JP2013257413A - Image forming apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image forming apparatus capable of preventing electrical shock with a simple configuration.SOLUTION: An image forming apparatus 1 includes: a main body 3; a process cartridge 11 that is removably attached to the main body 3; a cover 13 that is openably/closably provided on the main body 3; a low-voltage power source substrate 5 that is provided in the main body 3; and power supply paths 15 and 35 for supplying power from the low-voltage power source substrate 5 to the process cartridge 11 via the cover 13 in a closed state. When the cover 13 is opened, the power supply paths 15 and 35 are interrupted.

Description

  The present invention relates to an image forming apparatus.

  For example, a high voltage power supply substrate for generating a high voltage exists in an image forming apparatus such as a laser printer. In order to prevent an electric shock when the user opens the cover of the image forming apparatus and replaces the process cartridge, a switch that detects opening of the cover or removal of the process cartridge and the state of the switch A mechanism for stopping the supply of electric power supplied to the process cartridge is required (see Patent Document 1).

JP 2010-256804 A

  However, if the switch or the mechanism for stopping the power supply is provided, the configuration of the image forming apparatus becomes complicated and the manufacturing cost increases. The present invention has been made in view of the above points, and an object thereof is to provide an image forming apparatus that can prevent electric shock with a simple configuration.

The first image forming apparatus of the present invention includes:
A main body, a process cartridge detachably attached to the main body, an openable / closable cover provided on the main body, a low-voltage power supply board provided on the main body, and a high voltage for supplying the process cartridge A high-voltage power supply board, and a power supply path for supplying power from the low-voltage power supply board to the high-voltage power supply board via the cover in the closed state. It is cut off.

  According to the first image forming apparatus of the present invention, when the cover is opened, the power supply path from the low-voltage power supply board to the high-voltage power supply board is interrupted. Even if the user touches a part of the power supply path, there is no electric shock. Further, a switch for detecting the opening of the cover and a mechanism for stopping the supply of electric power according to the state of the switch are not essential, so that cost and space can be saved.

  The first image forming apparatus of the present invention includes, for example, the high-voltage power supply board in the main body, and the cover and the high-voltage power supply board between the low-voltage power supply board and the cover by opening the cover. The power feeding path can be cut off during the interval.

  In this case, when the cover is opened, the power supply path is cut off between the low-voltage power supply board and the cover and between the cover and the high-voltage power supply board. Even if you touch a part of the high-voltage power supply route, you will not get an electric shock. Further, a switch for detecting the opening of the cover and a mechanism for stopping the supply of electric power according to the state of the switch are not essential, so that cost and space can be saved.

  In the first image forming apparatus of the present invention, for example, the high-voltage power supply board is provided in the cover, and the power supply path is interrupted between the low-voltage power supply board and the cover by opening the cover. be able to.

  In this case, when the cover is opened, the power supply path is interrupted between the low-voltage power supply board and the cover. In this state, the user touches a part of the high-voltage power supply path from the high-voltage power supply board to the process cartridge. But I don't get an electric shock. Further, a switch for detecting the opening of the cover and a mechanism for stopping the supply of electric power according to the state of the switch are not essential, so that cost and space can be saved.

  In the first image forming apparatus of the present invention, for example, when the cover is opened, the power feeding path is interrupted between the low-voltage power supply board and the high-voltage power supply board, and the high-voltage power supply board and the process cartridge are The power supply path between them can also be cut off. In this case, when the cover is opened, the power supply path and the power supply path from the low-voltage power supply board to the process cartridge can be blocked more reliably.

  The first image forming apparatus of the present invention includes, for example, a control board that controls the image forming apparatus and a signal transmission line that connects the control board and the high-voltage power supply board via the cover in a closed state. The signal transmission line may be blocked by opening the cover.

  In this case, when the cover is opened, the signal transmission line is also cut off, so that no signal is detected. Therefore, when the signal is not detected, it is possible to recognize the opening of the cover and notify the user of that fact.

