Ricoh B230 Service Manual
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Page 831
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SM 6-33 B230/B237
Detailed
Descriptions
Drum Charge and Quenching
This machine uses a non-contact charge roller [A] to reduce ozone. The non-contact
charge roller gives the drum surface a negative charge. The high voltage supply board –
C.B, which is located at the rear of the machine, applies a dc and ac voltage (at a constant
current) to the roller. The ac voltage helps to ensure that the charge given to the drum is as
uniform as possible.
The machine automatically controls the charge...](http://img.usermanuals.tech/thumb/64/100811/w300_b230-service-manual-1509630901_d-830.png "Page 831
SM 6-33 B230/B237
Detailed
Descriptions
Drum Charge and Quenching
This machine uses a non-contact charge roller [A] to reduce ozone. The non-contact
charge roller gives the drum surface a negative charge. The high voltage supply board –
C.B, which is located at the rear of the machine, applies a dc and ac voltage (at a constant
current) to the roller. The ac voltage helps to ensure that the charge given to the drum is as
uniform as possible.
The machine automatically controls the charge...")
SM 6-33 B230/B237 Detailed Descriptions Drum Charge and Quenching This machine uses a non-contact charge roller [A] to reduce ozone. The non-contact charge roller gives the drum surface a negative charge. The high voltage supply board – C.B, which is located at the rear of the machine, applies a dc and ac voltage (at a constant current) to the roller. The ac voltage helps to ensure that the charge given to the drum is as uniform as possible. The machine automatically controls the charge...
Page 832
![Page 832
B230/B237 6-34 SM
Drum Cleaning
The cleaning blade [A] scrapes off the used toner that stays on the drum. The toner
collection auger [B] transports the used toner towards the toner collection duct. Then it
goes to the toner collection duct. The brush roller [C] put lubricant on the drum to make
toner removal easy the next time the drum rotates past the cleaning blade.
If the temperature is above the value of SP 3517, the drum reverses briefly at the end of the
job to prevent the blade from...](http://img.usermanuals.tech/thumb/64/100811/w300_b230-service-manual-1509630901_d-831.png "Page 832
B230/B237 6-34 SM
Drum Cleaning
The cleaning blade [A] scrapes off the used toner that stays on the drum. The toner
collection auger [B] transports the used toner towards the toner collection duct. Then it
goes to the toner collection duct. The brush roller [C] put lubricant on the drum to make
toner removal easy the next time the drum rotates past the cleaning blade.
If the temperature is above the value of SP 3517, the drum reverses briefly at the end of the
job to prevent the blade from...")
B230/B237 6-34 SM Drum Cleaning The cleaning blade [A] scrapes off the used toner that stays on the drum. The toner collection auger [B] transports the used toner towards the toner collection duct. Then it goes to the toner collection duct. The brush roller [C] put lubricant on the drum to make toner removal easy the next time the drum rotates past the cleaning blade. If the temperature is above the value of SP 3517, the drum reverses briefly at the end of the job to prevent the blade from...
Page 833
![Page 833
SM 6-35 B230/B237
Detailed
Descriptions
6.6.3 DEVELOPMENT
Development Operation
This machine uses a dual-component development system and has four development units
(which are included in the drum units), one for each color. Each contains 225 g of
developer when it is new. The developer in each unit is supplied to the development roller
[A] by the two mixing augers [B] and attracted onto the surface of its roller.
The TD sensor [C] in the development unit and four ID sensors above the ITB...](http://img.usermanuals.tech/thumb/64/100811/w300_b230-service-manual-1509630901_d-832.png "Page 833
SM 6-35 B230/B237
Detailed
Descriptions
6.6.3 DEVELOPMENT
Development Operation
This machine uses a dual-component development system and has four development units
(which are included in the drum units), one for each color. Each contains 225 g of
developer when it is new. The developer in each unit is supplied to the development roller
[A] by the two mixing augers [B] and attracted onto the surface of its roller.
The TD sensor [C] in the development unit and four ID sensors above the ITB...")
SM 6-35 B230/B237 Detailed Descriptions 6.6.3 DEVELOPMENT Development Operation This machine uses a dual-component development system and has four development units (which are included in the drum units), one for each color. Each contains 225 g of developer when it is new. The developer in each unit is supplied to the development roller [A] by the two mixing augers [B] and attracted onto the surface of its roller. The TD sensor [C] in the development unit and four ID sensors above the ITB...
Page 834
![Page 834
B230/B237 6-36 SM
Drive
The drum/development drive motor-K [A] drives the development roller for black through
gears and a clutch. The gear trains are shown in the diagram.
The development drive motor-CMY [B] drives the development unit for magenta, cyan, and
yellow through gears.
