JPH0452765Y2 - - Google Patents

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to a toner sensor used for detecting the concentration or level of carrier or toner in a developing material in, for example, an electronic copying machine.

<Prior Art> In copying machines, when the mixing ratio of toner to carrier in the developing material decreases, the density of the developed image becomes thinner, and on the other hand, when the mixing ratio increases, the density of the image becomes too high and fog occurs. This causes the inconvenience of increased Therefore, in order to continuously obtain images of appropriate color tone, it is necessary to detect the toner concentration in the developing material and maintain the concentration at an appropriate constant level. Various types of toner sensors have been proposed for detecting toner concentration, one of which is a piezoelectric vibrator bonded to one side of a diaphragm, and A toner sensor is known that has a toner detection surface of . This toner sensor changes the vibration characteristics of a diaphragm that vibrates together with a piezoelectric vibrator in accordance with the specific gravity of toner contained in the developer material that comes into contact with the toner detection surface. This is a device that detects toner concentration, and it is capable of measuring toner concentration with high precision under certain measurement conditions without being affected by fluctuations in the detection level due to adhesion of other dust or fluctuations in level due to stirrers, magnetic rollers, etc. It can be detected by

<Problems to be solved by the invention> However, when evaluating the characteristics of a conventional piezoelectric toner sensor as a sensor, it is possible to evaluate the sensor characteristics of the entire circuit, but it is not possible to evaluate the sensor characteristics of the piezoelectric vibrator alone. Nakatsuta. For this reason, there are problems such as variations in sensor characteristics among individual toner sensors, making it troublesome to adjust the detection level.

Therefore, an object of the present invention is to solve the above-mentioned conventional problems and provide a toner sensor with stable characteristics without variations.

<Means for Solving the Problems> In order to solve the above-mentioned problems, the present invention provides a toner sensor that includes a piezoelectric vibrator, a diaphragm, and a detection circuit, and detects the level of toner, wherein the vibration The plate is disk-shaped, and is arranged vertically with respect to the toner level so that one surface thereof is in contact with the toner and the toner level rises and falls along the one surface, and the piezoelectric vibrator has a main electrode and a sub-electrode different from the main electrode on one side of the opposing surfaces, and has another main electrode on the other side, and the other side is joined to the other side of the diaphragm. The detection circuit applies an AC input voltage between the main electrodes, is supplied with an output voltage extracted from the sub-electrode and the another main electrode, and is configured to calculate a gain of the output voltage with respect to the input voltage. The circuit detects toner, and the toner detection level is determined by the ratio (H/D) of the height H from a reference taken near the lower end of the diaphragm to the diameter D of the diaphragm. 15≦(H/D)≦12/15 is satisfied, and the piezoelectric vibrator has an AC input voltage value of V ₁ applied between the main electrodes when the toner is not in contact with the piezoelectric vibrator. When the output voltage value generated between the other main electrode and the sub-electrode is _V2 , the initial gain G given by G=20log( _V2 / _V1 ) satisfies -3dB≦G≦10dB. It is characterized by

<Function> The diaphragm is arranged vertically with respect to the toner level, and the piezoelectric vibrator has a main electrode and a sub-electrode on one side of both opposing surfaces, and another main electrode on the other side. The detection circuit applies an AC input voltage between the main electrodes, and the output voltage extracted from the sub-electrode and the main electrode provided on the other side is connected to the other side of the diaphragm. This is a circuit that detects toner from the gain of the output voltage with respect to the input voltage, and the toner detection level is the ratio (H /D), it has been experimentally found that a toner sensor satisfying 7/15≦(H/D)≦12/15 can detect toner with the smallest variation.

In a toner sensor with such a configuration, if a piezoelectric vibrator with an initial gain G satisfying -3 dB≦G≦10 dB is used, the toner detection level that can detect toner with the smallest variation, that is, 7/15≦(H/D)≦ At a toner detection level that satisfies 12/15, the toner level can be detected reliably and stably without malfunction.

If the initial gain G becomes -3 (dB) or less, depending on the circuit gain, there is a risk that the oscillation will stop even if toner adheres, and if the initial gain G becomes 10
(dB) or more, there is a possibility that oscillation will not be stopped, and malfunction will occur in either case.

Moreover, since it is only necessary to select and use a piezoelectric vibrator with an initial gain G of -3 dB≦G≦10 dB, the characteristics of the piezoelectric vibrator itself can be grasped and evaluated independently from the circuit, resulting in stable performance with less variation. It is possible to realize a toner sensor with the following characteristics.