  In the first image forming apparatus of the present invention, for example, the process cartridge can be detachable in a state where the cover is opened. In this case, it is possible to prevent an electric shock when the cover is opened to attach or detach the process cartridge.

The second image forming apparatus of the present invention is
A main body, a process cartridge detachably attached to the main body, a low-voltage power supply board and a high-voltage power supply board provided on the main body, and power from the low-voltage power supply board to the high-voltage power supply board via the process cartridge , A control board for controlling the image forming apparatus, and a signal transmission line for connecting the control board and the high-voltage power supply board via the process cartridge.

According to the second image forming apparatus of the present invention, when the process cartridge is removed, the power feeding path is interrupted, so that even if the user touches the high-voltage power supply board in that state, no electric shock is caused.
According to the second image forming apparatus of the present invention, when the process cartridge is removed, the signal transmission line is also cut off, so that no signal is detected. For this reason, it is possible to recognize that the process cartridge has been removed due to the non-detection of the signal, and notify the user accordingly.

The third image forming apparatus of the present invention is
A main body, a process cartridge detachably attached to the main body, a low-voltage power supply board and a high-voltage power supply board provided on the main body, and power from the low-voltage power supply board to the high-voltage power supply board via the process cartridge The process cartridge includes a roller, and the power supply path passes through a rotation shaft of the roller.

  According to the third image forming apparatus of the present invention, when the process cartridge is removed, the power feeding path is interrupted, so even if the user touches the high-voltage power supply board in that state, no electric shock is caused. Further, according to the third image forming apparatus of the present invention, it is not necessary to separately provide a member constituting the power supply path in the process cartridge.

2 is a side sectional view showing an internal configuration of the laser printer 1 in a state in which a top cover 13 is closed. FIG. 3 is a side sectional view showing an internal configuration of the laser printer 1 in a state where a top cover 13 is opened. FIG. 2 is a side sectional view showing an internal configuration of the laser printer 1 in a state in which a top cover 13 is closed. FIG. 3 is a side sectional view showing an internal configuration of the laser printer 1 in a state where a top cover 13 is opened. FIG. 2 is a side sectional view showing an internal configuration of the laser printer 1 in a state where a process cartridge 11 is mounted. FIG. 2 is a side sectional view showing an internal configuration of the laser printer 1 with a process cartridge 11 removed. FIG. FIG. 3 is an explanatory diagram showing a configuration of a process cartridge 11 and its periphery.

Embodiments of the present invention will be described with reference to the drawings.
<First Embodiment>
1. Configuration of Laser Printer 1 The configuration of a laser printer 1 as an example of an image forming apparatus will be described with reference to FIGS. As shown in FIGS. 1 and 2, the laser printer 1 includes a main body frame 3 as an example of a main body, a low-voltage power board (hereinafter referred to as a low-voltage board) 5, a control board 7, a high-voltage power board (hereinafter referred to as a high-voltage board). 9), a process cartridge 11, and a top cover 13 as an example of a cover.

  The main body frame 3 accommodates therein a low voltage substrate 5, a control substrate 7, a high voltage substrate 9, and a process cartridge 11. The top cover 13 is attached to the main body frame 3 so as to be openable and closable. The top cover 13 is opened and closed by rotating around a hinge provided at one end thereof.

  The low-voltage board 5 is a circuit board that supplies low-voltage power to the control board 7. The low-voltage board 5 is supplied with power from a commercial power supply (not shown), for example, a 100 V power supply outlet. Power is supplied to the control board 7 and the like after being divided and transformed into 5 V for interface and 24 V for driving the transformer of the high-voltage board 9. The control board 7 is a circuit board that includes a CPU, a ROM, a RAM, and the like (not shown), receives power from the low-voltage board 20 through the power supply path 10 between the low-voltage board and the control board, and controls each part of the laser printer 1. When the top cover 13 is in a closed state, the low-voltage power is supplied to the high-voltage board 9 through the low-voltage power supply path 15 via the top cover 13 using the power supplied from the low-voltage board 5. Further, the control board 7 supplies a PWM signal for controlling the output power of the high-voltage board 9 to the high-voltage board 9 and also outputs an FB signal as a feedback signal of the output power from the secondary side of the transformer of the high-voltage board 9. Input and variably control the PWM duty ratio.

