JPH0568699B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a toner replenishing device used in an electrostatic copying apparatus that performs dry development.

Structure of conventional example and its problems In an electrostatic copying apparatus using two-component toner, a developing process is required to make a visible image by depositing charged toner on a photoreceptor drum. Toner is sequentially consumed from the developing section, which contains carriers mixed at a fixed ratio. For this reason, a toner replenishing device is used which provides a separate toner storage section and replenishes toner from this storage section into the developer container as the amount of toner in the developer container decreases.

However, in conventional toner replenishment devices, an opening of an appropriate size is provided at the bottom of a deep hopper, a sponge roller or a grooved roller is placed in the opening, and the roller is rotated by a certain amount. A fixed amount of toner in the hopper is replenished into the developing container, but since the toner itself has the property of being easily solidified and easily adhering, the toner may solidify in the hopper, or the toner may become hollow in the hopper. There were problems such as no longer occurring. One way to solve this problem is to arrange two screw shafts in parallel, install a partition plate between them, and circulate the toner between the two screw shafts. There has been a problem in that the toner is not smoothly transferred from the tip of the shaft to the other screw shaft, and the toner is compacted at the toner feeding tip of the screw shaft. Furthermore, since the toner is compacted at the edges, there are other problems such as toner lumps occurring and the driving load of the screw shaft becoming abnormally large.

OBJECTS OF THE INVENTION The present invention aims to eliminate the drawbacks of the conventional examples described above, and provides a toner replenishing device that does not cause solidification of toner and replenishes toner stably.

Structure of the Invention In order to achieve the above object, the present invention includes a first storage portion having a toner filling opening at the upper part, a first screw coil that transfers toner in one direction, and a first screw coil that transfers toner in one direction. is placed opposite the
a second screw coil that transfers toner in a direction opposite to the above direction; a rotating shaft that rotates coaxially and integrally with the first and second screw coils; and a rotating shaft that rotates coaxially and integrally with the first and second screw coils; A second storage section that includes a rotating blade provided at the tip of the rotating shaft in the toner feeding direction and a replenishment roller in order to transfer the toner transferred by the U-coil in a direction perpendicular to each other. The lower opening of the first storage section is connected to a part of one screw coil disposed in the second storage section, and one screw coil disposed opposite to the second screw coil. The opening includes both of the rotating blades, and a regulating member for regulating the inflow of toner is disposed above the screw coil in the bottom opening of the first storage section.

DESCRIPTION OF EMBODIMENTS The present invention will be described below based on illustrated embodiments.

FIG. 1 is an overall perspective view of a toner replenishing device according to the present invention, FIG. 2 is a cross-sectional plan view taken along line A-A, FIG. 3 is a cross-sectional plan view taken along line B-B, and FIG. 4 is a cross-sectional plan view taken along line C-C. A line cross-sectional view is shown.

In those figures, 1 has magnetic toner 2 inside.
The hopper is equipped with a toner refill opening and has a vertical first storage section 1a and a horizontal second storage section 1.
It is composed of b. 3 is a rotary lid for opening and closing the toner filling opening on the first storage portion 1a of the hopper; 4;
is an upper lid that seals the second storage section 1b of the hopper 1. Reference numeral 5 denotes a right-handed helical screw coil, one end of which is press-fitted into a boss 6, and the other end fitted into an impeller-shaped sleeve 7 having four protrusions on its outer periphery, as shown in FIG. There is. The boss 6 and the sleeve 7 are fixed to a rotating shaft 8 whose both ends are rotatably supported on the side wall of the second storage portion 1b.
It is adapted to rotate integrally with the screw coil 5. 9 indicates an oil seal. Reference numeral 10 denotes a rectangular plate-shaped rotary blade made of an elastic material such as rubber or plastic, whose one end is fixed to one side of the rotating shaft 8 with a screw or the like, and when the other end rotates, the second storage portion 1
It has a length that reaches the bottom wall of b, and is configured to scoop up the magnetic toner 2 at the bottom. The rotating shaft 8 is rotated counterclockwise by a drive system to be described later, so that the screw coil 5 transports the magnetic toner in the direction of arrow D. Here, the outer diameter of the rotating shaft 8 is smaller than the inner diameter of the screw coil 5, and a gap is provided between the rotary shaft 8 and the screw coil.

