KR0174613B1 - Image forming device - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

An image forming apparatus.

2. The technical problem to be solved by the invention

The present invention provides a sensing signal processing circuit for implementing an image forming apparatus having a simpler, more economical, and simpler configuration of signals detected in the image forming apparatus.

3. Summary of Solution to Invention

The sensing signal processing circuit of the image forming apparatus according to the present invention comprises: a first sensor for detecting whether a developer is mounted in the image forming apparatus, a second sensor for detecting a retention level of a developer stored in the developer; When the developer is mounted on the image forming apparatus, the presence of the developer and the life of the developer are judged according to the capacitors charged to the retention level of the developer sensed by the second sensor, and the retention level of the developer charged to the capacitor. The controller is configured to automatically adjust the concentration of the developer.

4. Important uses of the invention

Image forming apparatus with simplified configuration

Description

Detection signal processing circuit of the image forming apparatus

1 is a block diagram of a typical facsimile system.

2 is a block diagram of a Packali system according to the present invention.

* Explanation of symbols for main parts of the drawings

100: control unit 102: operation panel (OPE)

104: scanner 106: memory section

108: printing unit 110: modem

112: line interface unit 116: detection signal processing unit

The present invention relates to an image forming apparatus, and more particularly, to a circuit for processing a signal sensed in relation to a developer in an image forming apparatus.

In general, an image forming apparatus includes a developer, and converts the input video data into image data and then prints the converted image data using toner stored in the developer. Such an image forming apparatus includes a facsimile, a laser beam printer (LBP), a copy machine, and the like.

FIG. 1 is a diagram illustrating a configuration of a facsimile, which is one of representative image forming apparatuses. Referring to the configuration of FIG. 1, the control unit 100 performs the overall operation of the transmission mode, the reception mode, and the copy mode of the facsimile according to the set program. To control. In addition, the controller 100 determines a signal detected from each sensor installed in the facsimile and controls each operation state to be displayed to the user.

The operating panel 102 is composed of a key input unit and a display unit. The key input unit of the OPE 102 generates data of a key pressed by the user to designate each mode and perform an operation of the designated mode, and outputs the data to the controller 100. In addition, the display unit of the OPE 102 performs a function of inputting and displaying display data indicating an operation state of the system when the controller 100 performs each mode.

The scanner 104 moves the input original and scans and outputs image data on the original. The memory unit 106 stores programs for performing various operations, in particular, display data for displaying respective operation states after the control unit 100 determines a signal detected from each sensor in the fax. The printing unit 108 copies image data to a recording sheet when the reception mode and the copy mode are performed under the control of the control unit 100.

The modem 110 modulates and transmits the image data scanned by the scanner 104 in the transmission mode under the control of the control unit 100 into an image signal Tx in the transmission form, and transmits the image signal Rx input in the reception mode. Demodulate The line interface unit 112 forms a transmission / reception path between the transmission line and the modem 110 under the control of the controller 100.

The detection signal input unit 114 receives a developer-mounted detection signal S1, a developer life detection signal S2, and a developer concentration detection signal S3 detected from each sensor (not shown) in the facsimile. Output to 100). At this time, the developer mounting detection signal S1 is a signal applied from a mechanical sensor that detects whether the developer is actually mounted inside the facsimile, and the developer life detection signal S2 holds a developer (toner) stored in the developer. A signal applied from a piezoelectric sensor or a photo sensor that senses a level, and a developer concentration detection signal S3 is a signal applied from a sensor that converts a characteristic represented by a component of the toner into a voltage.

The conventional facsimile having the above-described configuration includes respective sensors for generating a developer mounting detection signal S1, a developer life detection signal S2, and a developer concentration detection signal S3 associated with a developer therein. It was done.

However, if the number of sensors included in the image forming apparatus can be reduced, each of the detected signals can be processed more simply, and an image forming apparatus having a more economical and simplified configuration can be realized.

Accordingly, an object of the present invention is to provide a detection signal processing circuit for simply processing signals detected in an image forming apparatus.

Another object of the present invention is to provide a detection signal processing circuit for the implementation of an image forming apparatus having a more economical and simplified configuration.

In accordance with the above objects, the present invention is directed to a detection signal processing circuit comprising only two types of sensors: a sensor for detecting whether a developer is actually mounted, and a sensor for detecting a retention level of toner stored in the developer. will be.