  The high-voltage board 9 receives power supply voltages of 3.3 V and 24 V from the low-voltage board 5 via the control board 7, boosts the supplied voltage based on the PWM signal supplied from the control board 7, and provides a high-voltage power supply path A circuit board that outputs to the process cartridge 11 through 35 and feeds back a part of the output to the control board 7 as an FB signal.

  The low voltage power supply path 15 is connected to the control board 7, connected to the first section 15 a provided in the main body frame 3, the second section 15 b provided in the top cover 13, and the high voltage board 9. It consists of a third section 15 c provided in the frame 3. The first section 15 a includes a terminal 19 on the surface of the main body frame 3 that faces the top cover 13. Further, the second section 15 b includes terminals 21 and 23 on the surface of the top cover 13 that faces the main body frame 3. Further, the third section 15 c includes a terminal 25 on the surface of the main body frame 3 that faces the top cover 13.

  As shown in FIG. 1, when the top cover 13 is closed, the terminal 19 in the first section 15a and the terminal 21 in the second section 15b are in contact with each other, the terminal 23 in the second section 15b, and the third section The low voltage power supply path 15 is connected from the control board 7 to the high voltage board 9 via the top cover 13 by contacting with the terminal 25 in the section 15c. At this time, low voltage power is supplied from the control board 7 to the high voltage board 9 through the low voltage power supply path 15.

  On the other hand, as shown in FIG. 2, when the top cover 13 is opened, the terminal 19 in the first section 15a and the terminal 21 in the second section 15b are separated from each other, and the terminal in the second section 15b. 23 and the terminal 25 of the third section 15c are separated from each other, whereby the low voltage power supply path 15 is interrupted.

  Further, when the top cover 13 is in a closed state, the control board 7 transmits a PWM signal to the high voltage board 9 through the signal transmission line 17 passing through the top cover 13 or inputs an FB signal from the high voltage board 9. To do. The signal transmission line 17 is connected to the control board 7, connected to the first section 17 a provided in the main body frame 3, the second section 17 b provided in the top cover 13, and the high voltage board 9, and is connected to the main body frame. 3, and a third section 17 c provided in 3. The first section 17 a includes a terminal 27 on the surface of the main body frame 3 that faces the top cover 13. Further, the second section 17 b includes terminals 29 and 31 on the surface of the top cover 13 that faces the main body frame 3. The third section 17 c includes a terminal 33 on the surface of the main body frame 3 that faces the top cover 13.

  As shown in FIG. 1, when the top cover 13 is closed, the terminal 27 of the first section 17a and the terminal 29 of the second section 17b are in contact with each other, the terminal 31 of the second section 17b, and the third section The signal transmission line 17 is connected from the control board 7 to the high voltage board 9 via the top cover 13 by the contact with the terminal 33 in the section 17c. At this time, the PWM signal is transmitted from the control board 7 to the high voltage board 9 through the signal transmission line 17, and the FB signal is input from the high voltage board 9 to the control board 7.

  On the other hand, as shown in FIG. 2, when the top cover 13 is opened, the terminal 27 of the first section 17a and the terminal 29 of the second section 17b are separated from each other, and the terminal of the second section 17b. 31 and the terminal 33 of the third section 17c are separated from each other, whereby the signal transmission line 17 is blocked.

  The high-voltage board 9 generates high-voltage power from the low-voltage power supplied from the control board 7 and supplies the high-voltage power to the process cartridge 11 through the high-voltage power supply path 35. The power supply path 10 and the low-voltage power supply path 15 between the low-voltage board and the control board are examples of the power supply path.

  The process cartridge 11 has a known configuration such as a drum cartridge, a developing cartridge, and the like, and operates with electric power supplied from the high-voltage board 9. The process cartridge 11 can be attached to and detached from the main body frame 3, and the process cartridge 11 can be attached and detached with the top cover 13 opened.

