JP2525173B2 - Toner recovery device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a toner collecting device, and more particularly to a toner collecting device for collecting toner removed from a photoconductor in an image forming apparatus such as an electrostatic copying machine.

<Prior Art> Generally, an image forming apparatus such as an electrostatic copying machine is equipped with a toner collecting device for collecting the toner removed from the surface of the electrophotographic photosensitive member. Such a toner collecting device includes a toner collecting container that is detachably mounted at a collecting position of the device. When the toner is collected in the toner collecting container as required, the toner collecting container and the collected toner (or only the collected toner are collected). ) Is to be discarded.

The toner collecting device as described above is further provided with a container detecting unit and a collected toner detecting unit in association with the toner collecting container. The container detecting means can be composed of, for example, a mechanical micro switch, and detects whether or not the toner collecting container exists at a predetermined collecting position. Further, the collected toner detecting means can be composed of, for example, an optical detector including a combination of a light emitting element and a light receiving element, and detects whether or not a predetermined amount of toner is collected in the toner collecting container.

However, in the conventional toner collecting device described above,
The existence of the toner recovery container and the amount of the recovered toner are detected by separate dedicated detection means, that is, the container detection means and the recovery toner detection means, which causes a problem that the apparatus becomes complicated and expensive.

<Object of the Invention> The present invention has been made in view of the above facts, and its main purpose is to reliably detect the presence of a toner recovery container and the amount of toner recovered with a small number of detection means.
An object is to provide an excellent toner recovery container.

<Summary of the Invention> According to the present invention, there is provided a toner recovery device comprising a toner recovery container for recovering toner at a predetermined recovery position, and an optical detection means composed of a combination of a light emitting element and a light receiving element; The container has a container body for containing recovered toner, and the container body is provided with a detected portion formed of a translucent material. When the toner recovery container is moved to the predetermined recovery position, the detected object is detected. A portion is positioned between the light emitting element and the light receiving element, and the optical detection means is based on the transmittance of the detected portion of the container body and the transmittance of the toner collected in the container body, When the toner collecting container is located at the predetermined collecting position and there is no collected toner in the detected portion, the light from the light emitting element is partially blocked by the detected portion,
As a result, the optical detecting means generates a normal signal, while when the toner collecting container is located at the predetermined collecting position and the collected toner is present in the detected portion, the light from the light emitting element emits light. Virtually all of the collected toner present in the detected portion is blocked, whereby the optical detection means generates an overflow signal, and when the toner collecting container is not in the predetermined collecting position, the light emitting element emits light. There is provided a toner collecting device characterized in that substantially all the light is received by the light receiving element, whereby the optical detecting means generates the unmounted signal.

<Preferred Specific Example of the Invention> A specific example of the toner recovery device configured according to the present invention will be described below with reference to the accompanying drawings. Note that, although the specific example is described by applying to an electrostatic copying machine, the present invention can be similarly applied to other image forming apparatuses.

In FIG. 1 showing a part of an electrostatic copying machine, the electrostatic copying machine shown in the drawing has a bottom wall 2 and a bottom wall 2 which are spaced apart from each other in the front-rear direction (left-right direction in FIG. 1, vertical direction in FIG. 2). A front substrate 4 and a rear substrate (not shown) extending upward from 2 are provided, and a front cover 6 is attached to the front end portion of the bottom wall 2 so as to be openable and closable around the lower end portion (FIG. 1 shows the front cover). 6 shows the state when 6 is in the closed position covering the front surface of the front substrate 4).
Although not shown between the front substrate 4 and the rear substrate (not shown), a rotary drum on the peripheral surface of which an electrostatic photosensitive member is disposed, and an electrostatic latent image formed on the photosensitive member surface of the rotary drum. A developing device for developing the toner image into a toner image, a cleaning device for removing the residual toner remaining on the surface of the photoconductor after the toner image is transferred, and the like are mounted as required.

In the illustrated electrostatic copying machine, the toner removed by the cleaning device is collected in the toner collecting container 8. Referring also to FIG. 2, the cleaning device includes toner transfer means 10. The toner transfer means 10 shown in the drawing is disposed in the hollow cylindrical body 12 and a hollow cylindrical body 12 that extends forward (to the left in FIG. 1 and downward in FIG. 2) from a cleaning device main body (not shown). A spiral transfer member (not shown) is provided. The hollow cylindrical body 12 penetrates the front substrate 4 and projects forward, and a toner discharge port (not shown) is formed at the bottom of the projecting end. Therefore, the toner removed from the photoconductor by the action of the cleaning device is transported in the direction indicated by the arrow 14 by the action of the spiral transport member (not shown), and is discharged downward through the toner discharge port.

