JPH0522585B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an image recording apparatus that records image information by electrophotography using an exposure means such as an optical fiber tube.

[Conventional technology]

Generally, a so-called cathode ray tube (CRT) has an optical fiber arranged over the entire surface of the light emitting surface.
For image recording devices that use an exposure means called OFT, information such as characters and symbols to be recorded is converted into image signals, or image signals input in advance from an external device as electrical signals are sent to the electrodes of a cathode ray tube. Enter.

Then, the electron beam generated from the electrode is scanned by a deflection signal supplied to the deflection coil,
A light emitting layer (fluorescent material) formed on the electron beam scanning surface (panel surface) is stimulated to form a light image on the electron beam scanning surface in accordance with the image signal.

The optical image formed on the panel surface is projected onto a photosensitive recording medium such as a photosensitive drum having various photosensitive layers such as an Se-based photoreceptor or OPC formed on the surface to form an electrostatic latent image. A visualized image is recorded on a recording material such as plain paper by a well-known electrophotographic process.

Incidentally, in this type of device, a deflection signal for scanning the electron beam is generated using a sawtooth wave oscillation circuit, a sweep circuit, and the like. And the semiconductor elements used in this type of circuit,
It is known that electronic components such as capacitors have temperature characteristics, and their circuit constants gradually change (change over time) after long-term use.

[Problem to be solved by the invention]

Therefore, in this type of device, the operating point of the deflection circuit moves or the sweep amplitude changes. As a result, the scanning start position on the light emitting surface of the cathode ray tube gradually shifts. Therefore,
Distortion occurs in the main scanning direction in the finally obtained recorded image, and the recorded image quality deteriorates significantly.

On the other hand, deterioration of recorded image quality occurs not only due to changes in the sweep amplitude as described above, but also due to imperfections in the distance and parallelism between the light emitting surface of the cathode ray tube and the surface of the photosensitive recording medium, and various optical systems. This also occurs due to variations in the position of the .

Further, distortion in the sub-scanning direction is caused by uneven rotation of the photosensitive recording medium.

Furthermore, changes in the density of the finally obtained recorded image are caused by fluctuations in the image signal level, deterioration of the light emitting surface of the cathode ray tube, and the like.

Therefore, in view of the above-mentioned circumstances, an object of the present invention is to
To provide an image recording device capable of periodically checking various types of deterioration in a finally obtained recorded image without connecting a test device.

[Means to solve the problem]

In order to achieve the above-mentioned object, the present invention includes a scanning exposure means for scanning exposure by inputting a video signal supplied as an external signal, and a recording means for recording an electrostatic latent image formed by the scanning exposure means. an image recording device comprising: a storage means for storing test pattern signals of a plurality of strip images arranged at intervals of different thickness in the main scanning direction of the recording means; and a video signal supplied as the external signal. image signal switching means for selecting an image information signal from the information signal and the test pattern signal selected and output from the storage means and supplying it to the scanning exposure means; clock generating means for generating a reference clock signal for forming an image using the image information signal; The present invention is characterized by comprising: a control means for selecting a predetermined image information signal from among them and outputting a predetermined image information signal to the scanning exposure means.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a schematic diagram showing an example of an image recording apparatus according to the present invention.

The cathode ray tube 1 has a light emitting surface 2 in which optical fibers are arranged in an array in its light emitting part, a deflection coil 3 for electron beam scanning is attached to the neck part, and a terminal part 4 of the neck part is equipped with a deflection coil 3 for electron beam generation. A cathode section, a grid terminal, etc. are provided.

In front of the light-emitting surface 2, a drum-shaped photosensitive recording member 5 having a surface formed with, for example, a Se-based photoreceptor such as Se or Te, an OPC photoreceptor, or another photoreceptor is arranged. A motor 7 is connected to the shaft 6 of the photosensitive recording medium 5, either directly or via a clutch or a timing belt.

The motor 7 is supplied with a signal obtained by converting a sub-scan synchronizing signal 9 from a system controller 8, which is a control means, into a desired motor drive signal by a sub-scan drive circuit 10. The deflection coil 3 is supplied with a deflection signal 13 obtained by converting a main scanning synchronization signal 11 from the system controller 8 into a desired sawtooth wave by a main scanning drive circuit 12.

The grid terminal of the cathode ray tube 1 receives an image signal 15 from a switch circuit 14 which is image signal switching means.
An image signal 17 outputted via a main scanning prohibition circuit 16 is supplied. Main scanning prohibition circuit 16
is controlled by a main scanning prohibition signal 18 from the system controller 8.