Although the laser printer 1 has a known configuration for forming an image in addition to the configuration described above, the description thereof is omitted because it is not directly related to the present invention.
2. Effects produced by the laser printer 1 (1) In the laser printer 1, when the top cover 13 is opened, the first section 15a and the second section 15b, and the second section 15b and the third section 15c are displayed. Since the low-voltage power supply path 15 is interrupted between the two, the user does not get an electric shock even if the user touches a part of the low-voltage power supply path 15, the high-voltage board 9, or the high-voltage power supply path 35. In addition, since a switch for detecting the opening of the top cover 13 and a mechanism for stopping the supply of electric power according to the state of the switch are not essential, cost and space can be saved.
(2) In the laser printer 1, when the top cover 13 is opened, the signal transmission line 17 is also cut off, so that the FB signal is not detected. Therefore, it is possible to know that the top cover 13 has been opened by detecting no signal.
<Second Embodiment>
1. Configuration of Laser Printer 1 The configuration of a laser printer 1 as an example of an image forming apparatus will be described with reference to FIGS. As shown in FIGS. 3 and 4, the laser printer 1 includes a main body frame 3 as an example of a main body, a low-voltage board 5, a control board 7, a high-voltage board 9, a process cartridge 11, and a top cover 13 as an example of a cover. Is provided.

  The main body frame 3 accommodates the low-voltage board 5, the control board 7, and the process cartridge 11 therein. The top cover 13 is attached to the main body frame 3 so as to be openable and closable. The top cover 13 is opened and closed by rotating around a hinge provided at one end thereof. The high-voltage board 9 is attached to the top cover 13.

  The low-voltage board 5 supplies low-voltage power to the control board 7 through the power supply path 10 between the low-voltage board and the control board. The control board 7 controls each part of the laser printer 1 and uses the power supplied from the low voltage board 5 when the top cover 13 is in the closed state, and passes through the low voltage power supply path 15 via the top cover 13. Then, low voltage power is supplied to the high voltage substrate 9.

  The low-voltage power supply path 15 is connected to the control board 7 and includes a first section 15 a provided in the main body frame 3 and a second section 15 b provided in the top cover 13 and connected to the high-voltage board 9. The first section 15 a includes a terminal 37 on the surface of the main body frame 3 that faces the top cover 13. The second section 15 b includes a terminal 39 on the surface of the top cover 13 that faces the main body frame 3.

  As shown in FIG. 2, when the top cover 13 is closed, the terminal 37 of the first section 15 a and the terminal 39 of the second section 15 b come into contact with each other, so that the low voltage power supply path 15 is connected to the control board 7. The high voltage substrate 9 is connected via the top cover 13. At this time, low voltage power is supplied from the control board 7 to the high voltage board 9 through the low voltage power supply path 15.

  On the other hand, as shown in FIG. 4, when the top cover 13 is opened, the terminal 37 of the first section 15a and the terminal 39 of the second section 15b are separated from each other. Blocked.

  Further, when the top cover 13 is in a closed state, the control board 7 transmits a PWM signal to the high voltage board 9 through the signal transmission line 17 passing through the top cover 13 or inputs an FB signal from the high voltage board 9. To do. The signal transmission line 17 is connected to the control board 7 and includes a first section 17 a provided in the main body frame 3 and a second section 17 b provided in the top cover 13. The first section 17 a includes a terminal 41 on the surface of the main body frame 3 that faces the top cover 13. Further, the second section 17 b includes a terminal 43 on the surface of the top cover 13 that faces the main body frame 3.

  As shown in FIG. 1, when the top cover 13 is closed, the terminal 41 of the first section 17 a and the terminal 43 of the second section 17 b come into contact with each other, so that the signal transmission line 17 is The high voltage substrate 9 is connected via the top cover 13. At this time, the PWM signal is transmitted from the control board 7 to the high voltage board 9 through the signal transmission line 17, and the FB signal is input from the high voltage board 9 to the control board 7.

