JP3214392B2 - Electrophotographic recording device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention comprises a toner replenishing device.
And an electrophotographic recording apparatus .

[0002]

2. Description of the Related Art In recent years, when a two-component developer composed of a toner and a carrier is used to visualize an electrostatic latent image, when the mixing ratio of the toner and the carrier, that is, the toner density is not appropriate, the image density is reduced. The problem is that the carrier density is too thin to cause carrier jump, or the image density is too high to increase fog. Therefore, for example, a toner concentration sensor is provided in the developing device, and a toner replenishing device that replenishes the toner in the developing device is controlled, so that the toner is replenished when the toner concentration becomes low so that the toner concentration is always kept constant. .

However, when a large number of high-density originals are to be copied, there has been a problem that the toner replenishment amount with respect to the toner consumption amount cannot be kept in time, and the toner density decreases and the image becomes thin. When the user notices a change in the image density, manual replenishment of the toner is performed so that the toner density is adjusted, and the toner density is adjusted to an appropriate value.

As a manual toner replenishing method at this time, for example, a toner replenishment is always performed by pressing a manual toner replenishment switch, or a toner density is first read before a toner replenishment operation is performed. In some cases, toner replenishment is continuously performed until the value falls below the value.

[0005]

However, in the above-mentioned conventional configuration, even if the toner is manually replenished, the toner density in the developing device is not rapidly improved and the response is poor. Since the user manually performs the manual replenishment operation of the toner, it is very troublesome and difficult to adjust the toner concentration to the optimum toner density, and the manual replenishment of the toner may be repeated to cause the over toner state. In some cases, the toner concentration is first read before the toner supply operation is performed to control the toner supply amount.In this case, however, the toner concentration needs to be read in a state where the toner concentration is stable. If the total time is long and toner replenishment is continuously performed until the toner density output falls below the reference value, the toner replenishment is rapidly performed, so that there is a problem that the toner tends to be overtoned.

SUMMARY OF THE INVENTION The present invention solves the above-mentioned conventional problems, in which the time for manual replenishment of toner is minimized and the toner replenishment operation is not performed when a stable toner concentration is reached. An object of the present invention is to provide an electrophotographic recording apparatus in which over toner is prevented.

[0007]

In order to solve this problem, an electrophotographic recording apparatus according to the first aspect of the present invention comprises a developing device.
A toner concentration detecting means for detecting a toner concentration in the apparatus;
A toner supply unit for supplying toner to the developing device;
When the output value of the toner density detection means exceeds the reference value
The toner is supplied to the toner
-Toner concentration control means for maintaining the density,
Read the maximum output value within the toner supply operation time for each operation
Storage means for updating the value and forcibly instructing toner supply
Toner supply means, and fingers of the toner manual supply means.
Indicated, the toner supply is performed based on the value in the storage unit.
And control means for determining whether or not to perform .

Further , according to the electrophotographic recording apparatus of the present invention,
In the present invention, a toner for detecting a toner concentration in a developing device is provided.
-Density detecting means and replenishing toner in the developing device
The output values of the toner replenishing unit and the toner concentration detecting unit are
When the value exceeds the first reference value, the toner supply means is triggered.
Toner concentration to maintain a constant toner concentration
Degree control means and toner supply operation time for each toner supply operation
Storage means for reading the maximum output value in the memory and updating the value;
A toner manual replenishing means for forcibly instructing toner replenishment,
When there is an instruction from the toner manual replenishing means, the first base
A second reference value, which is higher than the reference value, stored in the storage means
And control means for replenishing the toner when the value exceeds .

Further , according to a third aspect of the present invention, there is provided an electrophotographic recording apparatus.
In the present invention, a toner for detecting a toner concentration in a developing device is provided.
-Density detecting means and replenishing toner in the developing device
The output values of the toner replenishing unit and the toner concentration detecting unit are
When the value exceeds the first reference value, the toner supply means is triggered.
Toner concentration to maintain a constant toner concentration
Degree control means and toner supply operation time for each toner supply operation
Storage means for reading the maximum output value in the memory and updating the value;
A toner manual replenishing means for forcibly instructing toner replenishment,
When there is an instruction from the toner manual replenishing means, the first base
A second reference value, which is higher than the reference value, stored in the storage means
Is greater than the value of the storage means and the first reference value.
Toner supply until stable toner concentration is obtained from the difference between
Control means for obtaining the number of times and replenishing the toner .

