This application claims priority under 35 USC 119 from Japanese Patent Application Nos. 2005-238824 and 2005-238825, the disclosures of which are incorporated by reference herein.
1. Field of the Invention
The present invention relates to an image recording device, especially relates to the image recording device in which a toner image is transferred and fixed on the paper.
2. Description of the Related Art
Conventionally, in an image recording device carrying out image exposure on a charged photoreceptor surface to form a toner image, the toner image is transferred on a transfer body such as paper or the like, and the image is fixed.
In the above mentioned image recording device, a toner is a charged powder, and the transfer body is charged by applying transfer voltage (transfer bias) having a polarity opposite to the toner, and the toner is transferred to the transfer body by electrostatically adsorbing the toner. However, especially in a case of a full color image, when plural kinds of toners are multiply transferred, a phenomenon in which the toners are scattered around the image (blur) often occurs. That is, toners transferred later around a toner image previously transferred are scattered, and then the scattered toners are observed as image blur. Even in the case of a monochrome image or single transfer, when a feeding speed of a transfer material becomes fast, a phenomenon in which toners are scattered around an image tends to be generated.
When the reason for blur is described with reference to an example using an intermediate transfer belt, two reasons can be considered, i.e., a reason such that in a transfer pre-nip section, a transfer electric field acts on an area in which a photo conductor and an intermediate transfer belt are not adhered, whereby the transfer electric field is bent toward a peripheral direction of the image by charge of toners previously transferred, and a reason such that after transferring a toner layer having predetermined charge to the intermediate transfer belt electrostatically and during when the toner layer is moved to a second transfer point, charge supplied from a primary transfer roller is damped from the intermediate transfer belt, whereby holding capability with respect to the toner is decreased so that the toner is scattered by a rebound of charges (of the same polarity) of the toner.
That is, as illustrated in
To restrict scattering (blur) of the toner such as described above, a transfer device having a conductive member in a space formed at an upstream side and/or a downstream side in an image carrying body moving direction near a transfer position and between an image carrying body and a rotating body for transfer is proposed (see for example, Japanese Patent Application Laid-Open (JP-A) No. 02-163779).
In the above-mentioned technique, scattering of the toner can be suppressed by applying voltage to a leading end portion of a transfer guide. However, there is a problem concerning the technique in that when voltage is applied to a chute member 14, in a case where resistance is lowered by water which is included in the paper, a transfer bias applied to a transfer section 18 escapes through the paper, resulting in a poor transfer (poor transferring effect).
Further, an image recording device which includes a sheet-shaped flexible member to which bias is applied before transfer and controls the voltage is suggested (see, for example JP-A No. 11-338276). However, in the device, bias is applied to prevent contamination of the transfer chute, and an effect of preventing toner from scattering is not mentioned.
The present invention has been made in view of the above circumstances and provides an image recording device that is superior in image quality and sufficiently suppresses scattering of toner.
A first aspect of the invention provides an image forming device which transfers a toner image carried on an image carrying body from the image carrying body to a transfer receiving body in a transfer section, the device including a charge producing section provided at an upstream side, in a moving direction of the transfer receiving body, with respect to a position at which the image carrying body and the transfer receiving body oppose each other so as not to be contacted with the transfer receiving body.
In the invention of the above-mentioned constitution, blur, namely scattering of toner to a rear portion of an image can be suppressed by an antistatic effect of the charge producing section.
A second aspect of the invention provides an image forming device which transfers a toner image carried on an image carrying body from the image carrying body to a transfer receiving body at a transfer section, wherein a self-discharge type antistatic member is provided so as not to be contacted with the transfer receiving body at an upstream side, in a moving direction of the transfer receiving body, with respect to a position at which the image carrying body and the transfer receiving body oppose each other.
In the invention of the above-mentioned constitution, blur, namely scattering of toner to a rear portion of the image can be suppressed by an antistatic effect of the antistatic member.
The invention is constituted as described above, and therefore, an image recording device that is superior in image quality and sufficiently suppresses scattering of toner can be provided.