  On the other hand, as shown in FIG. 4, when the top cover 13 is opened, the terminal 41 of the first section 17a and the terminal 43 of the second section 17b are separated, so that the signal transmission line 17 is blocked. Is done.

  The high-voltage board 9 generates high-voltage power from the low-voltage power supplied from the control board 7 and supplies the high-voltage power to the process cartridge 11 through the high-voltage power supply path 35. The power supply path 10 and the low-voltage power supply path 15 between the low-voltage board and the control board are examples of the power supply path. The high voltage power supply path 35 is an example of a power supply path.

  The high voltage power supply path 35 is connected to the high-voltage board 9 and includes a first section 35 a provided in the top cover 13 and a second section 35 b provided in the main body frame 3 and connected to the process cartridge 11. The first section 35 a includes a terminal 45 on the surface of the top cover 13 that faces the main body frame 3. Further, the second section 35 b includes a terminal 47 on the surface of the main body frame 3 that faces the top cover 13.

  As shown in FIG. 4, when the top cover 13 is closed, the terminal 45 of the first section 35 a and the terminal 47 of the second section 35 b come into contact with each other, so that the high-voltage power supply path 35 is separated from the high-voltage board 9. To the process cartridge 11. At this time, high voltage power is supplied from the high voltage substrate 9 to the process cartridge 11 through the high voltage power supply path 35.

  On the other hand, as shown in FIG. 4, when the top cover 13 is opened, the terminal 45 of the first section 35a and the terminal 47 of the second section 35b are separated from each other. Blocked.

  The process cartridge 11 has a known configuration such as a drum cartridge, a developing cartridge, and the like, and operates with electric power supplied from the high-voltage board 9. The process cartridge 11 can be attached to and detached from the main body frame 3, and the process cartridge 11 can be attached and detached with the top cover 13 opened.

Although the laser printer 1 has a known configuration for forming an image in addition to the configuration described above, the description thereof is omitted because it is not directly related to the present invention.
2. Effects produced by the laser printer 1 (1) In the laser printer 1, when the top cover 13 is opened, the low voltage power supply path 15 is cut off between the first section 15a and the second section 15b. Since the high voltage power supply path 35 is cut off between the first section 35a and the second section 35b, the user touches the low voltage power supply path 15, the high voltage board 9, and the high voltage power supply path 35 in this state. No electric shock. In addition, since a switch for detecting the opening of the top cover 13 and a mechanism for stopping the supply of electric power according to the state of the switch are not essential, cost and space can be saved.
(2) In the laser printer 1, when the top cover 13 is opened, the signal transmission line 17 is also cut off, so that the FB signal is not detected. Therefore, it is possible to know that the top cover 13 has been opened by detecting no signal.
<Third Embodiment>
1. Configuration of Laser Printer 1 A configuration of a laser printer 1 as an example of an image forming apparatus will be described with reference to FIGS. 5, 6, and 7. As shown in FIGS. 5 and 6, the laser printer 1 includes a main body frame 3, a low pressure substrate 5, a control substrate 7, a high pressure substrate 9, and a process cartridge 11 as an example of a main body.

The main body frame 3 accommodates the low-voltage board 5, the control board 7, and the process cartridge 11 therein.
The low-voltage board 5 supplies low-voltage power to the control board 7. The low-voltage board 5 supplies low-voltage power to the high-voltage board 9 through a low-voltage power supply path 49 as an example of a power supply path via the process cartridge 11 when the process cartridge 11 is mounted on the main body frame 3. Supply.

  The control board 7 controls each part of the laser printer 1 and transmits a PWM signal to the high voltage board 9 through the signal transmission line 50 passing through the process cartridge 11 when the process cartridge 11 is mounted on the main body frame 3. Or an FB signal is input from the high-voltage board 9.

  The process cartridge 11 has a known configuration such as a photosensitive drum 51 as an example of a roller. The photosensitive drum 51 is rotatably attached to the process cartridge 11 by a hollow cylindrical rotating shaft 53. The process cartridge 11 is detachable from the main body frame 3, and is attached between the pair of guide plates 55 and 57 formed on the main body frame 3 when being attached to the main body frame 3.

