JPH0739904Y2 - Detector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION "Industrial field of application" The present invention relates to a detection device having a plurality of detection means,
Particularly, it relates to what can be realized by a simple structure.

“Prior Art” Generally, in a recording apparatus such as a copying machine, a plurality of sensors are arranged in a conveyance path of the copy paper and a detection signal from each sensor is provided in order to detect an operation timing or a copy paper jam. Based on this, the control unit monitors the transport state of the copy paper.

FIG. 6 shows a conventional detection circuit in a copying machine.

The plurality of sensors 1-1 to 1-5 are arranged at predetermined positions on the transport path, respectively, and are connected to the power source 3 by the power source line 2 and grounded by the ground line 4. Furthermore,
Signal lines 6-1 to 6-5 are connected to the sensors 1-1 to 1-5 via resistors 5-1 to 5-5. The signal lines 6-1 to 6-5 are connected to the digital ports DP ₁ and DP _{2 to} DP ₅ of the CPU (central processing unit) 7.

FIG. 7 shows a detection signal in the conventional detection circuit. When the copy paper is detected, the sensors 1-1 to 1-5 detect signals 8-1 and 8-2 to 8 through signal lines 6-1 to 6-5.
Output -5. The CPU 7 uses these detection signals 8-1, 8
The conveyance operation of the copy sheet is monitored based on -2 to 8-5.

"Problems to be solved by the invention" However, in the above-described conventional configuration, each sensor 1-1
To 1-5, power supply line 2, ground line 4, resistors 5-1 to 5
There is a problem that -5 and signal lines 6-1 to 6-5 are necessary. That is, if the number of sensors is N, a total of 3N wirings are required, which complicates the wiring inside the device, resulting in an increase in the space for wiring and an increase in the number of parts.

Also, the number of digital ports of the CPU7 must be secured by the number of sensors, and the detection signals 8-1, 8-2 to 8-
The software becomes complicated to prepare the processing flow corresponding to the number of combinations of 5.

In view of these problems, it is an object of the present invention to provide a technique capable of simplifying the structure of a detection device having a plurality of detection means.

"Means for Solving the Problem" The detection device according to the present invention comprises the following means.

(B) Detection terminal connected to the power supply via a resistor.

(B) A plurality of detecting means that are connected in parallel to the detection terminal and that use the displacement of the energization amount set to different discrete values as the detection signal.

(C) Discriminating means for discriminating which detecting means has operated based on the displacement of the total energization amount of the detecting terminal which changes according to the operating condition of the plurality of detecting means.

[Operation] Since the detecting device according to the present invention uses the detecting means whose displacement is the detection signal, the power supply line and the signal line for each detecting means are made common.

Further, since the energization amount displacements of the respective detecting means are set to different discrete values, the total sum of the energizing amount displacements of the plurality of detecting means may change according to the combination of the operating detecting means. In the end, it is possible to individually identify the operating detecting means in a form in which the signal lines are shared by connecting all the detecting means in parallel to the detecting terminals and connecting the determining means to the detecting terminals. become.

[Embodiment] An embodiment of the present invention will be described below with reference to the drawings.

FIG. 2 shows a copy sheet conveying system of a copying machine according to an embodiment of the present invention. In the figure, the alternate long and short dash line indicates the transport path.

The cassette tray 9 stores copy sheets. The paper feed roller 10 supplies copy paper from the cassette tray 9 to the inside of the copying machine. Conveyor roller 11-1
11-4 are for transporting copy paper on the transport path 12. The recording unit 13 transfers a toner image formed based on a document onto a copy sheet. The thermal pressure roller 14 fixes the transferred toner image.
The sorter 15 sorts and stores the ejected copy sheets.

The sensors 16-1 to 16-5 detect copy sheets, and each part of the transport path 12, for example, the rear stage of the paper feed roller 10, the front stage of the recording unit 13, the front and rear stages of the thermal pressure roller 14, and the sorter.
It is located inside 15.

FIG. 1 shows a detection circuit according to this embodiment.

The power supply 3 supplies a voltage Vcc for driving the sensor, and is connected to a power supply line 18 via a current limiting resistor 17. The sensors 16-1 to 16-5 are connected to the power line 18 in parallel with each other.
It is connected to the. The CPU 19 controls paper feeding and other operations of the copying machine.

The power line 18 is connected to the analog port AP of the CPU 19. The CPU 19 monitors all the sensors 16-1 to 16-5 based on the potential of the input voltage to the analog port AP.

When the sensors 16-1 to 16-5 perform the detection operation, the current flowing from the power supply line 18 to the ground side increases, and the current flowing through the resistor 17 increases correspondingly. As a result, the potential of the power supply line 18, that is, the input voltage to the analog port AP is downshifted.

The shift voltage amount of each sensor is set as shown in Table 1 by appropriately selecting the resistance value of each sensor 16-1 to 16-5 according to the resistance value of the resistor 17.

As can be seen from this table, when one of the sensors 16-1 to 16-5 operates based on the total shift amount, by setting the voltage to be shifted to a different and discrete value for each sensor. Of course, even when a plurality of sensors operate simultaneously, it is possible to specify the sensor that has operated. For example, when the entire shift amount is 1.1V, it can be determined that the operated sensors are 16-1, 16-2, 16-4.

