This application claims priority to Japanese Parent Application No. 2005-282636, filed on Sep. 28, 2005, the contents of which are hereby incorporated by reference into the present application.
1. Field of the Invention
The present invention relates to a developing device that houses developer such as toner. In addition, the present invention relates to a process cartridge and an image forming device.
2. Description of the Related Art
A laser printer, for example, uses a developer to print on a recording medium (e.g., printing paper). The laser printer has a developing device. The developing device has a case main body in which an opening is formed. A developing roller is coupled with the case main body at a position that faces the opening. The developing roller is capable of rotating and supporting the developer that is housed in the case main body. The laser printer has a photoreceptor that makes contact with the developing roller. An electrostatic latent image is formed on the surface of the photoreceptor. By rotating both the developing roller and the photoreceptor while in contact with each other, the developer supported by the developing roller adheres to the electrostatic latent image on the photoreceptor In this way, the electrostatic latent image on the photoreceptor becomes visible. By transferring the developer from the photoreceptor to the recording medium, text or image is printed on the recording medium.
If the developer housed in the developing device leaks to the exterior, devices disposed at the exterior of the developing device becomes soiled. It is necessary to form a developing device from which developer cannot leak. In the technology disclosed in U.S. Pat. No. 6,336,014, an axis direction seal member is installed on the case main body. The axis direction seal member extends along the rotation axis direction of the developing roller. By placing the axis direction seal member in contact with the developing roller, the axis direction seal member creates a seal between the case main body and the developing roller. In addition, in the technology of U.S. Pat. No. 6,336,014, a side seal member is used. The side seal member makes contact with the developing roller so that developer does not leak from the end of the developing roller in the rotation axis direction. In this way, a seal is formed between the end of the developing roller in the rotation axis direction and the case main body. The axis direction seal member and the side seal member make contact with one another. In this configuration, a gap is not formed between the axis direction seal member and the side seal member, and thus developer can be prevented from leaking out from between the axis direction seal member and the side seal member
Note that in the above conventional technology, in the rotation direction of the developing roller, the upstream end of the side seal member is located upstream of a contact area between the axis direction seal member and the developing roller. In other words, the side seal member makes contact with the axis direction seal member at a position which is upstream of the contact area between the axis direction seal member and the developing roller.
If developer enters between the side seal member and the case main body, this developer may leak from the case main body. Because of this, it is preferred that developer is prevented from entering between the side seal member and the case main body.
In this specification, a developing device which can prevent developer from leaking out is disclosed. This developing device comprises a case main body, a developing roller, an axis direction seal member, and a side seal member. In a rotation direction of the developing roller, an upstream end of the side seal member is located downstream of an upstream end of a contact area between the axis direction seal member and the developing roller.
An embodiment of the present invention will be described with reference to the drawings.
The printer 10 has a casing 12. The casing 12 is constructed by means of a plurality of plate-shaped members.
The printer 10 has a paper supply device 20, the process cartridge 40, an exposure device 70, a toner fixing device 90, and the like. Each of the devices 20, 40, 70, 90 is disposed in the interior of the casing 12. Each device 20, 40, 70 and 90 will be described in sequence below.
The paper supply device 20 comprises a paper supply tray 22, four rollers 28, 30, 32, 34, and the like. Paper for printing (not shown in the drawings) will be stacked in the paper supply tray 22. The paper supply tray 22 has a bottom plate 24 on which the stacked printing paper will be placed. The uppermost sheet of the printing paper placed on the bottom plate 24 will be in contact with the paper supply roller 28. When the paper supply tray 22 is housed inside the casing 12, the front end of the bottom plate 24 (the end on the right side of
The paper supply roller 28 is connected to a drive source not shown in the drawings. The paper supply roller 28 can be rotated counterclockwise. The uppermost sheet of printing paper stored in the paper supply tray 22 will be transported to the right (arrow D1) when the paper supply roller 28 rotates. The printing paper transported to the right will come into contact with the separation roller 30. The separation roller 30 is not connected to a power source. The separation roller 30 is driven counterclockwise by coming into contact with the printing paper. When a plurality of sheets of printing paper has been transported, the separation roller 30 will separate the printing paper so that only one sheet thereof will be transported downstream. The printing paper that passes the separation roller 30 will then be transported between the pinch roller 32 and the paper dust removal roller 34.