Preferred embodiments of the present invention will be described in detail based on the following figures, wherein;
In
As shown in
Then, voltage having a polarity that is the same as that of the toners is applied to a PTB (Pre Transfer Bias) wire 20, i.e., the charge producing section installed so as not to be contacted with the paper 22. Thereby, an electric field of a direction from the PTB wire 20 to the transfer nip portion A is formed on the toner transferred from a surface of the photoconductor drum 12 to the paper 22. Since there is no shielding matter obstructing the electric field between the PTB wire 20 and the transfer nip portion A, the electric field generated on the PTB wire 20 directly reaches the transfer nip portion A.
Thereby, since an electromagnetic force is applied in a direction of which the toner scattered to an upstream direction is pushed back by the above mentioned electric field having a polarity that is the same as that of the toners, scattering (blur) of the toner to a backward, i.e., a feeding direction upstream of the toner image is suppressed.
Further, the PTB wire 20 is provided so as not to be contacted with the paper 22. Thereby, even when resistance is lowered by water which is included in the paper 22, a problem such that a transfer bias applied to a transfer roller 16 escapes through the paper 22 resulting in a poor transfer can be prevented without charging the paper 22 itself.
Especially, the problem of poor transfer generated by a transfer bias applied to the transfer roller 16 from the PTB wire 20 escaping through the paper 22 can be prevented in a high temperature/high humidity environment which may lower resistance of the paper 22.
Moreover, in this case, the shielding member 18 is provided between the paper 22 and the PTB wire 20. This shielding member 18 is a member for forming a feeding path which guides the paper 22 so that the paper 22 and the PTB wire 20 are not contacted, and the shielding member 18 has flexibility. Therefore, if a thickness of the paper 22 is changed, even when thick paper is fed, for example, it does not interfere with feeding property.
Further, here, the PTB wire 20 comprises the linear conductive member, and as long as the PTB wire 20 is provided in parallel to the conveying surface of the paper 22, a simple configuration space saving can be realized. Downsizing of the whole device can also be realized.
An effect of blur reduction with above mentioned PTB wire 20 can be enhanced for example, by increasing bias voltage applied to the PTB wire 20 illustrated in
Further, a hard member is desirable as the shielding member 18, as long as no problem concerning a feeding performance is generated. If a soft member is used, when feeding the thick paper, the shielding member 18 is bent in the transfer roller 16 side, and the paper is entered from the transfer roller side, then transfer is started in a pre-nip section, thereby blur is rather worsened. When the soft member is employed, it is desirable to shorten F/L (free length) in a range that a feeding property of the thick paper is not interrupted as described later.
Furthermore, when resistance is lowered due to inclusion of water in the paper 22 as mentioned above, it is effective to prevent so-called hydrous paper poor transfer phenomenon by making the paper 22 and the PTB wire 20 non-contact (separating between the paper 22 and the PTB wire 20), or by insulating the shielding member 18.
Further, generation of blur can be suppressed by applying voltage having a polarity that is the same as that of the toner to the PTB wire 20 as described above. However, application of voltage to the self-discharge type antistatic member 20 is not necessarily required. For example, the antistatic member in which a ground is established also has a blur suppressing effect.
The transfer unit of the image forming device according to the first embodiment of the invention is illustrated in
As shown in
Then, as shown in
Furthermore, in the present embodiment, a separate voltage supplying section for the PTB wire 20 is not necessary, and only voltage supplied to an antistatic member 28 (DTS) described below is utilized, and, a transfer unit 17 is formed by uniting the antistatic section 28, the transfer roller 16, the PTB wire 20 and the shielding member 18. Thereby, enhancement of assembling characteristics, decreasing of the number of parts, and cost reduction can be realized.
Furthermore, as shown in
Further, by constituting the PTB wire 20 so that a length of the PTB wire 20 is shorter than that of the transfer roller 16 and the PTB wire 20 is not adjacent to the both ends of the transfer roller 16, a large creeping distance between the PTB wire 20 and the conductive member such as an end bearing of the transfer roller 16 can be secured.
Thereby, generation of leak or the like between the PTB wire 20 and the conductive member such as the end bearing of the transfer roller 16 can be suppressed.