Similarly, 11 is a left-handed helical screw coil, 12 is a boss, 13 is a sleeve, 14 is a rotating shaft, 15 is a rotating blade, and the above-mentioned screw coil 5, boss 6, sleeve 7, rotating shaft 8, It has exactly the same configuration as the rotating blade 10, and is arranged in the opposite direction. The rotating shaft 14 is rotated counterclockwise by a drive system, which will be described later, so that the screw coil 11 transports the magnetic toner in the direction of arrow E. Therefore, when the rotating shafts 8 and 14 rotate counterclockwise, the magnetic toner is transported in the directions of arrows D and E by the screw coils 5 and 11, respectively. At the same time, since the rotating blades 10 and 15 disposed at the opposite end are also rotating, D
The magnetic toner sent in the direction of arrow F is transferred by the rotating blade 10 in the direction of arrow F, and the magnetic toner sent in the direction of E is transferred by the rotating blade 15 in the direction perpendicular to the direction of arrow G. It is handed over to 5.

As described above, since the magnetic toner is transferred while being stirred by the screw coil and the rotary blade in the second storage section 1b, it is possible to prevent the magnetic toner from solidifying in the hopper.

Providing a gap between the screw coil and the rotating shaft to give fluidity to the magnetic toner even between one pitch of screw coils also has a more effective effect.

Reference numeral 16 denotes a replenishment roller, which is rotatably disposed parallel to the screw coil and approximately at the bottom of the second storage section 1b. In this embodiment, a recess corresponding to the length of the replenishment roller 16 is formed at the bottom between the screw coils, and a slight gap is provided between the screw coil and the replenishment roller. A slit-like opening or a plurality of elongated openings H for supplying magnetic toner to a developing device (not shown) is formed in this recess.

As shown in FIG. 5, magnets 17 such as rubber magnets are provided along the entire length of both shoulders of this recess. The magnet 17 is an anisotropic type permanent magnet, magnetized N-S in the thickness direction, and is arranged so that the concentration of magnetic lines of force is located on the replenishment roller 16 side, as shown in FIG. be. Therefore, the supply roller 16
A magnetic curtain is formed between the magnet 17 and the magnet 17 due to the concentration of magnetic lines of force, and the magnetic toner is attracted to the magnet 17 and forms a seal between the magnetic toner and the replenishment roller 16, preventing leakage to the developer side. do not have.

The replenishment roller 16 has a flat portion 16a formed by cutting out a part of its outer circumference in the axial direction, and when the replenishment roller 16 rotates once, a magnet 17 is attached to the flat portion.
The magnetic toner adhering to the toner is scraped off and dropped through the opening H at the bottom of the recess, and is replenished to the developing device.

By disposing anisotropic type magnets in which magnetic lines of force are concentrated at the tip on both shoulders of the bottom concave portion of the second storage section 1b facing the replenishment roller, the magnetic force is released from the gap between the replenishment roller and the replenishment roller by the action of the magnetic force lines. Natural falling of the toner can be prevented, and furthermore, by increasing the magnetic force, the gap between the replenishment roller and the inner wall of the recess can be designed to be large, so that it is possible to prevent the inability to replenish magnetic toner due to an increase in the rotational load of the replenishment roller 16.

18 is a gear pivotally supported by the rotating shaft 8, 19 is a gear pivotally supported by the rotating shaft 14, and power from a drive source (not shown) is driven via a driving gear 20 and a transmission gear 21. There is. 22 is an intermediate gear that transmits the rotation of gear 19 to gear 18;
It is rotatably supported on the shaft of the supply roller 16. 23 is pivotally supported by the shaft of the replenishment roller 16, and power from a drive source (not shown) is transmitted through a drive gear 24. The supply roller 16 is normally controlled by a control system to rotate clockwise and to stop after each rotation. Note that the rotation may be stopped every several rotations depending on the amount of replenishment, and this can be selected freely.