FIG. 3 shows an example of a detection signal when two copy sheets are sequentially conveyed. In the figure, the same timing as in FIG. 7 is assumed for the transportation timing of the two copy sheets.

In this way, each sensor 16-1 to 16-based on the input voltage 20.
5 can be monitored, which has the advantage of simplifying the software configuration of the discrimination processing. Further, since only the analog port AP is used as the input port, there is an advantage that the digital port can be saved.

FIG. 4 shows the configuration of the sensors 16-1 to 16-5 in this embodiment.

The terminal 21 is connected to the power supply line 18 (see FIG. 1). The terminal 22 is grounded to a frame or the like to which the sensor is attached. Therefore, each sensor 16-1
Wiring to 16-5 is only the power supply line 18, which has the advantage of simplifying internal wiring.

A light emitting diode (LED) 23 is placed between these terminals 21 and 22.
And the resistor 24 are connected in series. Light emitting diode
Reference numeral 23 denotes a light beam for detecting a copy sheet. The resistor 24 limits the current of the light emitting diode 23.

At the same time, a phototransistor 25 and a resistor 26 are connected in series between the terminals 21 and 22. The phototransistor 25 is made conductive by receiving a light beam from the light emitting diode 23. Resistor 26 is a phototransistor
It limits the current of 25.

The transistor 27 is for adjusting the current of the light emitting diode 23, the collector is connected to the cathode of the light emitting diode 23, the base is connected to the phototransistor 25, and the emitter is connected to the terminal 21. .

The operation of these sensors 16-1 to 16-5 will be described.

Normally, the light emitting diode 23 is energized and emits light. When there is no copy paper on the sensors 16-1 to 16-5, the actuator 28 (see FIG. 5) blocks the light path between the light emitting diode 23 and the phototransistor 25, and the phototransistor 25 does not receive light and conducts. Not not. Therefore, the terminal
Only a small current for causing the light emitting diode 23 to emit light flows between 21 and 22.

In the case of copy paper on the sensors 16-1 to 16-5, the actuator 28 operates and the interruption of the optical path between the light emitting diode 23 and the phototransistor 25 is released. As a result, the phototransistor 25 receives the light and becomes conductive. When the phototransistor 25 becomes conductive, the base voltage is applied to the transistor 27 so that the transistor 27 becomes conductive, so that the current of the light emitting diode 23 is secured. Therefore, the light emitting diode 23 continues the light emitting operation, and is stable when both the light emitting diode 23 and the phototransistor 25 are conductive.

FIG. 5 shows actuators attached to the sensors 16-1 to 16-5. The actuator 28 is composed of a pair of mounting bases 29 containing the light emitting diode 23 and the phototransistor 25, and a movable arm 30 rotatably mounted on the mounting base 29. The movable arm 30 includes an upper arm 30-1 and a lower arm.
30-30 and. The upper arm 30-1 normally projects to the copy sheet transport path. The lower arm 30-2 normally has the sensor 16
The light path between the light emitting diode 23 of -1 to 16-5 and the phototransistor 25 (see FIG. 4) is blocked.

When the copy sheet is conveyed to the conveying path, the leading edge of the copy sheet hits the upper arm 30-1, the upper arm 30-1 is pushed down, and the movable arm 30 rotates. As a result, the lower arm 30-2 is displaced and the interruption of the optical paths of the sensors 16-1 to 16-5 is released.

A reflection type sensor may be used as the sensors 16-1 to 16-5. According to the reflective sensor, the presence or absence of the copy paper can be detected by emitting light to the transport path and detecting the reflected light from the copy paper.

[Advantage of Invention] As described above, in the detection device according to the present invention, the plurality of detection means respectively change the energization amount depending on whether or not the object to be detected is detected, and the displacement of the energization amount is different from each other. Since different discrete values are used, a detection device that can individually identify the operating detecting means even when several detecting means operate simultaneously is realized with an extremely small number of wires. You can do it.

[Brief description of drawings]

FIG. 1 is a block diagram showing a detection circuit according to an embodiment of the present invention, FIG. 2 is a schematic block diagram showing a copy sheet conveying system of a copying machine according to the same embodiment, and FIG. 3 is related to the same embodiment. FIG. 4 is a waveform diagram showing an example of a detection signal, FIG. 4 is a configuration diagram showing a sensor according to the same embodiment, FIG. 5 is a side view showing an actuator according to the same embodiment, and FIG. 6 is a copy sheet conveyance of a copying machine. FIG. 7 is a configuration diagram showing a conventional detection circuit in the system, and FIG. 7 is a waveform diagram showing a detection signal in the conventional detection circuit. 3 ... power supply, 16-1 to 16-5 ... sensor, 17 ... resistance,
18 ... power line, 19 ... CPU.

Claims (1)

[Scope of utility model registration request] 1. A detection terminal connected to a power supply via a resistor, and a plurality of detections connected in parallel to the detection terminal and having a displacement of an energization amount set to different discrete values as a detection signal. Means and a determining means for determining which detecting means has operated based on the displacement of the total energization amount of the detecting terminal which changes according to the operating conditions of the plurality of detecting means. Detection device.