A Principle of a Countermeasure to Blur
The charge producing section of the image forming device according to the first embodiment of the invention is shown in
As shown in
Then, as described above, voltage having polarity opposite to that of the toner 40 is applied to the paper 22, and the toner 40 is absorbed electrically. However, in fact, especially when a transporting velocity of the paper 22 is high, the toner 40 flows to a feeding direction upstream side as illustrated in
Thus, in the invention, as illustrated in
The transfer unit of the image forming device according to the second embodiment of the invention is illustrated in
As shown in
The exposed photoconductor drums 12Y to 12K are respectively supplied with the toners in a developer (not shown), and an electrostatic latent image is developed. The developed toner image is transferred to the first intermediate transfer roller 24A, 24B by two colors. Furthermore, two colored images on the first intermediate transfer rollers 24A, 24B are transferred to the second intermediate transfer roller 26 and result in a four-colored image. Then the four-colored image is transferred to the paper 22 nipped between the transfer roller 16 and the second intermediate transfer roller 26 to form a final image.
Then, as illustrated in
Similarly, the PTB wire 202 is provided between the first intermediate transfer rollers 24B and the second intermediate transfer roller 26 at a rotational direction upstream side from a contact position. An electric field directed toward a rotational direction downstream side (left bottom of the drawing) of the first intermediate transfer rollers 24B and the second intermediate transfer roller 26 is formed and repels the toner electrically. Therefore, blur when a two colored image is transferred from the first intermediate transfer rollers 24B to the second intermediate transfer rollers 26 can be prevented by pushing back the toner, which would flow to a rotational direction upstream side (right upper of the drawing), to a rotational direction downstream side and thereby transferring the toner at the correct position.
The PTB wire 20 may be provided in order to prevent blur which may occur during transferring between the intermediate transfer rollers, rather than to prevent blur which may occur in the transferring section transferring from the intermediate transfer rollers to the paper 22. Further, the PTB wire 20 may be provided in order to prevent blur during transferring from the second intermediate transfer rollers 26 to the paper 22.
The transfer unit of the image forming device according to the third embodiment of the invention is illustrated in
As shown in
In this case, since voltage applied to the paper 22 by the antistatic member 28 (DTS) may have a polarity that is the same as that of voltage applied to the PTB wire 20, as illustrated in
The transfer unit of the image forming device according to the fourth embodiment of the invention is illustrated in
As shown in
In the present embodiment, when voltage is applied to the PTB wire 20 from the power source 30, resistance 38 is inserted on the way, because, if an transfer electric current leaks (an electric current flows to the PTB wire 20 from the paper 22 side) in a high temperature/high humidity environment, it is necessary to control the flowing electric current by dropping a voltage. That is, with a paper in which water is included in high humidity, the transfer electric current leaks, therefore, an electric field for transfer cannot be held and resulted in poor transfer. Therefore, the resistance 38 is inserted between the PTB wire 20 and the power source 30, so that voltage drops when an electric current flows. On the other hand, in a cold temperature/low humidity environment, a quantity of an electric current flowing to the PTB wire 20 is small and an influences of voltage drop is also small, therefore, high voltage can be applied to the antistatic member 28 and the PTB wire 20. Further, the transfer unit of the image forming device according to the present embodiment can be configured so that no power source is supplied to the antistatic member 28.
The transfer unit of the image forming device according to the fifth embodiment of the invention is illustrated in
As shown in
In the present embodiment, a voltage generating section 36 is provided instead of the power source 30. And an electric current sensor section 32 for monitoring an electric current that flows to the antistatic member 28 and PTB wire 20, and a MCU34 controlling the voltage generating section 36 depending on a value of an electric current detected in an electric current sensor section 32 and adjusting voltage applied to the PTB wire 20 and the antistatic member 28 are also provided.
When an electric current flowing in the antistatic member 28 and PTB wire 20, which is detected in the electric current sensor section 32, is over a predetermined threshold (for example, 10 μA), it is indicated that the transfer electric current of the paper 22 leaks, that an electric field for transfer cannot be held, and that the transfer will therefore result in poor transfer, and the voltage generating section 36 is controlled so that voltage thereof is lowered. Thereby, generation of poor transfer caused by voltage applied to the PTB wire 20 can be prevented.
Further, the transfer unit of the image forming device according to the present embodiment may be configured so that voltage applied to the antistatic member 28 is always constant without control and only voltage applied to the PTB wire 20 is controlled in the MCU34 depending on an electric current detected in the electric current sensor section 32.
Processing Speed
Conventionally, there is a device in which plural processing/transporting speeds of the image forming device are set and the speeds are changed depending on an application and a condition such as the transferred material. The invention can also be applied to these image forming devices of processing speed variable type.