Developer Agitation
Two mixing augers [A] circulate the developer forward and backward to agitate the
developer.
This happens at the following times:
ƒ During process control self check
ƒ During toner supply](http://img.usermanuals.tech/thumb/64/100811/w300_b230-service-manual-1509630901_d-833.png "Page 834
B230/B237 6-36 SM
Drive
The drum/development drive motor-K [A] drives the development roller for black through
gears and a clutch. The gear trains are shown in the diagram.
The development drive motor-CMY [B] drives the development unit for magenta, cyan, and
yellow through gears.
Developer Agitation
Two mixing augers [A] circulate the developer forward and backward to agitate the
developer.
This happens at the following times:
ƒ During process control self check
ƒ During toner supply")
B230/B237 6-36 SM Drive The drum/development drive motor-K [A] drives the development roller for black through gears and a clutch. The gear trains are shown in the diagram. The development drive motor-CMY [B] drives the development unit for magenta, cyan, and yellow through gears. Developer Agitation Two mixing augers [A] circulate the developer forward and backward to agitate the developer. This happens at the following times: ƒ During process control self check ƒ During toner supply
Page 835
![Page 835
SM 6-37 B230/B237
Detailed
Descriptions
ƒ During development.
Filters [B] on the top of the developer hopper make sure that the internal pressure does not
become too high. These ducts are sealed not to let the toner solidify before installing.
This development unit does not operate well if it placed in a condition of over 50°C during
transportation. The toner inside the development unit can become solid at temperatures
higher than this value. A developer initialization error shows if the...](http://img.usermanuals.tech/thumb/64/100811/w300_b230-service-manual-1509630901_d-834.png "Page 835
SM 6-37 B230/B237
Detailed
Descriptions
ƒ During development.
Filters [B] on the top of the developer hopper make sure that the internal pressure does not
become too high. These ducts are sealed not to let the toner solidify before installing.
This development unit does not operate well if it placed in a condition of over 50°C during
transportation. The toner inside the development unit can become solid at temperatures
higher than this value. A developer initialization error shows if the...")
SM 6-37 B230/B237 Detailed Descriptions ƒ During development. Filters [B] on the top of the developer hopper make sure that the internal pressure does not become too high. These ducts are sealed not to let the toner solidify before installing. This development unit does not operate well if it placed in a condition of over 50°C during transportation. The toner inside the development unit can become solid at temperatures higher than this value. A developer initialization error shows if the...
Page 836
B230/B237 6-38 SM The machine automatically does the following adjustments when detecting the new unit detection flag. ƒ PM counter clear for items related to the PCU ƒ Developer initialization ƒ Charge roller voltage control ƒ Process control ƒ Line position adjustment If the PM counter clear fails, clear the following SPs manually. ƒ SP3-902-1 to -4 ƒ SP3-902-5 to -8 ƒ SP3-902-9 to -12 6.7 TONER SUPPLY 6.7.1 OVERVIEW 1. Toner bottle (each color) 2. Memory chip (each color)...
Page 837
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SM 6-39 B230/B237
Detailed
Descriptions
toner to the development unit.
The toner end sensor is attached to the toner supply tube. The toner end sensor and the
output from the process control define when the machine detects toner end.
6.7.2 TONER SUPPLY MECHANISM
Toner supply from toner bottle to toner attraction pump
The toner transport motor [A] rotates the toner bottle-Bk via gears and a clutch. It also
rotates the toner bottle-Y, -C, -M via gears, clutches and timing belts.
Each...](http://img.usermanuals.tech/thumb/64/100811/w300_b230-service-manual-1509630901_d-836.png "Page 837
SM 6-39 B230/B237
Detailed
Descriptions
toner to the development unit.
The toner end sensor is attached to the toner supply tube. The toner end sensor and the
output from the process control define when the machine detects toner end.
6.7.2 TONER SUPPLY MECHANISM
Toner supply from toner bottle to toner attraction pump
The toner transport motor [A] rotates the toner bottle-Bk via gears and a clutch. It also
rotates the toner bottle-Y, -C, -M via gears, clutches and timing belts.
Each...")
SM 6-39 B230/B237 Detailed Descriptions toner to the development unit. The toner end sensor is attached to the toner supply tube. The toner end sensor and the output from the process control define when the machine detects toner end. 6.7.2 TONER SUPPLY MECHANISM Toner supply from toner bottle to toner attraction pump The toner transport motor [A] rotates the toner bottle-Bk via gears and a clutch. It also rotates the toner bottle-Y, -C, -M via gears, clutches and timing belts. Each...
