JPH0544834Y2 - - Google Patents

Description

[Detailed description of the invention] (Industrial application field) The present invention is intended to prevent paper from being electrostatically attracted to the pressure roller in a heat roller type fixing device, thereby preventing offset from occurring. In particular, the present invention relates to a device configured to prevent offset from occurring by controlling the amount of charge on a pressure roller.

(Prior Art) In devices such as electrophotographic copying machines, the surface of a photoreceptor drum is irradiated with light from an image reading device to form an electrostatic latent image, and a developing device is applied to the electrostatic latent image. After a toner image is formed by supplying toner, the toner image is transferred onto paper by a transfer/separation corotron.

Then, the sheet with the unfixed toner image transferred thereto is transported to the fixing device by a conveying device, and is held between a heat roller and a pressure roller to heat and pressurize the sheet, and to remove the unfixed toner image. The toner image is fixed to obtain a copy.

As a fixing device for this purpose, a heat roller type fixing device has conventionally been used in many cases. As shown in FIG. 8, this fixing device 5 includes a heat roller 6 having a built-in heating source.
and a pressure roller 7 which is provided corresponding to the heat roller 6 and is adapted to be pressed against the heat roller 6 with a predetermined pressure.

Conventionally used fixing devices with the above-mentioned configuration are often not equipped with any device to control the amount of charge on the pressure roller; Even when a member is provided, as shown in FIG. 8, a static elimination brush 10 is provided in the vicinity of the pressure roller, and a ground 11 is connected to the static elimination brush 10. A method is used to control the amount of charge.

This static elimination brush 10 is provided with an inlet chute 8 in a paper introducing portion for guiding the paper between both rollers constituting the fixing device 5, and guides the paper onto the upper surface of the inlet chute 8. At the same time, a bracket 9 is installed under the inlet shoot 8.
A static elimination brush 10 is provided at the bottom of the bracket 9.

The discharging brush 10 has a tip portion of its bristles that is 1/1 with respect to the pressure roller 7.
The pressure rollers 7 and 7 are arranged close to each other with an interval of 2 mm, thereby controlling the amount of charge on the pressure roller 7 and preventing the occurrence of paper offset.

Here, offset means that when an unfixed toner image after transfer is fixed by a fixing device, the toner is separated and adheres to the heat roller, and is transferred to the paper again after one rotation of the heat roller. Alternatively, it refers to a phenomenon in which the toner that has adhered to the heat roller is attached to the back side of the paper via the pressure roller, and is transferred to the paper in the form of a ghost.

(Problem to be solved by the invention) However, as mentioned above, in the conventional fixing device, as mentioned above, the static elimination brush provided close to the pressure roller is simply connected to the ground. However, the surface potential of the pressure roller is rarely controlled arbitrarily, and therefore the occurrence of the offset phenomenon cannot be reliably prevented.

On the other hand, it may be possible to control the surface potential of the pressure roller by supplying charge from a high-voltage power supply to the static elimination brush, but in that case, instead of the conventional grounding, Therefore, it is necessary to separately provide a high-voltage power supply, which not only complicates the structure of the electrophotographic copying machine but also causes drawbacks such as an increase in the manufacturing cost of the device.

(Purpose of the invention) The present invention solves the drawbacks of the conventionally used devices as described above. It is an object of the present invention to provide a device that can actively control the potential on the roller surface and prevent offsets from occurring due to variations in the amount of charge on the pressure roller.

(Means and operations for solving the problem) The present invention is used in an electrophotographic copying machine, and is capable of fixing by applying heat and pressure to paper carrying an unfixed toner image. The present invention relates to a heat roller type fixing device that performs. In the present invention, a bias power source is connected to the static elimination brush disposed close to the pressure roller, and the bias power source is a common power source with a developing bias power source applied to the developing roller of the developing device. A method is used to control the amount of charge on the pressure roller.

Therefore, in the offset prevention device of the fixing device of the present invention, since the voltage applied to the developing roller is applied to the pressure roller,
It is possible to prevent offset from occurring due to the influence of variations in the amount of charge on the pressure roller, and the potential control mechanism for the pressure roller can be constructed at low cost.