That is, if a processing speed is changed, accordingly generation condition of blur is also changed. Concretely, poor transfer tends to be generated by transportation at low speed, and on the other hand, blur tends to be generated by transportation at high speed. Therefore, an optimum value of the voltage applied to the charge producing section (the PTB wire 20) for preventing blur is also changed depending on a processing speed.
Therefore, if it is constituted so that the processing speed is changed in several phases, an optimum voltage may be set in advance for a selected processing speed and the paper 22 beforehand, and then switched among several phases automatically, or a table installed in a control system may be referred to.
If it is constituted so that the processing speed can be changed continuously, the processing speed set at a point or the optimum voltage may be manually or automatically selected from the table installed in the control system with respect to the paper 22, or, a speed sensor may be provided in the device, and voltage may be controlled for the detected feeding speed and the paper 22 in real time.
Paper Type
Generally, there is a device in which plural paper types/sizes used in the image forming device are set so as to change the paper 22 depending on an application and a condition such as the transferred material. The invention can also be applied to these image forming devices.
That is, if a type of the paper 22, that is, thickness, composition, surface finish or the like, is changed, naturally, a condition for generating blur is also changed. Therefore, an optimum value of voltage applied to the charge producing section (PTB wire 20) for preventing blur is also changed depending on the type of the paper 22.
Therefore, if it is constituted so that the type of the paper 22 can be changed among several types, the selected type of the paper 22 may be detected automatically or input by an operator manually to an optimum voltage in advance for the type of paper 22 and may be switched among several phases automatically, or a table installed in a control system may be referred to.
Environmental Condition
Generally, there is a device in which changes in internal/external environmental conditions of the image forming device or various characteristic values affected by the environmental conditions are detected, and various conditions such as temperature control and/or voltage control are changed depending on the change. The invention can also be applied to these image forming devices.
If temperature/humidity fluctuates, naturally, a condition for generating blur is also changed, and therefore, an optimum value of voltage applied to the charge producing section (PTB wire 20) for preventing blur is also changed depending on an environmental condition such as temperature/humidity.
Therefore, it can be constituted so that the environmental condition or the characteristic value (for example, water content of the paper 22) that fluctuates due to the environmental condition may be detected to set in advance an optimum voltage for the environmental condition or the characteristic value and switch among several phases automatically, or a table installed in a control system may be referred to.
Alternatively, optimum voltage may be manually or automatically selected from the table installed in the control system according to various processing conditions controlled depending on the environmental condition or the characteristic value that fluctuates due to the environmental condition.
Further, various kinds of condition parameters such as the above mentioned processing speed, temperature/humidity in a room where the device is installed, the type of paper 22 and water content can be appropriately selected and then added to voltage control depending on a degree of influence thereof.
Shielding Element
A transfer unit of an image forming device according to the invention is illustrated in
As shown in
In this case, if there is a limit to shorten the Fl (around 1 mm) within a range that a transportation property of the thick paper when the PET is used for material, or shorten a united constitution constitutionally (that is, type constitution), when a soft member is used, it is desirable to shorten F/L (free length) in a range that a feeding property of the thick paper is not interrupted. A bend is reduced by increasing thickness of the PET of the shielding member 18, thereby the blur is prevented from being worsened when feeding the thick paper.
In
Further, a main difference between the sixth to tenth embodiments and the first to fifth embodiments of the invention is that the self-discharge type antistatic member 120 is employed as the charge producing section without restricting to the wire-shaped PTB wire 20. Other constitutions and operations are as same as those of the first to fifth embodiments, therefore, the details will be omitted in the following description.
A transfer unit of the image recording device concerning the sixth embodiment of the invention is illustrated in
As illustrated in
That is, a toner image formed on the photoconductor drum 12 is transferred on the paper 22 nipped between the transfer roller 16 and the photoconductor drum 12 then feed.
In the occasion, voltage having a polarity that is the same as that of the toner is applied on the self-discharge type antistatic member 120 which is the charge producing section applying PTB (Pre Transfer Bias) and provided so as not to contact to the paper 22. Thereby, an electric field of a direction directed from the self-discharge type antistatic member 120 to the transfer nip portion A is formed to a toner to transfer from a surface of the photoconductor drum 12 to the paper 22. In this occasion, there is no shielding matter obstructing an electric field between a self-discharge type antistatic member 120 and the transfer nip portion A, therefore, the electric field generated in the self-discharge type antistatic member 120 directly reaches the transfer nip portion A.