<Example> Fig. 1 is a partial sectional view of a toner sensor according to the present invention, in which the periphery of a diaphragm 2 formed in a disc shape is surrounded by a case made of a suitable material such as synthetic resin. 3, one side 202 of the diaphragm 2
The structure uses the surface as a contact surface with the toner. The diaphragm 2 is arranged vertically with respect to the toner level so that the toner level moves up and down along one surface 202, and the piezoelectric vibrator 1 is bonded on the other surface 201. The diaphragm 2 is
Its periphery is adhesively fixed onto the end surface of the case 3 with silicone adhesive or the like.

A piezoelectric vibrator 1 has a piezoelectric element body 1 formed in a disk shape.
A main electrode 102 and a sub-electrode 103 independent from this main electrode 102 are formed on one surface in the thickness direction of 01, and another main electrode 104 to be paired with the main electrode 102 is formed on the other surface. 104 is the diaphragm 2
It is coaxially joined so as to be in contact with the other surface 201. 4 is a drive circuit including an oscillation circuit, an amplifier circuit, etc., and 5 is a printed circuit board, which constitute a detection circuit. 6 is a toner storage housing, and 7 is a toner stored in the toner storage housing 6.

FIG. 2 is an electrical circuit diagram of the toner detection circuit.
In the figure, 9 and 10 are operational amplifiers, 11 is a power input terminal for inputting DC voltage Vb, 12 is an output terminal, and 13 is a common output terminal.

A part of the output of the operational amplifier 9 is voltage-divided by the resistors R ₁ and R ₂ and applied between the main electrode 104 and the main electrode 102 of the piezoelectric vibrator 1 . As a result, when the piezoelectric vibrator 1 starts to vibrate, the sub-electrode 103
Since a voltage is generated at and fed back to the input side of the operational amplifier 9 through the sub-electrode 103, a feedback circuit is formed by the piezoelectric vibrator 1 for the operational amplifier 9.
Operational amplifier 9 continues its oscillation operation.

In FIG. 1, when the toner 7 is below the lower end of the diaphragm 2 corresponding to level 0, the diaphragm 2 is vibrating without being affected by the toner 7. Referring to FIG. 2, a feedback voltage signal based on the vibration is input from the sub-electrode 103 to the operational amplifier 9, a piezoelectric vibrator feedback circuit is configured for the operational amplifier 9, and the operational amplifier 9 continues to oscillate. do. The oscillation output of the operational amplifier 9 is transmitted to the operational amplifier 10 through the capacitor _C1 and the resistor _R3 .
The signal is amplified by the transistor 10 and taken out from the output terminal 12.

On the other hand, when the level of the toner 7 rises and reaches the detection level A, the vibration of the diaphragm 2 stops and the voltage fed back to the input side of the operational amplifier 9 through the sub-electrode 103 disappears, so that the oscillation of the operational amplifier 9 is stopped. stops. Therefore, toner can be detected by stopping the oscillation of the operational amplifier 9. Figure 2
_C2 is a capacitor, _R3 to _R11 are resistors, and D is a diode.

The toner detection level is such that the height H from the reference level 0 taken near the lower end of the diaphragm 2 is 7/15≦(H/D) with respect to the ratio (H/D) to the diameter D of the diaphragm 2. D) It is set at a position that satisfies ≦12/15.

In the present invention, when configuring a toner sensor as shown in FIGS. 1 and 2, the piezoelectric vibrator 1 has an initial gain G of -3 dB≦G.
Select and use one that satisfies ≦10dB.

The initial gain G is defined as follows. That is,
As shown in FIG. 3, the piezoelectric vibrator 1 is kept free from contact with toner and the main electrode 102 is
and the main electrode 104 from the oscillator 14
When an AC voltage of V ₁ is applied, the main electrode 104
Assuming that a voltage value V ₂ is generated between
becomes G=20log(V ₂ /V ₁ ).

The initial gain G can be set within the above range by setting the area ratio of the sub electrode 103 to the main electrodes 102 and 104 to about 5 to 70%. The initial gain G is the main electrode 102, 104 and the sub electrode 103.
In addition to the area ratio, adjustment can also be made by the mounting structure of the diaphragm 2 to the case 3, etc.

Next, a specific example will be explained. As shown in Figure 4,
When a general diaphragm 2 with a toner detection surface diameter D = 15 mm is attached to a toner storage housing 6 of a general shape with an inner diameter d = 30 mm, from the bottom end of the diaphragm 2 at level 0 to It has been experimentally found that when the detection level is set at a position of 12 mm, toner 7 can be detected with the smallest variation. That is, the height H from the level 0 reference taken near the lower end of the diaphragm 2 is the ratio (H/
Regarding D), the detection level is set at a position that satisfies 7/15≦(H/D)≦12/15.

When the detection level is 7 mm or less, if the toner 7 adheres to the entire surface of the diaphragm 2, the piezoelectric vibrator 1
The vibration of the piezoelectric vibrator 1 may stop and an erroneous detection signal may be output, and if the detection level exceeds 12 mm, the vibration of the piezoelectric vibrator 1 may stop even if the toner 7 reaches the level of the top of the diaphragm 2. This is because a malfunction may occur in which the detection signal is not output.