Reference numeral 25 denotes a sensor for detecting the remaining amount of magnetic toner. In this embodiment, an electrostrictive vibrator is used, and the sensor 25 is arranged on the inner wall of the second storage section 1b with the sensor surface facing inward.

26 is a diaphragm made of elastic material such as plastic such as polyester film, rubber, metal plate, etc.
It is arranged close to the sensor 25.

As shown in FIG. 7, the diaphragm 26 has a bent piece 26
A is formed, one side is attached to the sensor 25 via a sponge seal 27, and a bent piece 26a is slidably engaged with the screw coil 5. Note that the diaphragm 26 may be directly attached without using the sponge seal 27.

When the screw coil 5 rotates, the bending piece 26
a is bent in the direction of arrow D. However, when the screw coil 5 rotates further, the engagement is disengaged and returns in the direction of arrow E by elastic force, and this operation is repeated while the screw coil 5 rotates. Therefore, the diaphragm 26 vibrates periodically, and this vibration is transmitted to the sensor 25.
is transmitted, and the magnetic toner adhering to the sensor surface is repelled. This action removes the magnetic toner adhering to the sensor surface, eliminating the problem of the sensor detecting the presence of magnetic toner even though there is almost no magnetic toner in the hopper due to adhesion of magnetic toner. Ru. Therefore, the sensor stably performs the remaining amount detection operation, and the problem of a decrease in image density due to insufficient supply of magnetic toner can be prevented.

Reference numeral 28 denotes a regulating sheet such as a plastic film made of polyester or the like or a thin plate, which is disposed on the inner wall of the first storage portion 1a of the hopper 1. The lower opening of the first storage section 1a that communicates with the second storage section 1b is connected to the rotation shaft 1.
The screw coil 5 has a width corresponding to one end of the screw coil 5 and the rotating blade 15 fixed to the magnetic toner inlet side end of the magnetic toner 4. The regulation sheet 28 is the second
As shown in the figure, the length is such that it covers almost all of the screw coil 5 in the diametrical direction from the right end of the opening of the first storage section 1a, and has a width slightly narrower than the width of the first storage section.

This regulation sheet 28 prevents the magnetic toner in the first storage section 1a from being directly transferred by the screw coil 5.

Here, the function of the regulation sheet 28 will be further explained using FIG. 8. FIG. 8 is a diagram showing the relationship between the amount of magnetic toner and the drive load torque of the rotating shafts 8 and 14. The curve A shows the case without the regulation sheet 28, and the curve B shows the case with the regulation sheet 28. It shows. As is clear from the figure, in the case of curve A, the amount of magnetic toner in hopper 1 is 200g.
When the amount increases, the load torque increases rapidly, and 500
When it comes to g, it exceeds 9Kg-cm. This is because the magnetic toner that has been agitated and transferred by the rotating blade 15 is delivered to the right screw coil 5 in the perpendicular direction even though there is a sufficient amount of magnetic toner in the second storage section 1b. The screw coil 5 directly connects the first storage section 1
This is because in order to send the magnetic toner inside a to the back side, the magnetic toner is compressed and a large force is required for feeding. On the other hand, when the regulation sheet 28 is disposed above the screw coil 5, the screw coil 5 only needs to feed the magnetic toner that is transferred by the rotary blade 15, so the load torque is not large as shown by the curve B. Does not increase.

Next, the operation of the above embodiment of the present invention will be explained.

When the rotating lid of the hopper 1 is opened and the magnetic toner 2 is stored in the first storage portion 1a, and a drive source (not shown) is driven, the rotating shafts 8 and 14 are rotated counterclockwise.

The magnetic toner 2 is sent into the screw coil 5 by the rotating blade 15. The magnetic toner is moved in the direction of arrow D by the screw coil 5, and when it reaches the rotating blade 10, it is sent in the direction of arrow F. The magnetic toner that has reached the boss 12 is sent in the direction of arrow E by the rotation of the screw coil 11.