[0010] The invention according to claim 4 is based on claim 2.
In the invention of the electrophotographic recording apparatus, the control means includes
When there is an instruction from the manual replenishing means, the first reference value is set.
The value of the storage means exceeds the second reference value, which is a higher value.
Replenish the toner when
Update the value of the storage means to the maximum output value of the supply operation time
Until the value becomes lower than the second reference value.
It is characterized by repeating supply .

The invention according to claim 5 is the invention according to claim 2.
In the invention of the electrophotographic recording apparatus, the control means includes
When there is an instruction from the manual replenishing means, the first reference value is set.
The value of the storage means exceeds the second reference value, which is a higher value.
Replenish the toner when
Update the value of the storage means to the maximum output value of the supply operation time
Until the value becomes lower than the second reference value.
Repeat the replenishment, and when the number of toner replenishments reaches the specified value,
This is characterized in that toner supply is stopped. Ma
The invention according to claim 6 corresponds to any one of claims 2 to 5.
In the invention of the electrophotographic recording apparatus according to the second aspect,
The reference value indicates that the toner density
Higher than the output value indicating toner density that does not cause toner
Output value .

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION
Toner density detecting means for detecting the toner density in the developing device
Replenishing means for replenishing toner in the developing device
The output value of the toner density detecting means exceeds the reference value.
The toner replenishing means performs toner replenishment when the
Density control means for maintaining the toner density of the toner
Reads the maximum output value within the toner supply operation time for each supply operation
Storage means for updating the toner supply value,
Instruction manual toner supply means,
When there is an instruction of the stage, the toner is determined based on the value of the storage unit.
Control means for determining whether or not replenishment is to be performed.
You. Thus, every time the toner supply operation is performed,
The maximum output value within the interval is updated, and the user manually supplies toner.
When the unit is pressed, the toner concentration is detected at that time
Instead of replenishing toner based on the maximum output value.
The user can manually replenish the toner.
Whether to immediately replenish toner when pressing
Can be determined, and the toner supply time
Can be shorter.

According to a second aspect of the present invention, a developing device is provided.
A toner concentration detecting means for detecting a toner concentration in the
A toner supply unit for supplying toner to the developing device;
The output value of the toner density detecting means has exceeded the first reference value
In this case, the toner
Toner concentration control means for maintaining the toner concentration;
Reads the maximum output value within the toner supply operation time for each supply operation
Storage means for updating the value, and a
Toner replenishing means and toner manual replenishing means
Is given, the value of the first reference value higher than the first reference value
When the value of the storage means exceeds the reference value of 2, the toner compensation is performed.
And a control means for performing feeding. This
The maximum output within the toner supply operation time for each toner supply operation.
The force value was updated, and the user pressed the manual toner supply unit.
Sometimes, instead of detecting toner concentration at that time,
It is determined whether or not to supply toner based on the maximum output value.
User presses the toner manual replenishing means.
Sometimes, it is immediately determined whether or not to supply toner.
Can minimize the toner replenishment time
Can be. In addition, the toner
-In the case of replenishment, the second value which is higher than the first reference value
Toner supply when the previous maximum output value exceeds the reference value of
, The toner that rises with one toner replenishment
The density can be maintained in the under toner state.
Thus, generation of over toner can be prevented.

In the invention according to claim 3 of the present invention, the present invention
Toner density detecting means for detecting toner density in an image device
Replenishing means for replenishing toner in the developing device
The output value of the toner density detecting means is equal to a first reference value.
When the value exceeds, toner is supplied to the toner supply unit.
Toner concentration control means for maintaining a constant toner concentration;
Maximum output value within the toner supply operation time for each toner supply operation
Storage means for reading the value and updating the value.
Manual toner replenishing means for instructing replenishment,
When there is an instruction from the replenishing means, a value higher than the first reference value
When the value of the storage means exceeds the second reference value
The difference between the value of the storage means and the first reference value
The number of toner replenishments until a stable toner concentration is
Control means for replenishing toner.
You. As a result, the toner manual replenishing means is pressed only once.
Automatically replenishes toner until a stable toner concentration is reached
Is pressed, the user repeatedly presses the toner
You can save time and effort.