Next, FIG. 5 is a characteristic diagram showing the relationship between the toner level and the gain (dB) of the toner sensor. Curve L ₁ is when a piezoelectric vibrator with initial gain G = 8.5 (dB) is used, and curve L ₂ is when initial gain G = 1.
Curve _L3 shows the characteristics when using a piezoelectric vibrator with initial gain G=-3.5 (dB).

In a toner sensor exhibiting the characteristics shown in Figure 5, if you try to set the detection level in the range of 7 mm to 12 mm, the initial gain G will be -
It is optimal to use a piezoelectric vibrator 1 in the range of 3 (dB) to 10 (dB). By using the piezoelectric vibrator 1 having such an initial gain G, 7 to 12
The toner level can be detected reliably and stably in the mm range without malfunction.

When the initial gain G becomes -3 (dB) or less, the second
When configuring the toner detection circuit as shown in the figure, depending on the circuit gain, there is a risk that the oscillation will stop even if toner adheres, and the initial gain G
If it exceeds 10 (dB), there is a possibility that the oscillation will not stop, resulting in malfunction in either case.

In addition, since it is only necessary to select and use a piezoelectric vibrator 1 whose initial gain G is in the range of -3 (dB) to 10 (dB), the characteristics of the piezoelectric vibrator itself can be grasped independently from the circuit, and , it is possible to realize a toner sensor with stable characteristics with little variation.

<Effects of the invention> As described above, according to the present invention, the following effects can be obtained.

(a) The diaphragm is arranged vertically with respect to the level of the toner, and the piezoelectric vibrator has a main electrode and a sub-electrode on one side of both opposing surfaces, and has another main electrode on the other side. , the other side is joined to the other side of the diaphragm, the detection circuit applies an AC input voltage between the main electrodes, and the output voltage extracted from the sub electrode and the main electrode provided on the other side is supplied. , is a circuit that detects toner from the gain of the output voltage with respect to the input voltage, and the toner detection level is the height H from the reference taken near the bottom end of the diaphragm.
Since the ratio (H/D) to the diameter D of the diaphragm satisfies 7/15≦(H/D)≦12/15, it is possible to provide a toner sensor capable of detecting toner with the smallest variation.

(b) Since the toner sensor with the above configuration uses a piezoelectric vibrator whose initial gain G satisfies -3dB≦G≦10dB, the toner level can be adjusted without causing malfunction at the detection level that can detect toner with the smallest variation. It is possible to provide a toner sensor that can detect reliably and stably.

(c) Since it is only necessary to select and use a piezoelectric vibrator whose initial gain G satisfies -3 dB≦G≦10 dB, the characteristics of the piezoelectric vibrator itself can be grasped and evaluated independently from the circuit, and variations can be reduced. It is possible to provide a toner sensor with stable characteristics.

[Brief explanation of the drawing]

Fig. 1 is a partial sectional view of the toner sensor, Fig. 2 is an electric circuit diagram of the toner detection circuit, Fig. 3 is a diagram explaining the initial gain of the piezoelectric vibrator according to the present invention, and Fig. 4 is a specific diagram of the toner sensor. FIG. 5 is a partial cross-sectional view showing an example of use, and a characteristic diagram showing the relationship between sensor gain and toner level. 1... Piezoelectric vibrator, 102, 104... Main electrode, 103... Sub-electrode.

Claims (1)

[Claims for Utility Model Registration] Comprising a piezoelectric vibrator, a diaphragm, and a detection circuit,
The diaphragm is a toner sensor for detecting a toner level, and the diaphragm has a disk shape, one surface of which is in contact with the toner, and the diaphragm is adapted to adjust the toner level so that the toner level rises and falls along the one surface. The piezoelectric vibrator has a main electrode and a sub-electrode different from the main electrode on one side of the opposing surfaces, and has another main electrode on the other side. , the other surface side is joined to the other surface of the diaphragm, and the detection circuit applies an AC input voltage between the main electrodes and outputs an output voltage from the sub-electrode and the another main electrode. is supplied and detects toner from the gain of the output voltage with respect to the input voltage, and the toner detection level is determined by the height H of the diaphragm from a reference taken near the lower end of the diaphragm. The ratio (H/D) to the diameter D satisfies 7/15≦(H/D)≦12/15, and the piezoelectric vibrator applies voltage between the main electrodes without bringing the toner into contact with the piezoelectric vibrator. When the AC input voltage value generated is _V1 , and the output voltage value generated between the other main electrode and the sub-electrode is _V2 , then G=20log( _V2 / _V1 ). A toner sensor characterized in that a given initial gain G satisfies -3dB≦G≦10dB.