Page 838
![Page 838
B230/B237 6-40 SM
Toner supply from toner attraction pump to development unit
Each toner attraction pump [A] is driven by the toner transport motor [B]. Each toner
attraction pump has the same mechanism. The pump (toner attraction pump) has the
following components:
ƒ Toner supply clutch [C]
ƒ Rubber tube
ƒ Rotor [D]
The above components attract the toner in the toner transport tube [E] toward the
development unit.
The toner supply clutch controls the rotor, which draws the toner in...](http://img.usermanuals.tech/thumb/64/100811/w300_b230-service-manual-1509630901_d-837.png "Page 838
B230/B237 6-40 SM
Toner supply from toner attraction pump to development unit
Each toner attraction pump [A] is driven by the toner transport motor [B]. Each toner
attraction pump has the same mechanism. The pump (toner attraction pump) has the
following components:
ƒ Toner supply clutch [C]
ƒ Rubber tube
ƒ Rotor [D]
The above components attract the toner in the toner transport tube [E] toward the
development unit.
The toner supply clutch controls the rotor, which draws the toner in...")
B230/B237 6-40 SM Toner supply from toner attraction pump to development unit Each toner attraction pump [A] is driven by the toner transport motor [B]. Each toner attraction pump has the same mechanism. The pump (toner attraction pump) has the following components: ƒ Toner supply clutch [C] ƒ Rubber tube ƒ Rotor [D] The above components attract the toner in the toner transport tube [E] toward the development unit. The toner supply clutch controls the rotor, which draws the toner in...
Page 839
![Page 839
SM 6-41 B230/B237
Detailed
Descriptions
6.7.3 TONER CARTRIDGE
RFID (Radio Frequency ID)
Each toner cartridge of this machine has a RFID chip [A]. This stores the total “on” time of
the toner supply clutch. This is used to calculate the amount of toner remaining in the toner
cartridge. The chip is also used to detect whether the cartridge is installed (if the cartridge
is not installed, the machine does not detect a signal from the memory chip).
The RFID transmits its data to the RFID antenna...](http://img.usermanuals.tech/thumb/64/100811/w300_b230-service-manual-1509630901_d-838.png "Page 839
SM 6-41 B230/B237
Detailed
Descriptions
6.7.3 TONER CARTRIDGE
RFID (Radio Frequency ID)
Each toner cartridge of this machine has a RFID chip [A]. This stores the total “on” time of
the toner supply clutch. This is used to calculate the amount of toner remaining in the toner
cartridge. The chip is also used to detect whether the cartridge is installed (if the cartridge
is not installed, the machine does not detect a signal from the memory chip).
The RFID transmits its data to the RFID antenna...")
SM 6-41 B230/B237 Detailed Descriptions 6.7.3 TONER CARTRIDGE RFID (Radio Frequency ID) Each toner cartridge of this machine has a RFID chip [A]. This stores the total “on” time of the toner supply clutch. This is used to calculate the amount of toner remaining in the toner cartridge. The chip is also used to detect whether the cartridge is installed (if the cartridge is not installed, the machine does not detect a signal from the memory chip). The RFID transmits its data to the RFID antenna...
Page 840
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B230/B237 6-42 SM
6.8 WASTE TONER COLLECTION
6.8.1 TONER COLLECTION PATH AND DRIVE
From PCU
The used toner from the collection augers in the four PCUs drops into the toner collection
duct from the four openings [A][B][C][D] at the front of the PCUs. The toner collection auger
[E] in the duct transports this used toner towards the toner collection bottle [F]. The coil [E]
is driven by the toner transport motor [G]. The openings and PCUs correspond as follows:
Yellow
[A], Cyan [B],...](http://img.usermanuals.tech/thumb/64/100811/w300_b230-service-manual-1509630901_d-839.png "Page 840
B230/B237 6-42 SM
6.8 WASTE TONER COLLECTION
6.8.1 TONER COLLECTION PATH AND DRIVE
From PCU
The used toner from the collection augers in the four PCUs drops into the toner collection
duct from the four openings [A][B][C][D] at the front of the PCUs. The toner collection auger
[E] in the duct transports this used toner towards the toner collection bottle [F]. The coil [E]
is driven by the toner transport motor [G]. The openings and PCUs correspond as follows:
Yellow
[A], Cyan [B],...")
B230/B237 6-42 SM 6.8 WASTE TONER COLLECTION 6.8.1 TONER COLLECTION PATH AND DRIVE From PCU The used toner from the collection augers in the four PCUs drops into the toner collection duct from the four openings [A][B][C][D] at the front of the PCUs. The toner collection auger [E] in the duct transports this used toner towards the toner collection bottle [F]. The coil [E] is driven by the toner transport motor [G]. The openings and PCUs correspond as follows: Yellow [A], Cyan [B],...