According to a fourth aspect of the present invention, a second aspect is provided.
In the invention according to the invention, the control means includes a toner manual replenishing means.
Is given, the value of the first reference value higher than the first reference value
When the value of the storage means exceeds the reference value of 2, the toner compensation is performed.
The toner supply operation time.
The value of the storage means is updated to a large output value, and the value is
Repeat toner replenishment until it becomes lower than the reference value of 2.
It is a characteristic. As a result, the toner
In the case of toner replenishment according to the instruction of the column,
The maximum output value is updated to determine whether or not to supply the next toner.
Judgment, always check the latest toner concentration in the developing device.
And a stable and accurate concentration can be obtained.

According to a fifth aspect of the present invention, a second aspect is provided.
In the invention according to the invention, the control means includes a toner manual replenishing means.
Is given, the value of the first reference value higher than the first reference value
When the value of the storage means exceeds the reference value of 2, the toner compensation is performed.
The toner supply operation time.
The value of the storage means is updated to a large output value, and the value is
The toner supply is repeated until the value becomes lower than the reference value of 2.
Stop toner supply when the number of toner supply reaches the specified value.
It is characterized by that. This allows the toner hand
Also in the case of toner replenishment by the instruction of the dynamic replenishment means,
The maximum output value is updated for each feeding operation, and the next toner supply is performed
Is determined, always check the latest toner in the developing device.
Concentration can be detected and accurately and stably
it can. Also, by limiting the number of toner replenishments,
To prevent the toner from being replenished indefinitely due to device malfunctions.
Since it can be stopped, generation of over toner can be prevented. Book
The invention according to claim 6 of the invention is the invention according to claims 2 to 5.
In the invention according to any one of the first to third aspects, the second reference value
As the toner concentration does not become over toner when replenishing the toner
Output value is higher than the output value indicating
It is characterized by the following. As a result, one toner
The toner concentration that rises with replenishment is
-Can be in an under toner state that requires replenishment
Therefore, occurrence of the over toner state can be prevented.

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a cross-sectional view illustrating a developing device having a toner density detecting unit according to an embodiment of the present invention. The developing frame 1 contains a developer 2 composed of a toner and a carrier, and transports the developer 2 while the first stirring roller 3 rotates in the direction of arrow 4 and stirs from the near side to the far side. The second stirring roller 5 rotates in the direction of the arrow 6 to feed the developer 2 to the developing roller 7 at the same time as conveying the toner from the back side to the near side while stirring.

The toner density sensor 8 is provided on the developing frame 1 so as to face the first stirring roller 3. The first stirring roller 3 and the second stirring roller 5 are separated by a partition plate 9,
The partition plate 9 has notches (not shown) on the near side and the back side, respectively.
, The developer 2 circulates from the second stirring roller 5 to the first stirring roller 3 (front side). The developer 2 supplied to the developing roller 7 is
Regulates the layer thickness. After being charged by the charger, the photosensitive drum 11 forms an electrostatic latent image on the photosensitive drum 11 by incident light from the optical system. The toner in the developer 2 supplied to the developing roller 7 adheres to this electrostatic latent image, and development is performed.

FIG. 2 is a sectional view of the developing frame 1 as viewed from the side in the longitudinal direction. Developer 2 contained in developing frame 1
Is transported while being stirred by the first stirring roller 3 in the direction of the arrow 15, and is delivered to the second stirring roller 5 (not shown) and circulates when reaching the back side in the transport direction. At this time, the developer 2 is always maintained at an appropriate toner concentration by a toner concentration sensor 8 provided on the developing frame 1 so as to face the first stirring roller 3. A toner hopper 12 is provided on the upstream side in the developer conveying direction in the longitudinal direction of the first stirring roller 3. The toner hopper 12 supplies toner 14 into the developing device via a toner supply port 13 provided in the developing frame 1. The toner concentration sensor 8 is provided on the developing frame 1 downstream of the toner hopper 12 in the developer conveying direction and upstream of the longitudinal center of the developing device. When the toner 14 is replenished in the developing device, it takes a few seconds. The toner density sensor 8 can read the supplied toner as a change in output.

