KR890004853Y1 - Automatic recognition circuit of the tray for electrographic processes - Google Patents

Abstract

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Description

Copier Tray Automatic Recognition Circuit

1 (a) is a state diagram of a hole (HOLE) installed in the tray of the present invention, 1 (b) is an output data state diagram of the present invention, and (1) is a data output of each tray in the present invention, Figure 1 (d) is a data output to the switch when the tray insertion and removal in the present invention.

2 is a circuit diagram of the present invention.

3 is a state in which the tray can be transitioned by the present invention circuit diagram.

4 is a control flowchart of the present invention.

* Explanation of symbols for main parts of the drawings

PE ₁ -PE ₃ : Copy paper sensor CP ₁ : Comparator

S ₁ -S ₆ : Photoelectric sensor FF ₁ -FF ₉ : Flip-flop

EX ₁ -EX ₉ : Exclusive Oagate

The present invention relates to a tray automatic recognition circuit of a copier which can automatically identify the type of tray and the position of the groove (HOME) when the tray is inserted and removed.

The tray recognition method currently used in the copier has a home position determined according to the tray type, so that only the insertion and removal is detected, and the number of protrusions is configured differently according to the type of the tray. There is a method of recognizing the type of tray and the position of the groove due to the connection, but the former requires the type of tray to be limited according to the number of grooves, the user has to find the type of tray and the position of the groove, and the latter As the number of grooves and the number of grooves increased, the number of protrusions and tack switches greatly increased, causing a malfunction when mechanical contacts were worn out.

The purpose of the present invention is to automatically recognize the type of tray and the position of the hole of the copier automatically by allowing light to pass through the hole by changing the position of the hole (HOLE) according to the type of tray on the side of the tray. The photo sensor and copy paper sensor are installed on the side of the tray and the sensing signals of each sensor are stored in the flip-flop. It was made up.

This will be described in detail with reference to the accompanying drawings.

In the present invention, the type of tray used is set to have a number (6 pieces) corresponding to the sizes (A ₃ , A ₄ , A ₅ , B ₄ , B ₅ , B ₆ ) that are generally used. As shown in FIG. 1 (a), holes H _{1 to} H ₆ are drilled on the side of each tray in order to detect the type of the tray by blocking the hole of the hatched portion. _1- H ₆ ) respectively configure a light receiving photosensor.

In addition, Figure 1 (b) is an 8-bit data state diagram output by the present invention circuit diagram D ₁ and D ₂ represents the type of the tray is inserted or removed, D ₄ , D ₅ , D ₆ is the tray inserted or removed D ₇ is driven as a bit signal that indicates whether the tray is inserted or removed, where D ₃ is not currently used.

Each state thereof may be represented as a state contrast diagram of FIGS. 1 (c) and 1 (d).

The subject innovation are the respective holes of claim 1 (c) and FIG claim 1 (d) whether or not the copy paper to be constructed as two help sensor to indicate the respective outputs according to the state of the tray, as shown in FIG. (PE ₁ -PE ₃₎ It can be installed one by one in order to detect the insertion or removal of the tray and at the same time can be configured to detect the position of the hole to be configured to be applied to the comparator (CP ₁ ) and the extruder oragate (EX ₁ -EX ₃ ) to one side The other side is configured to be applied to the comparator (CP ₁ ) and the extruder oragate (EX ₁ -EX ₃ ) through the flip-flop (FF ₁ -FF ₃ ).

In addition, the sensing signal of the light-receiving photosensors S _1- S ₆ installed at the sensor positions H _1- H _{6 of} FIG. ₁ is configured to be applied to the transceiver ogate EX _4- EX ₉ to one side. The other side is configured to be applied to the extruder oragate (EX ₄ -EX ₉ ) through the flip-flop (FF ₄ <FF ₉ ), and then configured to be converted to the code through the oragate (O ₁ -O ₃ ) The bit signals D ₀ -D ₇ are configured to be output as 8-bit data signals as shown in FIG. 1 (b).

In the present invention configured as described above, when the output of the copy paper presence sensor PE ₁ -PE ₃ is applied to the comparator CP ₁ , the output is compared with the previous state signal applied through the flip-flop FF ₁ -FF ₃ . The output of the comparator CP ₁ is output as a data bit signal D ₇ , and the outputs of the exaggerated oragates EX _1- EX ₃ compared as described above are the data bit signals D ₄ -D ₆ . If the status signal of the copy paper presence sensor (PE ₁ -PE ₃ ) is S _n when the tray is inserted or removed, it is the output of S _n -S _n -1 of the changed sensor. At FF ₁ -FF ₃ , the sensing signal before the change state is stored and compared. If S _n > S _ne 1, the tray is inserted. If S _n <S _n −1, the tray is removed. Is converted like a tile

And when the type of tray inserted or removed is detected, when the signal detected by the light receiving photosensors S _1- S ₆ is outputted, the sensing signal of the previous state is stored in the flip-flop (FF ₁ -FF ₉ ). In order to apply the output compared to the Siber Oagate (EX ₄ -EX ₉ ) to the 8-bit 8-micro ProSensor, transcode it through the Oagate (O ₁ -O ₃ ) to convert the 6-bit signal into a 3-bit signal. Therefore, the type of tray and the position of the hole are determined by the data bit signals D ₀ -D ₇ , and the change state of each tray is shown in FIG. 3.

As described above, the present invention can optically detect a conventional mechanical switch, thereby preventing a malfunction due to a mechanical contact failure or an incorrect insertion of a tray, and can detect both upper, middle, and lower ends by one sensor. The number of parts can be greatly reduced, and as the type of tray or the number of holes increases, there is an advantage that can be further simplified.

Claims (1)

A photosensitive photo sensor (S ₁ -S ₆ ) and a copy paper presence sensor (PE ₁ -PE ₃ ) are installed on the side of the tray, and the detection signal of the copy paper presence sensor (PE ₁ -PE ₃ ) is flip-flop (FF ₁ -FF). ₃ ) is configured to be output to the output signal after storing the previous detection signal through the comparator (CP ₁ ) and the extruder OA gate (EX ₁ -EX ₃ ) and the photo sensor for receiving (S ₁ -S ₆ ) The sensing signal of is configured to store the previous sensing signal configured to be applied to the flip-flop (FF ₄ -FF ₉ ) so that the transceiver oragate (EX ₄ -EX ₉ ) and the oragate (O ₁ -O ₃ ) are stored. A tray automatic recognition circuit of a copier configured to output through the data bit signal (D ₀ -D ₇ ).