The pinch roller 32 and the paper dust removal roller 34 are not connected to a drive source. The pinch roller 32 is urged toward the paper dust removal roller 34 by an urging means not shown in the drawings. The printing paper between the pinch roller 32 and the paper dust removal roller 34 will be pressed onto the paper dust removal roller 34 by the pinch roller 32. The surface of the paper dust removal roller 34 has been specially treated, and can remove paper dust from the printing paper that it is in contact with. The printing paper will be transported between two resist rollers 38, 38 along a rail 36.
The lower resist roller 38 is connected to a drive source not shown in the drawings. The printing paper can be transported in the direction of arrow D2 by rotating the lower resist roller 38 counterclockwise. The upper resist roller 38 rotates in the clockwise direction by following the rotation of the lower resist roller 38.
Text or images is printed on the printing paper when the printing paper is transported in the direction of the arrow D2 by the resist roller 38. More specifically, printing will be performed by means of the process cartridge 40, the exposure device 70, and the fixing device 90.
The process cartridge 40 is detachably mounted on the casing 12. The process cartridge 40 can be removed from the casing 12 when the front cover 16 is opened (arrow R1). An old process cartridge 40 can be replaced with new one.
Details of the structure of the process cartridge 40 will be described below. The basic structure of the process cartridge 40 will be described here. The process cartridge 40 has a casing 42. A through hole 42a is formed in the upper surface of the casing 42. A toner chamber 45 is formed on the right side of the interior of the casing 42. Toner is housed in the toner chamber 45. Three rollers 48, 50, 52 and a photoreceptor drum 54 are disposed on the left side of the interior of the casing 42. The rollers 48, 50, 52 and the drum 54 are respectively connected to a drive source not shown in the drawings. The roller 48 positioned furthest to the right will be referred to as the supply roller. The developing roller 50 is disposed on the left side of the supply roller 48. The photoreceptor drum 54 is disposed on the left side of the developing roller 50. The transfer roller 52 is disposed below the photoreceptor drum 54. Printing paper that has been transported in the direction of the arrow D2 by the resist roller 38 will enter between the photoreceptor drum 54 and the transfer roller 52. The transfer roller 52 will rotate in the counterclockwise direction when the photoreceptor drum 54 rotates in the clockwise direction. The printing paper will be transported further leftward (arrow D2) by rotating the photoreceptor drum 54 and the transfer roller 52. Toner attached to the photoreceptor drum 54 will be transferred to the printing paper as it is transported leftward.
The exposure device 70 is disposed above the process cartridge 40. The exposure device 70 is fixed to the casing 12. The exposure device 70 has a casing 72. A through hole 72a is formed in the lower surface of the casing 72. A polygon mirror 74, a reflector 76, a lens 78, a reflector 80, and the like are provided inside the casing 72. The exposure device 70 has a light source that is not shown in the drawings. A laser beam will be generated from the light source based upon the content of the print data. The laser beam supplied from the light source will be deflected by the polygon mirror 74 toward the reflector 76. The laser beam will reflect off the reflector 76 and pass through the lens 78. The laser beam that has passed through the lens 78 will be further reflected by the reflector 80. The laser beam reflected by the reflector 80 will exit the casing 72 from the through hole 72a and project downward.
The laser beam that has exited the casing 72 will pass through the through hole 42a of the casing 42 of the process cartridge 40 and arrive at the photoreceptor drum 54. In this way, the photoreceptor drum 54 will be exposed with a prescribed pattern. The path of the laser beam described above is shown with the arrow L in
Next, the structure of the toner fixing device 90 will be described. The toner fixing device 90 is disposed to the rear of the process cartridge 40 (the left side of
The heating roller 94 has a metal pipe 94a, and a halogen lamp 94b that is disposed in the interior thereof. The halogen lamp 94b will heat the metal pipe 94a. The heating roller 94 is connected to a drive source not shown in the drawings. When the drive source is operated, the heating roller 94 will rotate in the clockwise direction. The pressure roller 96 is urged toward the heating roller 94 by means of a mechanism not shown in the drawings. The pressure roller 96 is not connected to a drive source. The pressure roller 96 will be driven in the counterclockwise direction when the heating roller 94 is rotated in the clockwise direction.