The decoder 20, which is a character information generating means, reads the character information designation signal 19, which is image information such as coded characters and symbols, and converts it into a video information signal 21, and the video information signal 21 is sent to the switch circuit 14. The signal is supplied to the first input terminal.

Further, test pattern signals in the main scanning direction and the sub-scanning direction of the image display of the cathode ray tube 1 are stored in at least a part of the ROM 23 which is a storage means, and the test pattern signal in the main scanning direction is It consists of a plurality of strip-shaped images arranged at intervals of different thickness in the main scanning direction of the photosensitive recording medium 5, and the test pattern signal in the sub-scanning direction is based on the sub-scanning of the photosensitive recording medium 5. It consists of band-shaped images with a constant width and regular intervals in the direction,
These test pattern signals are addressed by a test pattern addressing signal 22 from the system controller 8, and the read test pattern signal in either the main scanning direction or the sub-scanning direction is used as the test pattern video signal 24. It is supplied to the second input terminal of the switch circuit 14.

A switching control signal 25 from the system controller 8 is supplied to a control terminal of the switch circuit 14. According to the switching control signal 25, either the video information signal 21 or the test pattern video signal 24 is selected, and the image An image signal 17 that is input as a signal 15 to the main scanning prohibition circuit 16 and controlled by the main scanning prohibition signal 18 is supplied to the grid terminal of the cathode ray tube 1, and turns on the irradiation of the electron beam to the light emitting section.
Turn off.

A clock generator 26 is connected to the system controller 8, which is a clock generating means for generating a reference clock signal for displaying the video information signal 21, the test pattern signal 24, etc.
Clock signal 27 that serves as a reference clock for the operation of each part
is supplied to the system controller 8.

Next, an example of checking the main scanning direction using a test pattern image will be described with reference to FIG. 2 in order to adjust the optical system and other members in the image recording apparatus according to the above embodiment.

First, normal operation will be explained.
In this case, the main scanning synchronization signal 11 (FIG. 2A) from the system controller 8 is converted into a sawtooth deflection signal 13 (FIG. 2B) by the main scanning drive circuit 12, and then the deflection coil 3 is applied to perform main scanning of the electron beam of the cathode ray tube 1. At this time,
The video information signal 21 is transmitted to the system controller 8
When the main scanning prohibition signal 18 from
The signal is supplied to the terminal section 4 of the cathode ray tube 1 as an image signal 17 via the switch circuit 14 and the main scanning inhibit circuit 16, and is not supplied when the signal is at the L level.

Therefore, an image corresponding to the character information designation signal 19 is formed as an electrostatic latent image on the photosensitive recording material 5, and the image is recorded and formed on the recording material by an electrophotographic process (not shown).

Next, the operation at the time of checking in the main scanning direction will be explained.

In this case, the switch circuit 14 is switched by the switching control signal 25 from the system controller 8, and the test pattern video signal 24 in the main scanning direction read out from the ROM 23 by the test pattern address designation signal 22 (see FIG. ) is supplied to the terminal section 4 via the main scanning inhibit circuit 16 in the same manner as described above. This test pattern video signal 24 (FIG. 2D) has narrow pulse signals a and b at the start end in the main scanning direction, narrow pulse signal c at the center, and narrow pulse signals d and e at the end. Wide pulse signals f and g are provided between pulse signals b and c, and wide pulse signals h and i are provided between pulse signals c and d, respectively.

Therefore, on the final recording paper,
Band-shaped lines as shown in FIG. 2E are recorded in the sub-scanning direction. By comparing the interval and linearity of the recorded band images a' to i' with preset reference dimensions, it is possible to detect image distortion caused by the deflection signal 13 itself or the mounting position of the photosensitive recording medium 5, exposure means, etc. fluctuations are detected.

For example, if the central strip image C' is shifted from the center, the zero point of the deflection signal 13 has moved, and if the linearity of the strip images a' to i' is poor, the deflection It can be detected that an incomplete signal is being generated due to deterioration of the circuit that outputs the signal 13.

On the other hand, fluctuations in recording density can also be detected by checking the image density of each of the wide band images f' to i'.

Next, an example of performing a sub-scanning direction check in the image recording apparatus according to the present invention will be described with reference to FIG.

In this case, the switch circuit 14 is switched by the switching control signal 25 from the system controller 8,
ROM with test pattern address designation signal 22
The test pattern video signal in the sub-scanning direction read from 23 is supplied to the terminal section 4 via the main-scanning prohibition circuit 16 as described above. In the test pattern video signal 24' (FIG. 3A), pulse signals j having a constant width are formed at constant intervals from the start end to the end in the sub-scanning direction.