FIG. 3 is a diagram showing the driving of the developing device, the toner replenishment timing, and the output signal of the toner density sensor in the present invention. When the main motor 16 is turned on, the developing device is driven, and the output signal 1 of the toner density sensor 8 is output.
Get 7. When the output signal 17 is higher than a reference value 18 which is an output level voltage corresponding to an appropriate toner density,
When it is determined that the toner density is low, the toner hopper drive motor 19 is driven, and toner is supplied from the toner hopper into the developing device. This time is referred to as a toner supply time t1. When the toner replenished in the developing device reaches the toner density sensor, the output signal 17 starts to decrease corresponding to the high toner density. At this time, the toner density in the developer becomes the lowest immediately before the replenishment toner reaches the toner density sensor, and the output signal 17 takes the maximum output value Vmax. As the replenishment toner passes over the toner density sensor, the toner density in the developer increases and the output signal 17 decreases. Thereafter, as the replenishment toner passes, the toner density in the developer decreases and the output signal 17 again decreases. Rises. The time for stirring the supplied toner subsequent to the toner supply time t1 is referred to as a developer stirring time t2, and the total time of the toner supply time t1 and the developer stirring time t2 is referred to as a toner supply operation time t3. At this time, the developer stirring time t2 does not have to be set when it is not necessary to stir the supplied toner. The maximum output value of the output signal 17 during the toner supply operation time t3 is defined as Vmax. It is also possible to adjust the toner supply amount by changing the rotation speed of the toner supply drive motor within the toner supply time t1, or to make the toner supply time t1 variable in accordance with the document density and the toner consumption amount.

FIG. 4 is a diagram showing the output signal of the toner density sensor and the toner supply timing when a large number of high-density originals are copied in the present invention. When a large number of high-density originals are copied, toner supply for toner consumption cannot be made in time, and the output signal 17 of the toner density sensor remains higher than the reference value 18 even when continuous toner replenishment is performed. That is, the toner density becomes an under toner state. When the copy operation is completed, the maximum output value Vmax at the time of the last toner supply operation becomes the highest output value among the output signals 17 of the toner density sensor, and the toner supply when the manual toner supply switch is pressed after the copy operation is completed. Is a determination value as to whether or not to perform.

FIG. 5 is a diagram showing the output signal of the toner density sensor and the toner replenishment timing when the toner replenishment switch is pressed and the toner replenishment is performed.

Although the toner replenishment operation time t3 is two times and one set, the toner replenishment operation time t3 may be one set or a plurality of times. Further, the developer stirring time t2 may not be set unless it is necessary to stir the supplied toner. The maximum output value Vmax at the time of the toner supply operation is Vmax at the time of the last toner supply operation, and is a determination value as to whether or not toner supply is performed when the toner manual supply switch is pressed.

FIG. 6 is a diagram showing the output signal of the toner density sensor and the toner replenishment timing when the toner manual replenishment switch in the present invention is depressed and toner replenishment is not performed. Although toner supply is not performed, the maximum output value V
The reading of max is performed.

FIG. 7 shows the relationship between the output of the toner density sensor and the toner density and the set value of the toner manual replenishment determination voltage in the present invention. Although this is an example of the present invention, the output value of the toner density sensor is set to 2.5 V as a reference value with respect to the reference toner density of 3.5%, and the sensor sensitivity is -0.5 V /%. When the toner concentration is always controlled to 3.5 ± 0.5%, and toner is replenished for 0.2% of toner concentration by one manual toner supply, the set value of the toner manual replenishment determination voltage is the toner concentration. It can be set freely between 2.8% and 3.8%, and between 2.85V and 2.35V as the output value of the toner density sensor. However, usually 1
It is optimal to adjust the toner concentration to 3.5% with each manual toner supply. The set values of the manual toner supply judgment voltage are 3.3% for the toner concentration and 2.6V for the output value of the toner concentration sensor. It is better to match. This setting is
Needless to say, the value differs depending on the reference toner concentration, the sensor sensitivity, the amount of toner to be replenished in one toner manual replenishment operation, the manual toner replenishment method, the target toner concentration, and the like.