  The low-voltage power supply path 49 described above passes through the first section 49a from the low-voltage board 5 to the inner side surface (the surface facing the process cartridge 11) of the guide plate 55 and the inside of the rotary shaft 53, and in the longitudinal direction thereof. The second section 49b extends from one end to the other end, and the third section 49c extends from the inner surface of the guide plate 57 (the surface facing the process cartridge 11) to the high-voltage substrate 9.

  The first section 49 a includes a terminal 59 on the inner surface of the guide plate 55. The second section 49b includes a terminal 61 on the guide plate 55 side and a terminal 63 on the guide plate 57 side. Further, the third section 49 c includes a terminal 65 on the inner surface of the guide plate 57.

  As shown in FIGS. 5 and 7, when the process cartridge 11 is mounted on the main body frame 3, the terminal 59 of the first section 49a and the terminal 61 of the second section 49b come into contact with each other, and the second section When the terminal 63 of 49 b and the terminal 65 of the third section 49 c come into contact with each other, the low voltage power supply path 49 is connected from the low voltage substrate 5 to the high voltage substrate 9 via the rotating shaft 53 of the process cartridge 11. . At this time, low voltage power is supplied from the low voltage substrate 5 to the high voltage substrate 9 through the low voltage power supply path 49.

  On the other hand, as shown in FIG. 6, when the process cartridge 11 is detached from the main body frame 3, the terminal 59 in the first section 49 a and the terminal 61 in the second section 49 b are separated from each other, and the second The terminal 63 in the section 49b and the terminal 65 in the third section 49c are separated from each other, so that the low voltage power supply path 49 is cut off.

  The signal transmission line 50 described above includes a first section 50a extending from the control board 7 to the inner surface of the guide plate 55, and a second section passing through the inside of the rotary shaft 53 and extending from one end to the other end in the longitudinal direction. 50 b and a third section 50 c extending from the inner surface of the guide plate 57 to the high-voltage board 9.

  The first section 50 a includes a terminal 67 on the inner surface of the guide plate 55. The second section 50b includes a terminal 69 on the guide plate 55 side and a terminal 71 on the guide plate 57 side. The third section 50 c includes a terminal 73 on the inner surface of the guide plate 57.

  As shown in FIGS. 5 and 7, when the process cartridge 11 is mounted on the main body frame 3, the terminal 67 of the first section 50a and the terminal 69 of the second section 50b come into contact with each other, and When the terminal 71 in the section 50 b and the terminal 73 in the third section 50 c come into contact with each other, the signal transmission line 50 is connected from the control board 7 to the high-voltage board 9 via the rotation shaft 53 of the process cartridge 11. . At this time, the PWM signal is transmitted from the control board 7 to the high voltage board 9 through the signal transmission line 50, and the FB signal is input from the high voltage board 9 to the control board 7.

  On the other hand, as shown in FIG. 6, when the process cartridge 11 is detached from the main body frame 3, the terminal 67 of the first section 50a and the terminal 69 of the second section 50b are separated from each other, and the second The signal transmission line 50 is interrupted by the separation of the terminal 71 in the section 50b and the terminal 73 in the third section 50c.

The high-voltage board 9 generates high-voltage power from the low-voltage power supplied from the low-voltage board 5 and supplies the high-voltage power to the process cartridge 11 and the like.
Although the laser printer 1 has a known configuration for forming an image in addition to the configuration described above, the description thereof is omitted because it is not directly related to the present invention.

2. Effects produced by the laser printer 1 (1) In the laser printer 1, when the process cartridge 11 is removed, the low-voltage power supply path 49 is cut off, so that even if the user touches the high-voltage board 9 in that state, no electric shock is caused.
(2) In the laser printer 1, when the process cartridge 11 is removed, the signal transmission line 50 is also cut off, so that the FB signal is not detected. For this reason, it is possible to know that the process cartridge 11 has been removed by detecting no signal.
(3) In the laser printer 1, the low voltage power supply path 49 passes through the rotation shaft 53 of the process cartridge 11. Therefore, it is not necessary to separately provide a member constituting the low voltage power supply path 49 in the process cartridge 11.
(4) Since a switch for detecting the removal of the process cartridge 11 and a mechanism for stopping the supply of electric power according to the state of the switch are not essential, cost and space can be saved.