Thereby, as understood from a description concerning
A transfer unit of the image recording device according to the sixth embodiment of the invention is illustrated in
As generally similar to a constitution in
Furthermore, in this the sixth embodiment, a new voltage supply section for a self-discharge type antistatic member 120 is not provided, and voltage supplied to an antistatic member 28 (DTS) described below is utilized, and, voltage is supplied to a self-discharge type antistatic member 120 in the load dispatching member 21 which diverged from a voltage feed path to the antistatic member 28, and, a transfer unit 17 is formed by uniting the antistatic section 28, the transfer roller 16, a self-discharge type antistatic member 120, the shielding member 18. Thereby, enhancement of assembling characteristics, decreasing of the number of parts, and cost reduction can be realized.
Further, concerning the above-mentioned matter, the image recording device according the present embodiment is constituted so that leak is generated the transfer roller 16 and a load dispatching path for the antistatic member such as the antistatic member 120 at voltage lower than voltage starting voltage between the antistatic member 120 and the transfer roller 16.
Accordingly, even if a leak is generated by any reasons, a leak generating position can be restricted between the transfer roller 16 and the load dispatching path for the antistatic member such as the load dispatching member 121, therefore, a more high-security constitution can be realized.
Material of Antistatic Member
As a material used in the above mentioned self-discharge type antistatic member 120, as long as it has a linear form, a wire wound with an antistatic fabric knit with a conductive fiber (trade name “ST poly”) for countermeasure against static electricity may be used, or, a conductive fiber (trade name “BEKISTAD”) of which a blended yarn of a metal fiber and a chemical fiber is processed in the shape of string may be used without modification.
Further, if it is a form of strip-shaped, an antistatic fabric knit with the above mentioned conductive fiber (trade name “DENKITHOL”) without modification.
The charge production section of the image recording device according to the sixth embodiment of the invention is illustrated in
Similarly to the description in
The transfer unit of the image recording device according to the seventh embodiment of the invention is illustrated in
That is, as illustrated in
Similarly, a self-discharge type antistatic member 1202 is provided between the first intermediate transfer roller 24B and the second intermediate transfer roller 26 at rotational direction upstream side from a contact position, an electric field of a direction toward a rotational direction downstream side (left bottom of the drawing) of the first intermediate transfer roller 24B and the second intermediate transfer roller 26 is formed, and repelled with the toner electrically, therefore, blur when two colored image is transferred from the first intermediate transfer rollers 24B to the second intermediate transfer rollers 26 can be prevented by pushed back the toner which is going to be flown to rotational direction upstream side (right upper of the drawing) in rotational direction downstream side, and transferring the toner at the correct position.
The transfer unit of the image recording device according to the eighth embodiment of the invention is illustrated in
The transfer unit of the image recording device according to the ninth embodiment of the invention is illustrated in
The transfer unit of the image recording device according to the tenth embodiment of the invention is illustrated in
Other Configuration
Embodiments of the invention is described above, however, the invention is not limited to the above mentioned embodiment at all, and it will be appreciated that the invention can be carried out in various aspects in a range without deviating a subject matter of the invention.
That is, in the image forming device according to the invention, the paper 22 to be fed is not limited to so-called a paper. Further, it can be applied to other various devices as well as the image forming device, as long as a device to feed a sheet and transfer powders by electrostatic force.
Moreover, the following aspects can be employed concretely.
In the image forming device according to the first aspect, voltage having a polarity equal to a charging polarity of the toner may be applied to the charge producing section.
In the invention having the above mentioned constitution, an antistatic effect of the charge producing section is further enhanced and blur can be controlled more effectively.
In the image forming device according to the first aspect, a shielding member may be provided between the charge producing section and the transfer receiving body.
In the invention having the above mentioned constitution, poor transfer of the hydrous paper can be prevented by suppressing supply of charge from the charge producing section to the paper and preventing a transfer condition from being changed.
In the image forming device of the first aspect, the shielding member may be a conveying member forming a conveying surface for the transfer receiving body.