FIG. 8 is a flowchart showing the toner supply operation during the normal copy operation according to the present invention.

When copying is started by pressing the copy button, a toner density output is always obtained by the toner density sensor. At this time, if the output value of the toner density sensor is lower than the reference value, toner replenishment is performed, and the maximum output value Vmax at the time of the toner replenishment operation at that time is read. When the output value of the toner density sensor is not lower than the reference value, toner supply is not performed. This operation is repeated during the copy operation, and when the toner is supplied, the Vmax value is rewritten.

FIG. 9 is a flowchart showing the operation of the present invention when the manual toner supply switch is pressed. When the toner manual replenishment switch is turned on after copying is completed, the Vmax value is compared with the toner manual replenishment determination voltage. If the Vmax value is higher than the toner manual replenishment determination voltage, toner replenishment is performed. If not too high (low), only developer stirring is performed.
The stirring time at this time is the same time as when the toner is supplied. In either case, when Vmax is read and the manual toner supply switch is pressed again, it is determined whether toner supply is to be performed based on the Vmax value at this time.

FIG. 10 is another flowchart showing the operation of the present invention when the manual toner supply switch is pressed. Set the manual toner supply switch to O after copying is completed.
N, the Vmax value is compared with the toner manual replenishment determination voltage, and if the Vmax value is higher than the toner manual replenishment determination voltage, the number of toner replenishments within a certain specified value is determined from the difference between the Vmax value and the reference value. The toner is supplied a specified number of times, and at this time, Vmax is read. The Vmax value is compared with the toner manual replenishment determination voltage. If the Vmax value is not higher (lower) than the toner manual replenishment determination voltage, only the developer agitation is performed, and Vmax is read at this time. As a result, it is possible to adjust the toner concentration to be substantially stable by performing one manual toner supply operation. The specified value of the number of toner replenishments is 1
If toner equivalent to about 0.2% is replenished in each toner replenishing operation, the toner density increases by about 1% if the specified value is five times. If the specified value is set too large, the toner may be replenished endlessly in the event of a machine error. Therefore, about 1% is appropriate for the maximum toner density increase.

FIG. 11 is another flow chart showing the operation of the present invention when the manual toner supply switch is pressed. Set the manual toner supply switch to O after copying is completed.
If N, the Vmax value is compared with the toner manual replenishment determination voltage, and if the Vmax value is higher than the toner manual replenishment determination voltage, toner replenishment is performed, Vmax is read, and the read Vmax value becomes greater than the toner manual replenishment determination voltage. Is repeated until the toner is no longer high.
When the Vmax value is not higher (lower) than the toner manual replenishment determination voltage, only the developer agitation is performed, and Vmax is read. As a result, the toner concentration in the developing device is automatically adjusted to an appropriate toner concentration only by pressing the manual toner supply switch once.

FIG. 12 is a flowchart showing the operation of the present invention when the manual toner supply switch is depressed, in which the number of toner supply operations is limited in the example of FIG. When the number of toner replenishments is n, n is initially set to zero. When the manual toner supply switch is turned on after copying is completed, the Vmax value is compared with the manual toner supply determination voltage, and V
If the max value is higher than the toner manual replenishment determination voltage,
The toner supply is performed, Vmax is read, and 1 is added to the toner supply number n. If the number n of toner replenishments is smaller than the specified value X, toner replenishment is repeated until the read Vmax value does not become higher than the toner manual replenishment determination voltage. I'm trying to stop. If the Vmax value is not higher than the toner manual replenishment determination voltage, only developer stirring is performed and Vmax is read. When the manual toner supply switch is pressed again, the toner supply frequency n becomes zero. The value of the specified value X of the number of times of toner replenishment is as follows. Assuming that toner is replenished by about 0.2% in one toner replenishing operation, if the specified value X is five times, the toner density increases by about 1%. Become. If the specified value is set too large, the toner may be replenished endlessly in the event of a machine error. Therefore, about 1% is appropriate for the maximum toner density increase.

