KR200221370Y1 - a high voltage power spplying circuit for a picture formation device - Google Patents

Abstract

The present invention relates to a high-voltage power supply circuit of an image forming apparatus used for a transfer apparatus or a developing apparatus by distributing a grid voltage of a charging apparatus using the highest voltage. The present invention relates to a grid voltage of a charging apparatus supplying charge to a photosensitive drum. A voltage divider for distributing; It is composed of a switching element for switching the voltage divider and does not need to have a separate power supply according to the device using high voltage, so that the power supply circuit is simplified and the number of parts is reduced, thereby reducing the manufacturing cost.

Description

High voltage power spplying circuit for a picture formation device}

The present invention relates to a high voltage power supply circuit of an image forming apparatus, and more particularly, to a high voltage power supply circuit of an image forming apparatus for distributing a grid voltage of a charging apparatus using the highest voltage to be used in a transfer apparatus or a developing apparatus. .

In the electrophotographic development type image forming apparatus, a uniform charge layer is formed on the photosensitive drum by a charging device, and an electrostatic latent image is formed on the photosensitive drum by exposing the photosensitive drum in correspondence with the image image data. The developer of the developing apparatus is attached to this electrostatic latent image, and the developer on the photosensitive drum is transferred to the recording paper by the transfer apparatus. The developer of the recording paper is fixed by the heat and pressure of the fixing unit, thereby completing the image forming process.

1 shows a principle diagram of an image forming apparatus according to a conventional corona discharge charging system.

When a constant current of several kilovolts or more is applied to the discharge wire 11, electric charges are generated by the discharge generated between the discharge wire 11 and the grid 12. The grid 12 is maintained at a constant voltage by the zener diode ZD11, and the charges passing through the grid 12 are exposed in correspondence with the image image data to create an electrostatic latent image. This electrostatic latent image passes through a portion of the developing device 13 to which a constant voltage of several hundred volts is applied to attach a charged developer to form an image on the photosensitive drum. The image formed on the photosensitive drum 14 is transferred to the recording paper while passing through the transfer device 15 to which a negative bias of several hundred volts is applied.

In the above electrophotographic image forming apparatus, the high-voltage power supply includes a positive constant current charging bias for the charging device, a positive constant voltage developing bias for the developing device, and a negative for the transfer device. Devices for generating constant voltage bias and the like are used.

2 is a schematic diagram of a high voltage power supply.

The high voltage power supply is composed of transistors Q11 and Q12, resistors R11 to R16, comparators U11, transformers T11, diodes D11 and D12, and capacitors C11. The control signal CTL1 applied to the transistor Q11 is applied to the base terminal of the switching transistor Q12 through a comparator and a transformer to switch the primary side of the transformer. As a result, a high pressure proportional to the turns ratio of the primary side and the secondary side is induced on the secondary side of the transformer. The induced high voltage is rectified through the rectifying part consisting of the diodes D11 and D12 and the capacitor C11, and then applied to the high voltage power supply driving portion as the high voltage power supply Vs. In this case, the high voltage power is fed back to the comparator U11 through a feedback resistor R16 to obtain a stable high voltage power. The interruption of the power supply is realized by bringing the control signal to logic high.

In the high-voltage power supply method described above, the high-voltage power supply includes a charging bias for forming a charge layer on the photosensitive drum, a developing bias for charging the developer, and a transfer bias for transferring the developer on the photosensitive drum to the recording paper. Such biases have been supplied through separate high voltage power supplies due to their characteristics. As described above, the bias of the charging device, the developing device, the transfer device, and the like is supplied through a separate high voltage power supply device, thereby complicating the circuit and increasing the price of the product. In addition, the power consumption is increased by using a separate high voltage power supply device, there is a problem that the power supply fluctuate according to the characteristics of each device of many devices.

The present invention was created to solve the above problems,

It is an object of the present invention to provide a high voltage power supply circuit of an image forming apparatus capable of supplying a supply device for supplying a voltage separately to a charging device, a developing device and a transfer device as a single power supply device.

1 is a principle diagram of an image forming apparatus according to a conventional corona discharge charging method;

2 is a schematic diagram of a high voltage power supply;

3 is a high voltage power supply circuit of the image forming apparatus according to the present invention.