The printing paper that has passed through the process cartridge 40 will be inserted between the heating roller 94 and the pressure roller 96. When the heating roller 94 rotates in the clockwise direction, the printing paper between the heating roller 94 and the pressure roller 96 will be transported leftward. The printing paper will be heated by means of the heating roller 94 that has been heated to a high temperature. In this way, the toner transferred to the printing paper will be fixed thereto by means of heat. The printing paper that has passed through the toner fixing device 90 will be transported upward and to the left (arrow D3).
A transport roller 97 is disposed immediately below the left end of the frame 92. The transport roller 97 is supported by the casing 12. The transport roller 97 is connected to a drive source not shown in the drawings. The transport roller 97 will rotate in the counterclockwise direction. The transport roller 97 will transport the printing paper transported from the toner fixing device 90 further upward and to the left. The printing paper transported upward and to the left by the transport roller 97 will be transported rightward along a rail 98.
Two discharge rollers 100, 100 are disposed on the right side of the rail 98. The lower discharge roller 100 is connected to a drive source not shown in the drawings. The lower discharge roller 100 will rotate in the clockwise direction. The upper discharge roller 100 is not connected to a power source. When the lower discharge roller 100 rotates in the clockwise direction, the upper discharge roller 100 rotates in the counterclockwise direction.
The printing paper transported by the transport roller 97 is inserted between the two discharge rollers 100, 100. When the lower discharge roller 100 rotates in the clockwise direction, the printing paper between the two discharge rollers 100, 100 is transported rightward. The printing paper is transported out of the casing 12. A discharge tray 110 is formed on the upper surface of the casing 12. The printing paper transported out of the casing 12 is discharged onto the discharge tray 110.
The basic structure of the printer 10 has been described. How the printing paper is transported inside the casing 12 has been described. Next, the detailed structure of the process cartridge 40 will be described with reference to
The process cartridge 40 is constructed by two cartridges 43, 44. The cartridge 43 disposed on the right side will be referred to as a developer cartridge, and the cartridge 44 disposed on the left side will be referred to as a photoreceptor cartridge. The developer cartridge 43 and the photoreceptor cartridge 44 are connected in a manner allowing separation.
The structure of the two cartridges 43, 44 will be described below. First, the structure of the photoreceptor cartridge 44 will be described. The photoreceptor cartridge 44 has a casing 44a. The through hole 42a through which a laser beam will pass is formed in the upper surface of the casing 44a. An entrance hole 44b through which printing paper will enter is formed in the lower surface of the casing 44a. In addition, an exit hole 44c through which printing paper will exit is formed in the left side surface of the casing 44a. The printing paper enters into the photoreceptor cartridge 44 from the entrance hole 44b, passes between the photoreceptor drum 54 and the transfer roller 52, and exits from the exit hole 44c.
The photoreceptor drum 54, the transfer roller 52, and a charger 66 are disposed inside the casing 44a of the photoreceptor cartridge 44.
The photoreceptor drum 54 is in contact with the developing roller 50 on the left side of the developing roller 50. The photoreceptor 54 has a photoreceptor drum main body 54a and a photoreceptor drum shaft 54b. The photoreceptor drum main body 54a has a tubular shape. The photoreceptor drum main body 54a is a positive charge type photoreceptor. The surface of the photoreceptor drum main body 54a is constructed by polycarbonate or the like. The photoreceptor drum shaft 54b is made of metal. The photoreceptor drum shaft 54b is fixed to the casing 44a of the photoreceptor cartridge 44. The photoreceptor drum main body 54a is attached to the photoreceptor drum shaft 54b. The photoreceptor drum main body 54a is connected to a drive source not shown in the drawings. The photoreceptor drum main body 54a rotates in the clockwise direction.
The transfer roller 52 is in contact with the photoreceptor drum 54 on the lower side of the photoreceptor drum 54. The transfer roller 52 comprises a transfer roller main body 52a and a transfer roller shaft 52b. The transfer roller main body 52a is made of a conductive rubber material. The transfer roller shaft 52b is made of metal. The transfer roller shaft 52b is attached to the casing 44a of the photoreceptor cartridge 44. The transfer roller shaft 52b is connected to a drive source not shown in the drawings. The transfer roller 52 rotates in the counterclockwise direction. The transfer roller shaft 52b is connected to a voltage supply circuit not shown in the drawings. During transfer (during the time in which the toner adhered to the photoreceptor drum 54 is transferred to printing paper), a bias voltage will be applied from the voltage supply circuit to the transfer roller 52.
