1. A toner supply device comprising:
a toner container filled with toner, wherein the toner container comprises:
a partitioning member which separates the interior of the toner container into a toner storing portion with the toner present therein and an empty space without toner therein; and
a partitioning member moving device which moves the partitioning member in accordance with the amount of toner left in the toner storing portion so that the toner storing portion may have a suitable volume, and a remaining
toner quantity detector that detects the position of the partitioning member when the volume of the toner storing portion has been reduced to a predetermined volume or lower;
a toner feed device having the toner container mounted thereon and feeding toner discharged from the toner container to a developing unit, wherein the toner supply device supplies toner to the developing unit in accordance with the amount of toner consumed in the developing unit for the process of printing; and
a toner container releasing mechanism which, when the amount of toner left in the toner container has been reduced to a predetermined level or lower, causes the toner container to move in the direction opposite to the direction in which the toner container is set into the toner feed device and separate from the toner feed device.
2. The toner supply device according to claim 1, wherein the remaining toner quantity detector is disposed in the toner container.
3. The toner supply device according to claim 1, wherein the toner container releasing mechanism includes a releasing device which, when the toner container is positioned being mounted to the toner feed device, urges the toner container in the direction opposite to the direction in which the toner container is mounted, and
the releasing device is disposed on the toner container’s front side in the toner feed device to which the toner is mounted, and causes the toner container to move when the amount of toner left in the toner container has been reduced to a predetermined level or lower.
4. The toner supply device according to claim 3, wherein the toner container releasing mechanism includes a restoring device for returning the releasing device after it was actuated to move the toner container, to the position before the actuation.
5. The toner supply device according to claim 1, wherein the toner container closes a toner discharge port for supplying the toner to the toner feed device when the toner container is caused to move from the position where the toner container is mounted in the toner feed device.
6. An image forming apparatus equipped with a toner supply device that comprises:
a toner container filled with toner; and a toner feed device having the toner container mounted thereon and feeding toner discharged from the toner container to a developing unit, wherein the toner supply device supplies toner to the developing unit in accordance with the amount of toner consumed in the developing unit for the process of printing, characterized in that the toner supply device further comprises:
a toner container releasing mechanism which, when the amount of toner left in the toner container has been reduced to a predetermined level or lower, causes the toner container to move in the direction opposite to the direction in which the toner container is set into the toner feed device and separate from the toner feed device, and
a toner container-openable covering structure which can be opened by the toner container that is released from the toner feed device is formed as an exterior part of the image forming apparatus.
7. The image forming apparatus according to claim 6, wherein the toner container-openable covering structure is divided into a plurality of parts arranged separately for corresponding toner containers.
8. The image forming apparatus according to claim 6, further comprising a display portion in a control portion for input control of the image forming apparatus, the display portion having a function of indicating shortage of remaining toner when the amount of toner left in the toner container has been reduced to a predetermined level or lower.
9. A toner shortage detecting method which is used for an image forming apparatus equipped with a toner supply device that comprises: a toner container filled with toner; and a toner feed device having the toner container mounted thereon and feeding toner discharged from the toner container to a developing unit and supplies toner to the developing unit in accordance with the amount of toner consumed in the developing unit for the process of printing, to detect a toner container that is short of toner left therein, the method comprising the steps of:
moving a partitioning member which separates the interior of the toner container into a toner storing portion filled with toner and an empty space without toner therein, in accordance with the amount of toner left in the toner storing portion so that the toner storing portion may have a suitable volume; and
detecting the position of the partitioning member when the volume of the toner storing portion has been reduced to a predetermined volume or lower; and,
when the detected amount of toner left in the toner container has been reduced to a predetermined level or lower, releasing the toner container from the toner feed device by causing the toner container to move in the direction opposite to the direction in which the toner container is mounted into the toner feed device.
10. The toner shortage detecting method according to claim 9, further comprising the steps of:
moving the toner container when the amount of toner left in the toner container has been reduced to a predetermined level or lower, by a releasing device which urges the toner container in the direction opposite to the direction in which the toner container is mounted.
11. The toner shortage detecting method according to claim 10, further comprising the step of returning the releasing device after it was actuated to move the toner container, to the position where the toner container is mounted in the toner feed device.
12. The toner shortage detecting method according to claim 9, further comprising the step of closing a toner discharge port for supplying toner to the toner feed device when the toner container is caused to move from the position where the toner container is mounted to the toner feed device.
13. The toner shortage detecting method according to claim 9, further comprising the step of opening a toner container-openable covering structure that is formed as an exterior part of the image forming apparatus when the toner container is caused to move from the position where the toner container is mounted to the toner feed device.
14. The toner shortage detecting method according to claim 9, further comprising the step of indicating shortage of remaining toner on a display portion in a control portion for input control of the image forming apparatus when the amount of toner left in the toner container has been reduced to a predetermined level or lower.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A clock generator module, electrically connected with a mainboard through a connector for communicating with each other, wherein
an interface definition of the clock generator communicates with a control logic circuit of the mainboard to generate a required clock frequency; wherein
said interface definition comprises identification signals, interface control signals; a reference clock input signal, a clock output signal and power supply; and wherein
different clock generator modules use different digital levels of said identification signals to differentiate functions;
said interface control signals are for setting up various clock modules;
said reference clock input signal selectively receives a clock reference input from a selected reference clock source;
said clock output signal outputs the reguired clock signal to said mainboard, and said main board provides power supply to said clock generator module.
2. The clock generator module according to claim 1, wherein said identification signals identify a required clock type to said clock generator module.
3. The clock generator module according to claim 2, wherein said identification signals function are in a three-bit identification mode.
4. The clock generator module according to claim 1, wherein said interface control signals use ten signals for setting up various clock generator modules.
5. The clock generator module according to claim 1, wherein said interface control signals are generated by said control logic circuit according to retrieved identification signals.
6. The clock generator module according to claim 1, wherein said mainboard is integrated into stand-alone equipment.
7. The clock generator module according to claim 1, wherein said mainboard is integrated in a modular platform or equipment.
8. The clock generator module according to claim 1, wherein said mainboard is integrated into a data-acquisition electronic product.
9. The clock generator module according to claim 1, wherein said mainboard is integrated into an electronic product comprising data-acquisition function.