<Explanation of symbols for the main parts of the drawings>

31: discharge wire 32: grid

33: voltage divider Vz: grid voltage

ZD21: Zener Diode Q21: Switching Element

In order to achieve the above object, the high-voltage power supply circuit according to the present invention includes a voltage divider for distributing a grid voltage of a charging device for supplying charge to a photosensitive drum; And a switching element for switching the voltage divider.

The voltage divider may connect two resistors in series to use voltage divided by each resistor, and connect the switching element to the connection portion of the two resistors to control the switching element to change the voltage divided by the developing apparatus or the like. Used to power the transfer device.

An embodiment of the present invention configured as described above will be described in detail based on the accompanying drawings.

3 shows a high voltage power supply circuit of the image forming apparatus according to the present invention.

The high voltage power supply circuit according to the present invention distributes the voltage applied to the grid 32 of the charging device in the ratio of the first resistor R21 and the second resistor R22 to supply the transfer device or the developing device to the high voltage power distribution unit. 33; A switching element which cuts off the supply of the high voltage power supplied to the transfer device or the developing device by switching the connection contact between the first resistor R21 and the second resistor R22 to the ground potential by a control signal CTL2; Q21) and;

The high voltage power supply Vp generated by the high voltage power supply device is applied to the wire 31 of the charging device, and Vs is the corresponding high voltage power supply among the developing devices or transfer devices having the same polarity as Vp. The wire 31 is discharged from the grid 32 by the voltage Vp applied to the discharge wire 31 of the charging device, and electric charge is generated by this discharge. The charge generated by the discharge passes through the grid 32 maintained in the zener diode ZD21 in a constant voltage state to form a uniform charge layer on the photosensitive drum 24.

On the other hand, only a portion of the electric charge discharged from the discharge wire 31 passes through the grid 32 passes through the grid 32 to the photosensitive drum 24, a plurality of charges through the grid 32 It flows in the direction of the zener diode ZD21. This charge flow causes the high voltage power supply of Vz corresponding to the potential of the zener diode ZD21 to be formed in the zener diode ZD21. The power supply Vs of the required level is made by the resistors R21 and R22 constituting the high voltage power distribution section 33, and is supplied to the power supply necessary for the high voltage operation in the developing apparatus or the transfer apparatus.

The switching operation of the high voltage power supply Vs is performed by the logic level of the control signal CTL2 connected to the base terminal of the transistor Q21. The control signal CTL2 is supplied from the control unit to supply power to the developing apparatus or the transfer apparatus. Here, although a transistor is used as the switching element, other switching elements such as a relay can also be used.

When the control signal CTL2 is at a logic level high, the transistor Q21 is turned on and the voltage between the emitter and the collector is almost close to ground, so the second resistor R22 and the third resistor R23 are close to ground. ) Is connected in parallel and its resistance Since the voltage is negligibly small compared with the second resistor R21, the voltage Vs becomes a negligible low voltage and cannot serve as a high voltage power supply.

When the control signal CTL2 is at a logic level low, the transistor Q21 is turned off so that the voltage Vz of the grid 32 is divided by the resistance ratio by the first resistor R21 and the second resistor R22. Voltage This is supplied at Vs.

Therefore, by adjusting the ratio of the first resistor R21 and the second resistor R22, the voltage to be divided can be selected and supplied in accordance with the voltage of the developing apparatus or the transfer apparatus.

In the above, an embodiment of the present invention has been described using an example of using a grid power supply of a charging device, but various modifications and improvements are possible without departing from the spirit of the present invention. For example, the power supply of the developing apparatus may be divided to be used as a power supply of the transfer apparatus. As such, the present invention is not limited by the above description, and may be limited only by the definition of utility model registration claims.

As described above, according to the present invention, since it is not necessary to have a separate power supply device for each device using high pressure, the power supply circuit is simplified and the number of parts is reduced, thereby reducing the manufacturing cost.

Claims (3)

A voltage divider 33 for distributing a grid voltage of a charging device for supplying charge to the photosensitive drum; The high voltage power supply circuit of the image forming apparatus, characterized in that it comprises a switching element (Q21) for switching the voltage divider (33). 2. The voltage divider 33 of claim 1, wherein the voltage divider 33 connects two resistors R21 and R22 in series so that the grid voltage is divided at each resistor, and the two resistors R21 and R22 are connected to each other. High voltage power supply circuit of the image forming apparatus, characterized in that for connecting the switching element (Q21) to the portion. The high voltage power supply circuit according to claim 1, wherein the switching element is a relay.