On the other hand, the toner collecting container 8 has a container body 16 formed of, for example, a semitransparent synthetic resin material, and has a mouth portion at its upper end.
18 are provided. In a specific example, the toner collecting container 8 is configured to be detachably attached to a container support 22 supported via a support mechanism 20. More specifically, the container support 22 includes a rectangular bottom wall 24 on which the container body 16 is placed, and a side wall 26 fixed to a side edge of the bottom wall 24.
A pair of channel-shaped strip-shaped members 30 are provided which are arranged at intervals in the vertical direction and whose both ends are attached to both ends of the side wall 26 by mounting screws 28, and define a storage space whose upper surface is open. Further, the support mechanism 20 includes a support member 32, and the support member 32 is mounted on the front surface (outer surface) of the front substrate 4 and the support protrusions 36 projecting forward at the upper and lower ends of the mounting body portion 34. And 38. Side wall of container support 22
A connecting member 40 is mounted on the connecting member 26, and a pair of protrusions 42 (only one of which is shown in FIG. 2) provided on the connecting member 40 are rotatably connected via a connecting pin 44. With this structure, the container support 22 can be moved to the take-out position shown by the solid line in FIG. 2 by rotating in the direction shown by the arrow 46 (FIG. 2). At such a take-out position, the container support 22 is projected forward, and the toner recovery container 8 is located at a portion where the upper side is opened (in other words, the various constituent elements of the electrostatic copying machine are substantially disposed above the toner recovery container 8). It is located in a part that does not exist. Therefore, as will be easily understood, by grasping the container body 16 and lifting it up, the toner recovery container 8 can be detached from the container support 22, and the container body 16 is accommodated from above. By placing it on the bottom wall 24,
The toner recovery container 8 can be attached to the container support 22. On the other hand, the container support 22 can be swung in the direction shown by the arrow 48 (Fig. 2) to the storage position shown in Fig. 1 and shown by the chain double-dashed line in Fig. 2. In the specific example, the support protrusions 36 and 38 of the support member 32 are
Is provided with a stop piece 50 (FIG. 1) with which the pair of protrusions 42 provided on the connecting member 40 can abut, and therefore,
When the pair of protrusions 42 come into contact with the stop piece 50, the turning motion beyond the storage position is reliably prevented. In this storage position, the container support 22 is rotated about 90 degrees from the extraction position and extends along the front substrate 4, and the toner recovery container 8 is moved to a predetermined recovery position (see FIG. It is located at the position indicated by the two-dot chain line in FIG. 2). At the predetermined recovery position, the toner recovery container 8 is the front substrate 4 in the hollow cylindrical body 12 of the toner transfer means 10.
The toner discharge port (not shown) provided in the hollow cylindrical body 12 and the opening 52 (FIG. 5) in which the opening 18 of the toner collecting container 8 is defined are located below the protruding portion protruding from the upper and lower sides. Aligned in direction. Therefore, the upward movement of the container body 16 is prevented by the mouth portion 18 coming into contact with the hollow cylindrical body 12,
Therefore, it becomes substantially impossible to detach the toner recovery container 8 from the container support 22. In addition, an arrow is formed by the action of a spiral moving member (not shown) that is removed from the photoconductor.
The toner transferred in the direction indicated by 14 passes through the toner discharge port of the hollow cylinder 12 and the opening 52 defined in the opening 18 of the container body 16 and is collected in the toner recovery container 8 as required.
In addition, in relation to the support mechanism 20, it is preferable to additionally provide a biasing means such as a biasing spring that biases the container support 22 toward the storage position.