In addition, in the offset prevention device for the fixing device of the present invention, it is only necessary to connect an electric wire from another voltage supply device used in the electrophotographic copying machine toward the static elimination brush, and by providing the power source, Accordingly, it is possible to prevent the configuration of the copying machine from becoming complicated.

(Embodiment) The structure of the offset prevention device of the fixing device of the present invention will be explained according to the illustrated embodiment. As shown in FIG. 1, the fixing device 5 of the present invention has a heat roller 6 and a pressure roller 7 facing each other, similar to the conventional fixing device. The roller 6 has a built-in heating source such as a quartz lamp, and heats the roller 6 using the built-in heating source.

Further, the pressure roller 7 is pressed against the heat roller 6 with a predetermined pressure by a member such as a spring (not shown), and fixes the unfixed toner image by sandwiching the paper between both rollers. It will be done like this.

An inlet chute 8 is provided to guide the paper between both rollers of this fixing device, and by guiding the paper to the upper surface of the inlet chute 8, It will be possible to introduce it.

In addition, in the fixing device of the present invention,
A bracket 9 is installed at the bottom of the inlet shoot 8 above.
A static elimination brush 1 is installed at the bottom of the bracket 9.
0 is installed. This static elimination brush 10 is fixed to a bracket 9 made of an insulating member, or to either the upper or lower part of the bracket 9 with an insulating material interposed therebetween, using plastic screws or the like. , mounted electrically floating.

The static eliminating brush 10 of the present invention has the tips of its bristles arranged with an interval l of 1 to 2 mm from the pressure roller 7.
By connecting the bias power supply 12 to the static elimination brush 10 and supplying a predetermined voltage to the static elimination brush 10,
The surface potential of the pressure roller 7 can be controlled.

In an apparatus using the fixing device configured as described above, using a magnetic one-component toner, and using a pressure roller 7 whose surface is coated with LSR (liquid silicone rubber), as shown in FIG. As can be seen, when the voltage from the bias power supply is not supplied to the static elimination brush 10, the surface potential of the pressure roller 7 becomes (-)1500V, and some offset occurs.

On the other hand, when the bias power supply 12 is connected to the static elimination brush 10 and a bias voltage of (-) 1000V is applied, the surface potential of the pressure roller 7 is approximately ( −) 1000V, and no offset occurs.

Further, as the bias power source shown in FIG. 1, a developing bias power source 14 that applies a voltage to the developing roller of the developing device 2 can be used as shown in FIG. In the example shown in FIG. 2, a mechanism is configured in which a predetermined voltage is applied from a power source applied to a developing roller of a developing device to a static elimination brush 10 disposed against a pressure roller of a fixing device. are doing. In this embodiment, the description is given on the assumption that the developer is (-) charged.

In this embodiment, the pressure roller 7
The static elimination brush 10 provided close to the brush has its bristles disposed at an interval of approximately 1 mm from the pressure roller 7, and further includes:
As in the case of FIG. 1, the static eliminating brush is provided in an electrically floating state with respect to the inlet chute 8.

A bias voltage of about (-) 200 to (-) 300 V is applied to the static eliminating brush 10 having the above-described structure, so that the pressure roller 7 is charged. In addition, in a system using the jumping development method, V _pp = 1 to 3 kV _pp (AC peak-to-peak voltage) or VBias = (-)
The pressure roller 7 is charged by applying 200 to (-)300V (DC component).

In this way, when the developing bias power supply 14 is connected to the static elimination brush 10 and a bias voltage is supplied, the surface potential of the pressure roller 7 is lower than V0 as shown in FIG. The larger the value, the less likely offset will occur.
However, this embodiment is limited to the case where the toner to be offset has (+) polarity. Furthermore, the environment tends to have a tendency for offset to occur more easily when the humidity is low. In an example different from the embodiment of the present invention shown in FIG. 3, a case is shown in which the power applied to the static elimination brush 10 is obtained from a bias power source for a chute. In the example shown in FIG. 3, the shoot bias power supply 13 injects a predetermined electric charge into the moisture-absorbed paper, so that when a toner image is transferred to the paper by the transfer/separation corotron 3,
It is constructed so that the toner image can be transferred in good condition, and its power source is connected to the static eliminating brush 10 to charge the pressure roller 7.