[0032]

As described in detail above, the claims of the present invention
The invention according to Item 1 provides a toner supply operation for each toner supply operation
By updating the maximum output value in time, the user can
When the manual toner supply unit is pressed, the toner
Instead of detecting the concentration, based on the maximum output value
The user decides whether or not to replenish the toner.
When the manual toner supply unit is pressed, the toner
It is possible to determine whether or not to supply
The interval can be as short as possible.

Further , the invention according to claim 2 of the present invention is characterized in that
When replenishing toner is instructed by the manual replenishing means,
Storing a second reference value that is higher than the first reference value;
By replenishing toner when the value of the means exceeds,
The toner concentration that increases with one toner supply
Over-toner.
Occurrence can be prevented.

The invention according to claim 3 of the present invention is characterized in that
The maximum output value within the toner supply operation time is
Update the second reference value which is higher than the first reference value.
When the value of the storage means exceeds, the value of the storage means
From the difference between the first reference value and the first reference value
The number of toner replenishments until
By pressing the toner manual replenishing means once, it becomes stable
The toner is automatically replenished until the toner concentration reaches
Saves the user from having to repeatedly press the manual toner supply means.
Can be

According to a fourth aspect of the present invention, a toner supplement is provided.
The maximum output value within the toner supply operation time is updated for each feeding operation
When the user presses the manual toner supply unit,
At that time, instead of detecting the toner density,
It is determined whether to supply toner based on the force value.
In addition, when toner is replenished, the toner
Updating the value of the storage means to the maximum output value of the supply operation time,
Toner supply until the value becomes lower than the second reference value
Is repeated by the instruction of the manual toner supply means.
Also in the case of toner supply, the maximum output value is
Update and determine whether to perform the next toner supply.
The latest toner concentration in the developing device can always be detected,
A stable concentration can be obtained. Claims of the invention
The invention according to claim 5 is characterized in that the toner supply operation is performed every time the toner supply operation is performed.
The maximum output value within the interval is updated, and the user manually supplies toner.
When the unit is pressed, the toner concentration is detected at that time
Instead of replenishing toner based on the maximum output value.
Is determined, and if toner is further supplied
To the maximum output value of the toner supply operation time at that time.
Updating the value of the storage means, and the value is made higher than the second reference value.
Repeat the toner replenishment until the low
By stopping toner supply when reaches the specified value,
Also in the case of toner replenishment by the instruction of the toner manual replenishment means,
The maximum output value is updated for each toner supply operation, and the next toner
To determine whether or not to supply
Can detect the toner concentration of
Can be There is also a limit on the number of toner replenishments
As a result, toner can be replenished
Can prevent the occurrence of over toner.
Wear. The invention according to claim 6 of the present invention is characterized by claim 2
In the invention according to any one of claims 5, the second reference value
Is changed to over toner with one toner replenishment.
Output higher than the output value indicating toner density that does not
Value, the toner that rises with one toner supply
-Make sure that the density is in the proper state or
Because it can be in the toner state,
-The occurrence of a state can be prevented.

When the value of the storage means is higher than the manual toner supply determination voltage value, the toner supply means is controlled so that toner supply is repeated until the value of the storage means becomes lower than the manual toner supply determination voltage value. At this time, a certain value is set for the total number of toner replenishment by manual toner replenishment, and when the total number of toner replenishment reaches this specified value, the toner replenishment is stopped. An effect is obtained that it is possible to prevent the toner from being replenished endlessly due to such a machine abnormality and becoming overtoner.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a developing device according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view illustrating a developer stirring and conveying device according to an embodiment of the present invention.

FIG. 3 is a diagram illustrating a toner supply operation according to the embodiment of the present invention.

FIG. 4 is a diagram showing a continuous toner supply operation according to the embodiment of the present invention.

FIG. 5 is a diagram showing a toner manual replenishing operation when toner replenishment is performed according to the embodiment of the present invention.

FIG. 6 is a diagram illustrating a toner manual replenishing operation in a case where the toner is not replenished and the developer is agitated according to the embodiment of the present invention.

FIG. 7 is a diagram showing the relationship between the toner density and the output of the toner density sensor according to the embodiment of the present invention.