In addition, this invention is not limited to the said embodiment at all, and it cannot be overemphasized that it can implement with a various aspect in the range which does not deviate from this invention.
For example, in the first and second embodiments, the high voltage substrate 9 is configured to receive the supply of the power supply voltage via the control substrate 7, but the low voltage substrate 5 does not pass through the control substrate 7. You may make it receive supply of low voltage electric power directly from.

  In addition to the top cover 13, the process cartridge 11 is attached and detached by opening a front cover provided on the front surface of the apparatus main body, a rear cover provided on the back surface, or a side cover provided on the side surface. An image forming apparatus may be used.

DESCRIPTION OF SYMBOLS 1 ... Laser printer, 3 ... Main body frame, 5 ... Low voltage power supply board (low voltage board),
7 ... control board, 9 ... high voltage power supply board (high voltage board),
10: Power supply path between the low-voltage board and the control board,
11 ... Process cartridge,
13 ... Top cover, 15 ... Low voltage power supply path,
15a, 15b, 15c ... section, 17 ... signal transmission line,
17a, 17b, 17c ... section,
19, 21, 23, 25, 27, 29, 31, 33 ... terminals,
35 ... high voltage power supply path, 35a, 35b ... section,
37, 39, 41, 43, 45, 47 ... terminals,
49 ... low voltage power supply path, 49a, 49b, 49c ... section,
50 ... signal transmission line, 50a, 50b, 50c ... section,
51 ... photosensitive drum, 53 ... rotating shaft, 55, 57 ... guide plate,
59, 61, 63, 65, 67, 69, 71, 73 ... terminals

Claims (8)

The body,
A process cartridge detachably attached to the main body;
An openable / closable cover provided on the main body;
A low-voltage power supply board provided in the main body,
A high voltage power supply substrate for supplying a high voltage to the process cartridge;
A power supply path for supplying power to the high-voltage power supply board from the low-voltage power supply board via the cover in a closed state,
With
The image forming apparatus, wherein the power supply path is blocked by opening the cover. The main body is provided with the high-voltage power supply board,
The image forming apparatus according to claim 1, wherein the power supply path is interrupted between the low-voltage power supply substrate and the cover and between the cover and the high-voltage power supply substrate by opening the cover. . The cover is provided with the high-voltage power supply board,
The image forming apparatus according to claim 1, wherein the power supply path is interrupted between the low-voltage power supply substrate and the cover by opening the cover.   Opening the cover cuts off the power supply path between the low-voltage power supply board and the high-voltage power supply board, and also cuts off the power supply path between the high-voltage power supply board and the process cartridge. The image forming apparatus according to claim 3. A control board for controlling the image forming apparatus;
A signal transmission line for connecting the control board and the high-voltage power supply board via the cover in a closed state;
The image forming apparatus according to claim 2, wherein the signal transmission line is blocked by opening the cover.   The image forming apparatus according to claim 1, wherein the process cartridge is detachable in a state where the cover is opened. The body,
A process cartridge detachably attached to the main body;
A low-voltage power supply board and a high-voltage power supply board provided in the main body,
A power supply path for supplying power from the low-voltage power supply board to the high-voltage power supply board via the process cartridge;
A control board for controlling the image forming apparatus;
A signal transmission line connecting the control board and the high-voltage power supply board via the process cartridge;
An image forming apparatus comprising: The body,
A process cartridge detachably attached to the main body;
A low-voltage power supply board and a high-voltage power supply board provided in the main body,
A power supply path for supplying power from the low-voltage power supply board to the high-voltage power supply board via the process cartridge;
With
The process cartridge includes a roller,
The image forming apparatus, wherein the power supply path passes through a rotation shaft of the roller.

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