not exceed the life, the heater is controlled (ST4− 8) Normal operating state. In this case, since the lifetime has been reached, the image quality cannot be guaranteed, but it is in an operable state.
[0033]
On the other hand, if the measured value> life and the measured value exceeds the lifetime, the replacement of the fixing unit 1 is displayed (ST4-7). Thereafter, the heater is controlled (ST4-8), and the normal operation state is obtained. Also in this case, since the lifetime has been reached, the image quality cannot be guaranteed, but it is in an operable state.
[0034]
On the other hand, when the cable is not disconnected and is new, such as when it is replaced with a new fixing unit 1, heater control is performed (ST4-3). Thereafter, disconnection detection is continued (ST4-4). When the temperature of the fixing roller rises and the fuse 3 is disconnected, the measured value stored in the NVRAM 17 is erased (ST4-5). Then, since it is determined that the fixing unit 1 has not reached the end of its life, the heater is controlled.
[0035]
As described above, when there is a replacement display of the fixing unit 1 (ST4-7), the memory of the measured value is not erased even if an operation is performed to replace the new fixing unit 1 once and immediately return it to the original state. The storage of the measured value is not erased until the new fixing unit 1 is used reliably and is determined not to be new.
[0036]
【The invention's effect】
The present invention is as described above. According to the first aspect of the present invention, in the image forming apparatus including the fixing unit detachably disposed on the main body of the image forming apparatus, a predetermined current flows through the fixing unit. a fuse disconnection to be provided and a jumper harness, the image forming apparatus main body, the fixing unit is mounted, one end connected to one end and jumper harness fuses via a first resistor (12), said A power source is connected to the connection position where one end of the fuse and the first resistor (12) are connected via the second resistor (10), and a drive circuit for supplying a predetermined current to the fuse is connected. The other end and the other end of the jumper harness are configured to be grounded and connected, and a determination unit that determines the potential of the connection position is provided. The determination unit is based on the determination result of the potential. The disconnection of the fuse is detected and the attachment / detachment of the fixing unit is detected, so the new article detection time is shortened, the configuration of the fixing unit as a replacement is simple and inexpensive, and the new article detection and the attachment / detachment detection are simple There is an effect that it can be performed reliably.
[0037]
According to a second aspect of the present invention, in the image forming apparatus including the fixing unit detachably disposed on the image forming apparatus main body, the fixing unit is connected via a connector provided to detect attachment / detachment of the fixing unit. The fuser unit is electrically connected to the apparatus main body, and the fuser unit is provided with a fuse that is disconnected when a predetermined current flows, and a jumper harness. One end of the fuse is connected to the first connector terminal. One end of the jumper harness is connected to the other end of the fuse, the other end is connected to the second connector terminal, and the image forming apparatus main body is connected to the first terminal. In addition, a power source is connected via the second resistor (10), and a branch line branched from the connection line between the first terminal and the second resistor (10) is connected to the second terminal. (1 ) Is connected via a third terminal, and configured to connect to ground, further a first terminal and a second resistor (10) between the connecting line, predetermined to break the fuse A drive circuit capable of supplying a current is connected, and determination means for determining a potential therebetween is provided. The determination means detects disconnection of the fuse based on the determination result of the potential, and attaches / detaches the fixing unit. Since the detection is performed, there is an effect that the new article detection time is shortened, the fixing unit which is a replacement equipment is made inexpensive, and the new article detection and the attachment / detachment detection of the fixing unit can be easily and reliably performed.
[0038]
According to the third aspect of the present invention, since the voltage supplied from the power source is a voltage that can be directly input to the determination unit and is in a range that can be determined by the determination unit, another electrical component for protecting the determination unit Is unnecessary, and the number of parts can be reduced .
[0039]
In the invention according to claim 4 , since the drive circuit has a transistor and a current limiting resistor, the new article detection time is shortened, the fixing unit side which is a replacement equipment is made inexpensive, and the new article detection and the attachment / detachment detection are easily and reliably performed. There is an effect that can be performed .
[Brief description of the drawings]
FIG. 1 is a configuration block diagram of a first embodiment of the present invention.
FIG. 2 is a flowchart of the above.
FIG. 3 is a configuration block diagram of a second embodiment of the present invention.
FIG. 4 is a flowchart of the above.
FIG. 5 is a configuration block diagram of a third embodiment of the present invention.
FIG. 6 is a flowchart of the above.
FIG. 7 is a configuration block diagram of a fourth embodiment of the present invention.
FIG. 8 is a flowchart of the above.
FIG. 9 is a configuration block diagram of a first example of a conventional image forming apparatus of the same type as the present invention.
FIG. 10 is a configuration block diagram of the second example.
FIG. 11 is a configuration block diagram of the third example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Fixing unit 2 Connector 3 Thermal fuse 4 Jumper harness 5 Image forming apparatus main body 6 Connector 7 Control board 8 CPU
9 Pull-up resistor 12 resistor
13 New detection switch 14 Fuse
15 Transistor 16 Current limiting resistor
17 NVRAM 18 Cover sensor

Claims (4)

In an image forming apparatus comprising a fixing unit detachably disposed on the image forming apparatus main body,
The fixing unit is provided with a fuse that is disconnected when a predetermined current flows, and a jumper harness.
When the fixing unit is attached to the image forming apparatus main body, one end of the fuse and one end of the jumper harness are connected via a first resistor (12), and one end of the fuse and the first resistor (12 ) Is connected to the connection position through the second resistor (10), and a drive circuit for supplying a predetermined current to the fuse is connected to the other end of the fuse and the jumper harness. The end is configured to be grounded and connected.
An image forming apparatus comprising: a determination unit configured to determine a potential of the connection position, wherein the determination unit detects disconnection of the fuse based on a determination result of the potential, and detects attachment / detachment of the fixing unit. apparatus. In an image forming apparatus comprising a fixing unit detachably disposed on the image forming apparatus main body,
The fixing unit is electrically connected to the apparatus main body via a connector provided for detecting attachment / detachment of the fixing unit,
The fixing unit is provided with a fuse that is disconnected when a predetermined current flows, and a jumper harness. One end of the fuse is connected to the first connector terminal, and the other end is connected to the third connector terminal. The jumper harness has one end connected to the other end of the fuse and the other end connected to the second connector terminal.
The image forming apparatus main body connects a power source to the first terminal via the second resistor (10),
A branch line branched from a connection line between the first terminal and the second resistor (10) is connected to the second terminal via the first resistor (12),
The third terminal is configured to be grounded and connected.
Further, a connecting circuit between the first terminal and the second resistor (10) is connected to a drive circuit capable of supplying a predetermined current for disconnecting the fuse, and a determination means for determining a potential between the two is provided. The image forming apparatus is characterized in that the determination unit detects disconnection of the fuse based on the determination result of the potential and detects attachment / detachment of the fixing unit.   The image forming apparatus according to claim 1, wherein the voltage supplied from the power source is a voltage in a range that can be directly input to the determination unit and can be determined by the determination unit.   The image forming apparatus according to claim 1, wherein the drive circuit includes a transistor and a current limiting resistor.

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