FIG. 8 is a flowchart illustrating a toner supply operation according to an embodiment of the present invention.

FIG. 9 is a flowchart showing a manual supply operation according to the embodiment of the present invention.

FIG. 10 is a flowchart showing a manual supply operation according to another embodiment of the present invention.

FIG. 11 is a flowchart showing a manual supply operation according to another embodiment of the present invention.

FIG. 12 is a flowchart showing a manual supply operation according to another embodiment of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 developing frame 2 developer 3 first stirring roller 5 second stirring roller 7 developing roller 8 toner density sensor 10 doctor blade 11 photosensitive drum 12 toner hopper 13 toner supply port 14 toner

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Yoshihiro Komatsu 1006 Kazuma Kadoma, Kadoma City, Osaka Inside Matsushita Electric Industrial Co., Ltd. (56) References JP-A-61-215570 (JP, A) JP-A-63- 43186 (JP, A) JP-A-64-35577 (JP, A) JP-A-7-32657 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) G03G 13/08-13 / 095 G03G 15/08-15/095

Claims (6)

(57) [Claims] 1. A toner for detecting a toner density in a developing device.
Density detecting means, and a toner supply means for supplying toner into the developing device.
Toner supply means and the output value of the toner density detection means.
When the value exceeds the reference value, toner is supplied to the toner supply unit.
To control the toner concentration to maintain a constant toner concentration
And the maximum within the toner supply operation time for each toner supply operation.
Storage means for reading output values and updating the values,
A manual toner replenishing means for instructing toner replenishment;
-When there is an instruction from the manual replenishment means, the
Control means for determining whether to supply toner based on the
Equipped electrophotographic recording device. 2. A toner for detecting a toner density in a developing device.
Density detecting means, and a toner supply means for supplying toner into the developing device.
Output values of the toner supply means and the toner concentration detection means
When the value exceeds the reference value of 1, the toner supply means
-Toner concentration to maintain replenishment and maintain a constant toner concentration
Control means, and within the toner supply operation time for each toner supply operation
Storage means for reading the maximum output value of the
A manual toner replenishing unit for instructing toner replenishment
When the instruction of the manual toner replenishing means is issued, the first reference
The second reference value that is higher than the value
Control means for replenishing the toner when it exceeds
Electrophotographic recording device. 3. A toner for detecting a toner density in a developing device.
Density detecting means, and a toner supply means for supplying toner into the developing device.
Output values of the toner supply means and the toner concentration detection means
When the value exceeds the reference value of 1, the toner supply means
-Toner concentration to maintain replenishment and maintain a constant toner concentration
Control means, and within the toner supply operation time for each toner supply operation
Storage means for reading the maximum output value of the
A manual toner replenishing unit for instructing toner replenishment
When the instruction of the manual toner replenishing means is issued, the first reference
The second reference value that is higher than the value
If it exceeds, the value of the storage means and the first reference value
Toner replenishment cycle until the toner concentration becomes stable from the difference
Control means for obtaining the number and supplying toner.
Child photo recorder . 4. The control means receives an instruction from the manual toner supply means.
A second criterion that is higher than the first criterion value
When the value of the storage means exceeds the value, toner supply is performed.
The maximum output of the toner supply operation time at that time
The value of the storage means is updated to a value, and the value is stored in the second base.
The feature is that toner supply is repeated until it becomes lower than the reference value.
The electrophotographic recording device according to claim 2. 5. The control means receives an instruction from the manual toner supply means.
A second criterion that is higher than the first criterion value
When the value of the storage means exceeds the value, toner supply is performed.
The maximum output of the toner supply operation time at that time
The value of the storage means is updated to a value, and the value is stored in the second base.
Repeat the toner replenishment until the toner becomes lower than the reference value.
Stop toner supply when the number of replenishments reaches the specified value.
The electrophotographic recording apparatus according to claim 2, wherein: 6. A method according to claim 1, wherein the second reference value is a toner value in one toner supply.
-Make sure that the toner concentration is
The output value is higher than the indicated output value.
An electrophotographic recording apparatus according to any one of claims 2 to 5.
Place.