In the invention having the above mentioned constitution, the shielding member is also served as the conveying member forming the conveying surface of the transferred material, therefore, the number of parts can be reduced and a low cost can be achieved.
In the image forming device according to the first aspect, the shielding member may have a flexibility.
In the invention having the above mentioned constitution, the shielding member has flexibility, therefore, even if a thick paper is fed, a feeding property can be secured without increasing a feeding resistance of the shielding member and the thick paper.
In the image forming device according to the first aspect, the charge producing section may be a wire-shaped conductive member.
In the invention having the above mentioned constitution, space saving can be intended by suppressing a cross section of the charge producing section.
In the image forming device according to the first aspect, the charge producing section may be a load dispatching member constituting a circuit supplying electric power to other parts.
In the invention having the above mentioned constitution, the number of parts can be reduced and a low cost can be achieved.
In the image forming device according to the first aspect, the charge producing section may be energized through a resistor.
In the invention having the above mentioned constitution, an effect to prevent poor transfer by poor electrification of a hydrous paper in high humidity is provided, and a blur suppressing effect in low temperature and low humidity can be enhanced.
In the image forming device according to the first aspect, an electric current detecting section detecting electric current that flows in the charge producing section may be provided, and voltage applied to the charge producing section is controlled depending on the electric current detected in the electric current detecting section.
In the invention having the above mentioned constitution, an effect to prevent poor transfer by poor electrification of a hydrous paper in high humidity is provided, and a blur suppressing effect in low temperature and low humidity can be enhanced by adjusting voltage.
In the image forming device according to the first aspect, an antistatic section may be provided at a moving direction downstream side of the transfer section so as not to be contacted with the transfer receiving body, and voltage having a polarity that is the same as that of the antistatic section is applied to the charge producing section.
In the invention having the above mentioned constitution, power source can be used in common between the charge producing section and an antistatic section for peeling the paper, the number of parts can be reduced and a low cost can be achieved.
In the image forming device according to the first aspect, a length of the charge producing section may be shorter than a length of the transfer section.
In the invention having the above mentioned constitution, a creeping distance between the charge producing section and a conductive member such as an edge bearing of a transfer section can be taken largely, therefore, generation of leak or the like can be suppressed.
In the image forming device according to the first aspect, the charge producing section may be energized through an energizing member made of a conductive resin.
In the invention having the above mentioned constitution, an effect to prevent poor transfer by poor electrification of a hydrous paper in high humidity is provided, and a blur suppressing effect in low temperature and low humidity can be enhanced, in addition, the number of parts can be reduced and a low cost can be achieved.
In the image forming device according to the first aspect, an electric current detecting section detecting electric current that flows in the charge producing section may be provided, and voltages applied to the antistatic section and the charge producing section, respectively, or voltage applied to the charge producing section are/is controlled depending on the electric current detected in the electric current detecting section.
In the invention having the above mentioned constitution, an effect to prevent poor transfer by poor electrification of a hydrous paper in high humidity is provided, and a blur suppressing effect in low temperature and low humidity can be enhanced with maintaining a paper peeling effect.
In the image forming device according to the first aspect, an image forming process may be carried out while switching among a plurality of processing speeds, and voltage applied to the charge producing section is regulated depending on a selected processing speed.
In the invention having the above mentioned constitution, a low speed of which poor transfer tends to be generated and a high speed of which blur tends to be generated are switched per a detected processing speed, and the voltage which is most suitable for the charge producing section can be applied.
Further, in the image forming device of the second aspect, the antistatic member may be grounded.
In the invention having the above mentioned constitution, an antistatic effect of the antistatic member can be further enhanced and blur can be suppressed more effectively.
In the image forming device according to the second aspect, voltage having a polarity equal to a charging polarity of the toner may be applied to the antistatic member.
In the invention having the above mentioned constitution, an antistatic effect of the antistatic member can be further enhanced and blur can be suppressed more effectively.
In the image forming device according to the second aspect, a shielding member having an insulating property may be provided between the antistatic member and the transfer receiving body.
In the invention having the above mentioned constitution, supply of charge from the antistatic member to the paper can be suppressed, and poor transfer of a hydrous paper can be prevented.
In the image forming device according to the second aspect, the shielding member may be a conveying member forming a conveying surface for the transfer receiving body.