Due to the above abnormal operation, the magnetic toner is stored in the second storage section 1b.
It is stored in the second storage section 1b and constantly circulates in the second storage section 1b. The magnetic toner placed in the first storage section 1a moves to the second storage section 1b, but when a predetermined amount is reached, the magnetic toner moves in the direction of arrow G and moves to the toner regulating sheet 28 and the second storage section 1b. The size surrounded by the bottom of part 1b is the size of the inlet,
Magnetic toner exceeding a predetermined amount does not enter the screw coil 5. When replenishing the magnetic toner 2, move the drive source (not shown) and connect the connecting gear 2.
3 and 24 to rotate the replenishment roller 16 once clockwise, a predetermined amount of magnetic toner 2 falls from the opening at the bottom of the second storage section 1b into a developing section (not shown).

Although the above embodiments of the present invention have been described using magnetic toner as an example, the toner is not limited to this, and the same effect can be obtained even if an insulating toner is used.

Effects of the Invention As detailed above, according to the present invention, a regulating member for regulating the inflow of toner is disposed above the screw coil in the lower opening communicating with the second reservoir of the first reservoir constituting the hopper. This prevents excessive feeding of toner and prevents an increase in the driving load on the rotating shaft. Furthermore, since excessive feeding of toner can be prevented, toner solidification within the second storage section can be prevented, smooth toner replenishment is possible, and image quality can be improved. Furthermore, since a large driving load is not applied to the motor, a small motor can be used, and many effects such as the ability to downsize an energy-saving device can be obtained.

[Brief explanation of the drawing]

FIG. 1 is an overall perspective view of a toner replenishing device according to the present invention, FIG. 2 is a cross-sectional plan view taken along line A-A, FIG. 3 is a cross-sectional plan view taken along line B-B, and FIG. 4 is a cross-sectional plan view taken along line C-C. 5 is an enlarged perspective view of the essential parts of the bottom of the hopper in the embodiment of the present invention, FIG. 6 is the sectional view, FIG. 7 is an enlarged perspective view of the diaphragm, and FIG. 8 is an enlarged perspective view of the toner amount FIG. 3 is a characteristic diagram showing the relationship between drive load torque of a rotating shaft. 1... hopper, 1a... first storage section, 1b...
...Second storage section, 5, 11...Screw coil,
8, 14... Rotating shaft, 10, 15... Rotating blade,
16... Supply roller, 17... Magnet, 25... Sensor, 26... Vibration plate, 28... Regulation sheet,
H...opening.

Claims (1)

[Scope of Claims] 1. A first storage portion having a toner filling opening at an upper portion, a first screw coil that transfers toner in one direction, and a first screw coil disposed opposite to the first screw coil, a second screw coil that transfers toner in a direction opposite to the above direction; a rotating shaft that rotates coaxially and integrally with the first and second screw coils; and a rotating shaft that rotates coaxially and integrally with the first and second screw coils; A rotary vane is provided at the tip of the rotating shaft in the toner feeding direction to transfer the toner transferred by the U-coil in a direction perpendicular to each other, and the toner is transferred to the center of the first and second screw coils. A replenishment roller provided in parallel with the direction is disposed inside the toner, and a second storage portion is opened at the bottom for toner replenishment,
The lower opening of the first storage section is configured to include both a part of one screw coil disposed in the second storage section and one rotating blade disposed opposite to this screw coil. A regulating member for regulating the inflow of toner is disposed above the screw coil at the bottom opening of the first storage section, and the bottom opening of the second storage section is arranged above the screw coil, and the bottom opening of the second storage section is arranged above the screw coil. A toner replenishing device comprising a slit-like opening or a plurality of elongated openings having substantially the same length, and the openings are located above a developing device. 2. The toner replenishing device according to claim 1, wherein the regulating member has a length that covers almost the entire diametrical area of the screw coil.