In addition, the detection signal processing circuit of the image forming apparatus according to the present invention, the first sensor for detecting whether the developer is mounted on the image forming apparatus, the second sensor for detecting the retention level of the developer stored in the developer and When the developer is mounted in the image forming apparatus, the presence of the developer and the life of the developer are judged according to the capacitors charged at the retention level of the developer sensed by the second sensor and the retention level of the developer charged to the capacitor. It is characterized by comprising a control unit for automatically adjusting the concentration of the developer.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

2 is a diagram showing the configuration of a facsimile system according to the present invention, and the same reference numerals are used for the same components as those shown in FIG. In addition, it should be noted that the following description is limited to the operation of processing the detection signal related to the developing device for clarity of the present invention.

The detection signal processing unit 116, which is a characteristic element of the present invention, includes a first sensor 116A and a second sensor 116B, and detects the developer mounting from the first sensor 116A for detecting whether the developer is actually mounted. The developer life detection signal S2 from the second sensor 116B, which detects the signal S1 and the retention level of the toner stored in the developer, is applied to the controller 100. The operation at this time is largely divided into the case where the developer is actually mounted and the case where it is not mounted.

First, when the developer is not mounted, the first sensor 116A outputs a low level developer mounting detection signal S1. Then, the voltage charged in the capacitor C is discharged toward the first sensor 116A through the diode D.

Next, when the developer is mounted, the first sensor 116A outputs a high level developer mounting detection signal S1. Then, the developer life detection signal S2 from the second sensor 116B output through the resistor R is charged in the capacitor C. The voltage charged in the capacitor C is a level corresponding to the retention level of the toner stored in the developer, and its level is determined by the characteristics of the second sensor 116B. The second sensor 116B has a characteristic of outputting a signal having a level that increases as the retention level of the toner stored in the developer decreases. Accordingly, when a large amount of toner is stored in the developer, a small amount of toner is stored in the developer assuming that the voltage appearing at the node 120, that is, the charging voltage of the capacitor C has a level within a specific range. The charging voltage of the capacitor C has a level relatively above a certain range.

The controller 100 determines whether the developer is mounted and the retention level of the toner from the voltage displayed at the node 120 in response to each of the above cases. That is, the controller 100 determines that the developer is not mounted when the voltage appearing at the node 120 has a level below a specific range, and the toner in the developer when the voltage appearing at the node 120 has a level within a specific range. Is appropriately stored, and if the voltage appearing at the node 120 has a level above a certain range, it is determined that the toner is insufficient in the developer. At this time, the control unit 100 transmits display data on the matters thus determined to the OPE 102 to be displayed on the display unit of the OPE 102. The user can then check whether the developer is mounted on the fax and the retention level of the developer from the message displayed on the display unit.

In addition, when the voltage appearing at the node 120 has a level within a specific range, the controller 100 automatically adjusts the density of image data copied by the printing unit 108 according to what level within that range.

As described above, even if only two types of sensors, one for detecting whether the developer is actually mounted and one for detecting the retention level of the toner, the presence or absence of the development of the developer and the life of the developer can be judged. The developer concentration can be adjusted automatically. Although only the case of a facsimile has been described above, it should be noted that the present invention is applied to other image forming apparatuses including a developing device such as a laser beam printer or a copier.

Accordingly, there is an advantage that the signals detected in the image forming apparatus can be processed more simply. In addition, by reducing the number of sensors there is an advantage that can implement a more economical image forming apparatus.

Claims (5)

An image forming apparatus, comprising: first sensing means for sensing whether a developer is mounted in the image forming apparatus, second sensing means for sensing a retention level of a developer stored in the developer, and the developer Charging means charged to the retention level of the developer sensed by the second sensing means when mounted to the image forming apparatus, and whether or not the developer is mounted according to the retention level of the developer charged to the charging means; And sensing means for determining the service life and automatically adjusting the concentration of the developer. The sensing signal processing circuit according to claim 1, further comprising switching means having a predetermined conduction level and connected in series between the charging means and the first sensing means. The sensing signal processing circuit according to claim 2, wherein the switching means is a diode connected in series in the forward direction between the charging means and the first sensing means. The sensing signal processing circuit according to claim 1, wherein the second sensing means outputs a signal having a voltage level that increases as the retention level of the developer decreases. The method of claim 1, wherein the determining means automatically adjusts the concentration of the developer when the level of retention of the developer charged in the charging means is within a predetermined range, and when the level is below the range, Detecting that it is not mounted, and the detection signal processing circuit characterized in that it determines the life of the developer when the level is above the range.