This shoot bias power supply 13 is, for example,
Consisting of a constant voltage element and a constant voltage power source, it is used to control the charge on the pressure roller 7 when the temperature is low and low humidity, and when the humidity is high, it applies voltage to the paper guide plate 4 to improve transfer defects. It has come to be used for.

In the case of FIG. 3 described above, as can be seen from the graph of the relationship between the surface potential of the pressure roller 7 and the frequency of occurrence of offset shown in FIG. 6, the surface potential of the pressure roller 7 is V0. When the absolute value becomes larger than , offset becomes less likely to occur. However, in this case, the toner in which the offset occurs is limited to having (+) polarity. In addition, in a low-temperature environment,
Offset tends to occur easily.

FIG. 7 is a graph regarding the transferability of moisture-absorbed paper, and stable transferability is obtained when the injection current exceeds a predetermined injection current I0. Usually, charge injection into paper is carried out with high water content paper (10 ⁴ Ω or less), especially in high-temperature environments.

Therefore, in the case of the example shown in FIG. 3, predetermined values are applied from the chute bias power supply 13 to the static elimination brush 10 and the paper guide plate 4, depending on the environmental temperature and humidity of the copying machine. A current or voltage is supplied to improve transferability and prevent offset.

In the above embodiments of the present invention, it is explained that there is a limit to the polarity of the toner for each embodiment, but for example, (+) or (-) charged one-component toner (magnetic, non-magnetic, non-magnetic, Even in the case of toner (magnetic) or two-component toner, the surface voltage of the pressure roller can be set to a predetermined value by setting the voltage applied to the static eliminating brush 10 to the optimum state according to each state. This allows the fixing device of the present invention to exhibit its performance as an offset prevention device.

(Effects of the invention) Since the offset prevention device for the fixing device of the present invention has the above-described configuration, it is possible to use a power supply device for other members in an electrophotographic copying machine, thereby providing special It becomes possible to arbitrarily control the amount of charge on the pressure roller simply by connecting a power source without adding any other equipment to the presser roller.

Therefore, by using the configuration of the present invention, it is possible to reliably prevent offset from occurring in copies and to obtain clear copies.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram showing the configuration of the offset prevention device of the fixing device of the present invention, FIG. 2 is an explanatory diagram showing another embodiment of the present invention, and FIG. 3 is an explanatory diagram of an example other than the present invention. , FIG. 4 is a graph showing the relationship between the voltage applied to the static elimination brush and the surface potential of the pressure roller, FIG. 5 is a graph showing the relationship between the pressure roller surface potential and the frequency of offset occurrence, and FIG. A graph showing the same relationship as FIG. 5 from a different perspective, FIG. 7 is a graph regarding the transferability of water-containing paper, and FIG. 8 is an explanatory diagram showing the configuration of a conventional example. Symbols in the figure: 1...Photosensitive drum, 2...Developer, 3...Transfer/separation corotron, 4...Paper guide plate, 5...Fixing device, 6...Heat roller, 7...Press Shaft roller, 8... Inlet shoot, 9... Bracket, 10... Static elimination brush, 11... Earth, 12... Bias power supply,
13... Bias power supply for shoot, 14... Development bias power supply.

Claims (1)

[Claims for Utility Model Registration] A heat roller type fixing device used in an electrophotographic copying machine that performs a fixing action by applying heat and pressure to paper carrying an unfixed toner image. A bias power source is connected to a static eliminating brush disposed close to the pressure roller, the bias power source is a common power source with a developing bias power source applied to the developing roller of the developing device, and the static eliminating brush is used to An offset prevention device for a fixing device characterized by controlling the amount of charge on a pressure roller.