In the invention having the above mentioned constitution, the shielding member is also served as the conveying member forming the conveying surface of the transfer receiving body, therefore, the number of parts can be reduced and a low cost can be achieved.
In the image forming device according to the second aspect, the shielding member may have flexibility.
In the invention having the above mentioned constitution, the shielding member has flexibility, therefore, even if a thick paper is fed, a feeding property can be secured without increasing a feeding resistance of the transfer material.
In the image forming device according to the second aspect, an antistatic section may be provided at a moving direction downstream side of the transfer section so as not to be contacted with the transfer receiving body, and voltage having a polarity that is the same as that of the antistatic section is applied to the antistatic member.
In the invention having the above mentioned constitution, power source can be used in common between the antistatic member and the antistatic section for peeling the paper, the number of parts can be reduced and a low cost can be achieved.
In the image forming device of the second aspect, the antistatic member may be energized through a resistor.
In the invention having the above mentioned constitution, an effect to prevent poor transfer by poor electrification of a hydrous paper in high humidity is provided, and a blur suppressing effect in low temperature and low humidity can be enhanced.
In the image forming device of the second aspect, the image recording device may include an environment detecting section detecting an environmental condition in the device or around the device, and voltage applied to the antistatic member is controlled depending on the environmental condition detected in the environment detecting section.
In the invention having the above mentioned constitution, suitable voltage per the detected environment can be applied.
In the image forming device of the second aspect, the image recording device may include a characteristic value detecting section detecting a characteristic value in the device that fluctuates according to an environmental condition in the device or around the device, and voltage applied to the antistatic member is controlled depending on the characteristic value detected in the characteristic value detecting section.
In the invention having the above mentioned constitution, suitable voltage per the detected characteristic value can be applied.
In the image forming device of the second aspect, the image recording device may include a sensor section identifying a type of the transfer receiving body, and voltage applied to the antistatic member is controlled depending on a type of the transfer receiving body sensed in the sensor section.
In the invention having the above mentioned constitution, suitable voltage per the detected paper type can be applied.
In the image forming device of the second aspect, the antistatic member may be linear.
In the invention having the above mentioned constitution, a required space can be decreased by decreasing a cross section of the antistatic member.
In the image forming device of the second aspect, the linear antistatic member may be a wire wound with an antistatic fabric.
In the invention having the above mentioned constitution, installation property and assembling property of the antistatic member can be improved.
In the image forming device of the second aspect, the linear antistatic member may be a conductive fiber.
In the invention having the above mentioned constitution, a required space can be decreased by decreasing a cross section of the antistatic member.
In the image forming device of the second aspect, the antistatic member may have a strip-shape.
In the invention having the above mentioned constitution, the antistatic member can be easily attached precisely, and mass productivity is improved.
In the image forming device of the second aspect, the strip-shaped antistatic member may be an antistatic non-woven fabric.
In the invention having the above mentioned constitution, a low cost can be achieved by using an antistatic nonwoven fabric.
In the image forming device of the second aspect, a length of the antistatic member may be shorter than a length of the transfer section.
In the invention having the above mentioned constitution, a creeping distance between the antistatic member and a conductive member such as an edge bearing of a transfer section can be taken largely, therefore, generation of leak or the like can be suppressed.
In the image forming device of the second aspect, leak starting voltage between the transfer section and the load dispatching path of the antistatic member may be smaller than leak starting voltage between the transfer section and the antistatic member.
In the invention having the above mentioned constitution, leak is generated between the load dispatching path and the transfer section at voltage lower than voltage of which leak is generated between the antistatic member and the transfer section, therefore, generation of leak in the antistatic member can be prevented.
In the image forming device of the second aspect, the transfer section may be formed as a unit integrally including an antistatic section, the transfer section, the antistatic member and the shielding member.
In the invention having the above mentioned constitution, the number of parts can be reduced and a low cost can be achieved.
In the image forming device of the second aspect, an electric field of the antistatic member may directly reach a nip position between the transfer section and the image carrying body.
In the invention having the above mentioned constitution, blur suppressing effect by the antistatic member can be performed at a maximum.
Number | Date | Country | Kind |
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2005-238824 | Aug 2005 | JP | national |
2005-238825 | Aug 2005 | JP | national |
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