The charger 66 is disposed above the photoreceptor drum 54. A gap is arranged between the charger 66 and the photoreceptor drum 54. The charger 66 is a scorotron type. The charger 66 has a discharge wire 66a and a grid 66b. The discharge wire 66a is a wire that extends perpendicular to the plane of
Next, the structure of the developer cartridge 43 will be described. The developer cartridge 43 has a case main body 43a. The toner chamber 45 is formed inside the case main body 43a. Toner is housed in the toner chamber 45. In the present embodiment, a positive electrostatic charge type, non-magnetic mono-component toner is used. For example, a polymer toner obtained by co-polymerizing a styrene monomer and an acrylic monomer by means of suspension polymerization will be used. Examples of acryl monomers that can be used include acrylic acid, alkyl (C1-C4) acrylate, alkyl (c1-C4) methacrylate, and the like. The polymer toner is substantially spherical in shape, and has excellent fluidity. A colorant and a wax are combined with the polymer toner. In addition, in order to improve fluidity, an additive such as silica or the like is added.
An agitator 46 is disposed in the toner chamber 45. The agitator 46 is attached to the case main body 43a, and rotates with a shaft 46a as a center. When the agitator 46 rotates in the clockwise direction, the toner inside the toner chamber 45 is agitated. In this way, the toner is supplied to the supply roller 48.
An opening 43b is formed in the left surface of the case main body 43a. The opening 43b extends in a direction that is perpendicular to the plane of
The supply roller 48 comprises a supply roller main body 48a and a supply roller shaft 48b. The supply roller main body 48a is formed by means of a conductive foam material. The supply roller shaft 48b is made of metal. The supply roller 48 is supported by the case main body 43a of the developer cartridge 43. The supply roller 48 is connected to a drive source not shown in the drawings. The supply roller 48 rotates in the clockwise direction.
The developing roller 50 is in contact with the supply roller 48 on the left side of the supply roller 48. The developing roller 50 comprises a developing roller main body 50a and a developing roller shaft 50b. The developing roller main body 50a is made of a conductive rubber material. Examples of the rubber material that can be used include a conductive urethane rubber or a silicone rubber that contains carbon microparticles or the like. The surface of the urethane rubber or the silicone rubber is coated with a urethane rubber or a silicone rubber containing fluorine. The developing roller shaft 50b is made of metal. The developing roller shaft 50b is connected to a voltage supply circuit not shown in the drawings. During development (during the time in which the toner is adhered to the photoreceptor drum 54 from the developing roller 50), a bias voltage is applied from the voltage supply circuit to the developing roller 50. The developing roller 50 is supported by the case main body 43a at a position that faces the opening 43b. The developing roller 50 is connected to a drive source not shown in the drawings. The developing roller 50 rotates in the counterclockwise direction.
An adjustment member 47 is fixed to the case main body 43a. The adjustment member 47 is arranged on the left side of the opening 43b. The adjustment member 47 extends in a direction that is perpendicular to the plane of
There are areas 140, 140 that face the rotation surface of the developing roller 50 on both ends (right end and left end) of the case main body 43a. In addition, there are areas 142, 142 that face the rotation surface of the developing roller 50 on both ends (right end and left end) of the adjustment member 47. The right side facing area 140 of the case main body 43a and the right side facing area 142 of the adjustment member 47 are aligned in the vertical direction. Also, the left side facing area 140 and the left side facing area 142 are aligned in the vertical direction. In the rotation direction of the developing roller 50, the facing areas 140, 140 of the case main body 43a are located upstream of the facing areas 142, 142 of the adjustment member 47.
There are two side seal members 150, 150. One of the side seal members 150 is bonded to the right side facing area 140 and the right side facing area 142. The other of the side seal members 150 is bonded to the left side facing area 140 and the left side facing area 142.