An optical detecting means 54 is further provided in association with the toner collecting container 8 described above. The optical detection means 54 is composed of a combination of a light emitting element 56 and a light receiving element 58 for receiving light from the light emitting element 56, and a support 60 mounted on the front surface of a required portion of the front substrate 4 corresponding to the recovery position. Installed on. On the other hand, in connection with this optical detection means 54, the container body
The upper end of 16 is provided with a protrusion 62 that constitutes a detected portion. The inside of the protrusion 62 is hollow and communicates with the inside of the container body 16, and the toner collected in the container body 16 is allowed to flow into the inside of the protrusion 62. In the specific example, the protrusion 62 is integrally formed with the container body 16 from a translucent synthetic resin material. The protruding portion 62 of this street is the second
As shown by the chain double-dashed line in the figure, when the toner recovery container 8 is moved to the predetermined recovery position, the light emitting element 56 of the optical detection means 54 is detected.
And the light receiving element 58.

The optical detecting means 54 described above includes a detecting circuit as shown in FIG. With reference to FIG. 3, the light emitting element 56 can be composed of, for example, a light emitting diode 64, and one terminal of the light emitting diode 64 is connected to the terminal B.
This terminal B is connected to a power source (not shown). The other terminal of the light emitting diode 64 is connected to one terminal of each of a first resistor 66 and a second resistor 68 arranged in parallel with each other. In the specific example, the resistance value of the first resistor 66 is small, and the resistance value of the second resistor 68 is significantly larger than that of the first resistor 66. Further, the other terminal of the first resistor 66 is connected to the collector of the transistor 70. The base of this transistor 70 is connected to terminal A,
A diagnostic signal described later is supplied to this terminal A. Therefore, when a current is supplied to the base of the transistor 70, the transistor 70 becomes conductive, so that the resistance value of the first resistor 66 is significantly higher than that of the second resistor 68. Because of its small size, the light emitting diode 64 and the first resistor
Substantially flowing through 66, the light emitting diode 64 is in a first light emitting state in which it emits a relatively strong light. In contrast, when substantially no current is delivered to the base of transistor 70, transistor 70 is non-conducting, so that current from the power source substantially flows through light emitting diode 64 and second resistor 68, The light emitting diode 64 is in a second light emitting state in which light is emitted relatively weakly.

The light receiving element 58 can be composed of, for example, a phototransistor 72, and the emitter of the phototransistor 72 is connected to the base of the transistor 74. The collectors of the phototransistors 72 and 74 are connected to the base of the transistor 76, and the base of the transistor 76 is connected to the terminal C via the resistors 78 and 80. The emitter of the transistor 76 is also connected to the terminal C, and the collector thereof is connected to the terminal D. The terminal C is
It is connected to a power supply (not shown). With this configuration, when the base of the phototransistor 72 receives light, the phototransistor 72 becomes conductive, and the transistor 74 becomes conductive. Then, the transistor 76 also becomes conductive, and a current flows through the transistor 76 to the terminal D.

In such a toner recovery device, the container body 16
Since the protrusion 62 provided on the container is formed of a translucent material, the transmittance of the protrusion 62 and the container body
The presence / absence of the protrusion 62 and the presence / absence of the recovered toner are detected based on the transmittance of the toner collected in the section 16. In relation to this, in the specific example, when the protrusion 62 does not exist between the light emitting diode 64 and the phototransistor 72, substantially all the light from the light emitting diode 64 is received by the phototransistor 72. When the protrusion 62 is located between the two, a part of the light from the light emitting diode 64 is received by the phototransistor 72,
Further, when the collected toner is present on the protrusion 62 located between them, substantially all the light from the light emitting diode 64 is blocked and is not received by the phototransistor 72.

Next, mainly referring to FIG. 4, FIG. 5-A to FIG. 5-C, and FIG. 6-A to FIG. 6-C together with FIG. 3, the presence of the protrusion 62 by the optical detecting means 54. Detection of presence / absence of the toner and presence / absence of collected toner will be described.

In a specific example, the terminal A in FIG.
A diagnostic signal as shown is provided. That is, the diagnostic signal has an H signal having a high output level and an L signal having a low output level, and the H signal and the L signal are alternately sent in the periods t ₁ and t ₂ . When the H signal of the diagnostic signal is sent to the terminal A, the output level of the H signal is high, so that the transistor 70 becomes conductive. Thus, the current from the power supply (not shown) substantially flows through the light emitting diode 64 and the first resistor 66, so that the light emitting diode 64 emits a relatively strong first light emission state during the period t ₁ . become. On the other hand, when the diagnostic signal L is sent to the terminal A, the transistor 70 is turned off because the output level of the diagnostic signal L is low.
This allows current from the power supply to substantially flow through the light emitting diode 64 and the second resistor 68, and
In the period t ₂ , the light emitting diode 64 enters the second light emitting state in which light is emitted relatively weakly.