Therefore, on the final recording paper,
A band-shaped image with respect to the pulse width j as shown in FIG. 3B is recorded. If this recorded band-shaped image accurately corresponds to the pulse signal j as shown in the band image j', the sub-scanning direction is almost perfect; for example, as shown in the band image j'', the pulse signal j If the correspondence is small compared to the pulse signal j, the feed in the sub-scanning direction will be slow, and if the correspondence is large compared to the pulse signal j, as shown in the band image j'', the feed in the sub-scanning direction will be slow. (In addition, as shown in Figure 3)
The changes in the widths of j′, j″, and j in the sub-scanning direction are exaggerated.)

Furthermore, if there is variation in the interval between band images,
It is detected that the drive speed in the sub-scanning direction is uneven.

So far, we have explained the circuit shown in Figure 1, but the present inventors have already applied
The signal generator described in JP-A-59-131261 may also be used.

That is, the test pattern in Figure 1 was memorized.
Instead of the ROM, as shown in FIG. 4, an oscillator 30 that generates various control signals, a counter 31, and a ROM
32, a signal generation circuit consisting of a combination of latches 33 is used as the main scanning multiplex signal generation section 34, and the test signal and video input signal 36 are switched by switch SW ₁ based on the switching signal from the main control section 35. The control unit 35 switches the switch SW ₂ to select one of the main scanning section video signal valid signals 37 and 38, and based on this selected signal,
The OFT drive section 39, ie, the cathode ray tube 40, is controlled.

〔Effect of the invention〕

As described above, the present invention controls the test pattern signals of a plurality of strip images of different thicknesses arranged at intervals in the main scanning direction stored in the storage means when checking the image recording device. The light emission image is inputted to the scanning exposure means via the scanning exposure means and recorded as a test pattern on the recording means, so that the image dimensions, linearity, spacing, and image density of the recorded test pattern are compared with the reference test pattern input in advance. By comparing and examining the following, it is possible to detect distortions in the electrical control circuit, abnormalities in the mounting position of the recording medium or exposure means, and fluctuations in image density, and easily check for deterioration or abnormalities in the electronic circuits in the image recording device. It is possible to record stable and accurate images at all times.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram showing an embodiment of an image recording device according to the present invention, and FIG. 2 is a diagram showing an example of a waveform and a recorded image to explain the main scanning direction check of the image recording device of FIG. 1. , FIG. 3 is a diagram showing an example of a waveform and a recorded image for explaining the sub-scanning direction check, and FIG. 4 is a schematic diagram showing another embodiment of the present invention. 1,40...Cathode ray tube, 2...Light emitting surface, 3...
Deflection coil, 4... Terminal section, 5... Photosensitive recording medium, 6... Axis, 7... Motor, 8... System controller, 9... Sub-scanning synchronization signal, 10... Sub-scanning drive circuit, 11 ...Main scanning synchronization signal, 12...
...Main scanning drive circuit, 13...Deflection signal, 14...
Switch circuit, 15, 17... Image signal, 16...
...Main scan prohibition circuit, 18...Main scan prohibition signal, 1
9...Character information designation signal, 20...Decoder, 2
1...Video information signal, 22...Test pattern address designation signal, 23, 32...ROM, 24
... Test pattern video signal, 25 ... Switching control signal, 26 ... Clock generator, 27 ... Clock signal, 30 ... Oscillator, 31 ... Counter,
33...Latch, 34...Main scanning multiplexed signal generation section, 35...Main control section, 36...Video input signal, 37, 38...Main scanning section video signal valid signal, 39...OFT drive section, SW ₁ , SW ₂ ...Switch.

Claims (1)

[Scope of Claims] 1. An image recording device comprising a scanning exposure means for inputting a video signal supplied as an external signal and performing scanning exposure, and a recording means for recording an electrostatic latent image formed by the scanning exposure means. In the apparatus, a storage means for storing test pattern signals of a plurality of strip images arranged at intervals of different thickness in the main scanning direction of the recording means; a video information signal supplied as the external signal; image signal switching means that selects one of the image information signals of the test pattern signals selected and output from the storage means and supplies the image information signal to the scanning exposure means; clock generating means for generating a reference clock signal for forming an image using the clock; and controlling the image signal switching means and the storage means to select from the video information signal and the test pattern signal in the main scanning direction. An image recording apparatus comprising: control means for outputting a predetermined image information signal to the scanning exposure means.