In relation to the light emitting state of the light emitting diode 64 as described above, the phototransistor 72 corresponds to various states and is connected to the sixth-A
The light is received as shown conceptually in Figures 6-C, and the optical detection means 54 produces signals as shown in Figures 5-A to 5-C.

As shown in FIG. 6-A, the light emitting diode 64 (light emitting element
56) and the phototransistor 72 (light receiving element 58) do not have the protrusion 62 provided on the container body 16 (in other words, when the toner recovery container 8 is not attached to the container support 22, or When the toner recovery container 8 is mounted on the container support 22 but the toner recovery container 8 is not positioned at a predetermined recovery position), there is nothing between them to block the light from the light emitting diode 64. , Substantially all of the light from the light emitting diode 64, that is, all of the light in the first light emitting state (shown by the solid arrow) and the light in the second light emitting state (shown by the broken arrow) are received by the phototransistor 72. To be done. Therefore, the phototransistor 72 is
At t ₁ and period t ₂ , it becomes conductive, which also makes the transistors 74 and 76 conductive (FIG. 3). Thus, the output signal as shown in FIG. 5-A from the terminal D through the transistor 76, that is, H during the period t ₁ and the period t ₂ .
An unattached signal that is a signal is output.

On the other hand, as shown in FIG. 6-B, the protrusion 62 provided on the container body 16 is located between the light emitting diode 64 (light emitting element 56) and the phototransistor 72 (light receiving element 58) (specifically, When the toner collecting container 8 is located at a predetermined collecting position and the toner is not collected up to the protruding portion 62),
Since the projection 62 is present between them, a part of the light from the light emitting diode 64 is blocked, that is, the light in the first light emitting state which emits relatively intense light passes through the projection 62 and passes through the phototransistor 72. Although the light is received by the phototransistor 72, the light in the second light emitting state, which emits light relatively weakly, is not blocked by the protrusion 62 and is not received by the phototransistor 72. Therefore,
The phototransistor 72 becomes conductive in the period t ₁ ,
While the H signal is output from the terminal D in such a conductive state, the phototransistor 72 becomes nonconductive in the period t ₂ , and as can be easily understood from FIG. 3, the transistor 76 is substantially nonconductive. Then, the L signal is output from the terminal D. Thus, through the transistor 76, the output signal as shown in FIG. 5-B from the terminal D, that is, the H signal of the diagnostic signal (that is, in the period t ₁ ) becomes the H signal and corresponds to the L signal of the diagnostic signal. A normal signal that becomes the L signal is generated (that is, in the period t ₂ ).

Further, as shown in FIG. 6-C, the toner is collected up to the protrusion 62 located between the light emitting diode 64 (light emitting element 56) and the phototransistor 72 (light receiving element 58) (specifically, toner recovery The toner is collected until the container 8 is located at a predetermined collecting position and the toner collecting container 8 is substantially full), and since there is collected toner between both of them, the light emitting diode 64 Virtually all of the light from is blocked by the collected toner, that is, neither the light in the first light emitting state nor the light in the second light emitting state is received by the phototransistor 72. Therefore,
In such a state, the phototransistor 72 becomes non-conductive during the periods t ₁ and t ₂ , so that the transistor 76 is also kept substantially non-conductive. Thus, from the terminal D, the output signal as shown in FIG.
An overflow signal that becomes an L signal is output in t ₁ and the period t ₂ .

When the optical detecting means 54 generates the non-mounting signal or the overflow signal, it is preferable to stop the operation of the electrostatic copying machine based on the non-mounting signal or the overflow signal.

As described above, in the toner collecting apparatus in the specific example, the light emitting element 56 is in the first light emitting state in which light is emitted relatively strongly and in the second light emitting state in which light is emitted relatively weakly, which is related to the first light emitting state. To detect the presence of collected toner,
Further, since the presence or absence of the protrusion 6 provided on the container body 16 is detected in relation to the second light emitting state, the presence of the toner collecting container and the amount of collected toner (collected toner), which are conventionally detected separately, are detected. Whether or not a predetermined amount is collected, which is substantially full), can be detected as required by using one optical detecting means 54 including a combination of the light emitting element 56 and the light receiving element 58. The configuration can be simplified and the manufacturing cost can be reduced.

Although one specific example of the toner recovery device configured according to the present invention has been described above, the present invention is not limited to this specific example, and various modifications and corrections can be made without departing from the scope of the present invention. Is.

[Brief description of drawings]

FIG. 1 is a sectional view showing a part of an electrostatic copying machine equipped with a toner recovery device according to the present invention. 2 is a plan view showing a part of the electrostatic copying machine of FIG. 1 in a sectional view. FIG. 3 is a circuit diagram showing a detection circuit of optical detection means in a specific example of the toner recovery device according to the present invention. FIG. 4 is a diagram showing a diagnostic signal sent to a terminal D of the detection circuit of FIG. FIGS. 5-A to 5-C are output signals when the detected portion of the toner collecting container does not exist between the light emitting element and the light receiving element of the optical detecting means, respectively, and the toner collecting between the both. FIG. 5 is a diagram showing an output signal when a detected portion of the container exists and an output signal when collected toner exists between the both. 6-A to 6-C respectively show a state in which the detected portion of the toner recovery container does not exist between the light emitting element and the light receiving element of the optical detecting means, and the toner recovery container between the both. 6A and 6B are diagrams schematically showing a state in which the detected portion of FIG. 1 exists and a state in which the collected toner exists between the both. 8 ... Toner collection container 10 ... Toner transfer means 16 ... Container body 20 ... Support mechanism 22 ... Container support 54 ... Optical detection means 56 ... Light emitting element 58 ... Light receiving element 62 ... Projection (Detected part)

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Claims (5)

(57) [Claims] 1. A toner recovery device comprising a toner recovery container for recovering toner at a predetermined recovery position, and an optical detection means composed of a combination of a light emitting element and a light receiving element; the toner recovery container stores the recovered toner. Has a container body, and the container body is provided with a detected portion formed of a translucent material. When the toner collecting container is brought to the predetermined collecting position, the detected portion becomes the light emitting element. Positioned between the light receiving element and the optical detection means, based on the transmittance of the detected portion of the container body and the transmittance of the toner collected in the container body,
When the toner collecting container is located at the predetermined collecting position and there is no collected toner in the detected portion, the light from the light emitting element is partly blocked by the detected portion, whereby the optical The detecting means generates a normal signal, and when the toner collecting container is located at the predetermined collecting position and the collected toner is present in the detected portion, the light from the light emitting element is present in the detected portion. Substantially all are blocked by the recovered toner, which causes the optical detection means to generate an overflow signal, and when the toner recovery container is not in the predetermined recovery position, substantially all of the light from the light emitting element. The toner collecting device is characterized in that it is received by the light receiving element, and thereby the optical detecting means generates the non-mounting signal. 2. The light emitting element repeatedly performs a first light emitting state in which light is emitted relatively strongly and a second light emitting state in which light is emitted relatively weakly, and the optical detecting means is set to the first light emitting state. Relatedly, it is detected whether or not the collected toner is present between the light emitting element and the light receiving element, and the container main body is provided between the light emitting element and the light receiving element in relation to the second light emitting state. The toner recovery device according to claim 1, which detects whether or not the detected portion is present. 3. The first and second light-emission states of the light-emitting element when the detected portion of the container body does not exist between the light-emitting element and the light-receiving element. The unattached signal is generated in association with the light in the state being received by the light receiving element, and when the detected portion is present between the light emitting element and the light receiving element, First
The light in the light emitting state is received by the light receiving element, but the light in the second light emitting state is substantially not received by the light receiving element to generate the normal signal, and the light emitting element and the light receiving element In relation to that the light in the first light emitting state and the second light emitting state of the light emitting element is not substantially received by the light receiving element when the detected portion and the collected toner are present between The toner recovery device according to claim 2, which generates the overflow signal. 4. A first resistor having a small resistance value and a second resistor having a significantly larger resistance value than the first resistor are arranged in parallel and connected to the light emitting element, and the light emission is performed. The element is
When a current substantially flows through the first resistor, the first
4. The toner collecting device according to claim 2, wherein the toner collecting device is in the second light emitting state when a current substantially flows through the second resistor. 5. The toner recovery container is removably mounted on a container support, and the container support is a storage position for positioning the toner recovery container at the predetermined recovery position and an ejection for allowing the toner recovery container to be removed. The toner recovery device according to any one of claims 1 to 4, which is movable between the position and the position.