The developing roller 50 is not shown in
A front frame 143b is formed on the lower portion of the case main body 43a. An axis direction seal member 156 is mounted on the front frame 143b. The axis direction seal member 156 has an axis direction seal portion 156a and a rotation direction seal portion 156b. The axis direction seal portion 156a is a thin film, and is formed from polyethylene terepthalate (PET). The axis direction seal portion 156a extends along the rotation axis direction of the developing roller 50. The axis direction seal portion 156a extending along the rotation axis direction (the horizontal direction) can be clearly seen in
The rotation direction seal portion 156b is short along the rotation axis direction of the developing roller 50, and long along the rotation direction of the developing roller 50. The rotation direction seal portion 156b is arranged between the outer end of the axis direction seal portion 156a (the right end in
The rotation surface of the developing roller 50 is in contact with the axis direction seal portion 156a. In addition, the rotation surface of the developing roller 50 is also in contact with the portion of the rotation direction seal portion 156b that projects out from the axis direction seal portion 156a. By placing the developing roller 50 in contact with the axis direction seal portion 156a and the rotation direction seal portion 156b, a seal is created between the lower portion of the developing roller 50 and the case main body 43a.
Next, the structure of the side seal member 150 will be described in detail with reference to
The side seal member 150 has a case side elastic member 150a, an adjustment member side elastic member 150c , and a felt member 150b. The case side elastic member 150a is bonded to the facing area 140 of the case main body 43a (see
The felt member 150b extends leftwards (upstream side of the rotation direction of the developing roller 50) beyond the case side elastic member l50a The portion of the felt member 150b that extends leftwards beyond the case side elastic member 150a is bonded to the case main body 43a. The portion of the felt member 150b that is bonded to the case main body 43a is not in contact with the developing roller 50. The portion of the felt member 150b that is bonded to the case main body 43a does not function as a seal for the developing roller 50. The portion indicated with reference number 150d is the upstream end of the portion that functions as a seal for the side seal member 150. The position indicated with reference numeral 150d will be referred to below as the upstream end of the side seal member 150.
As shown in
Next, the structure of the adjustment member 47 will be described in detail. The adjustment member 47 has a support member 160. The support member 160 supports a contact member 162 that makes contact with the developing roller 50. The contact member 162 is not visible in the cross-sectional view of
A sponge member 164 is disposed between the case main body 43a and the rear side frame member 160b. The sponge member 164 extends along the rotation axis direction of the developing roller 50. The sponge member 164 creates a seal between the case main body 43a and the frame member 160b. A sponge member 166 is also disposed between the sponge member 164 and the stainless steel plate 160c. The sponge member 166 also extends along the rotation axis direction of the developing roller 50, and functions as a seal.
An elastic member (e.g., a sponge) 168 that is embedded around the supply roller shaft 48b is disposed on the lower portion of the case main body 43a. The side seal member 150 (the case side elastic member 150a) is also bonded to the sponge 168.
As shown in
Next, the positional relationship between the axis direction seal member 156 and the side seal member 150 will be described in detail with reference to
An area 190 shown by hatching indicates the portion in which the axis direction seal member 156 is in contact with the developing roller 50. An imaginary line 190b indicates the upstream end of the contact area 190 (the upstream end in the rotation direction of the developing roller 50). An imaginary line 190a indicates the downstream end of the contact area 190 (the downstream end in the rotation direction of the developing roller 50). The rotation direction seal portion 156b projects outward (to the right in
The central portion of the contact area 190 in the horizontal direction is shallower than the end portions of the contact area 190. That is, the upstream end 190b of the contact area 190 extends in a straight line along the rotation axis direction in the central portion of the developing roller 50, and the outer ends thereof are curved on the upstream side (the lower side of
The outer surface 156c of the rotation direction seal portion 156b is in contact with the inner surface 150e of the side seal member 150. A gap is arranged between the outer surface 156d of the axis direction seal portion 156a and the inner surface 150e of the side seal member 150.
The structure of the process cartridge 40 has been described in detail. Referring again to
The toner of the toner chamber 45 adheres to the supply roller 48. The toner adhered to the supply roller 48 is positively charged by means of friction between the supply roller 48 and the developing roller 50. The toner that is positively charged covers the surface of the developing roller SO. The contact member 162 of the adjustment member 47 (see
In contrast, the surface of the photoreceptor drum main body 54a is positively charged by means of the charger 66. The surface of the positively charged photoreceptor drum main body 54a is irradiated with a laser beam generated from the exposure device 70 (see
The toner that covers the developing roller 50 adheres to the exposed portion of the photoreceptor drum main body 54a. At this point, the toner does not adhere to the non-exposed portion of the photoreceptor drum main body 54a. In this way, the electrostatic latent image formed on the photoreceptor drum main body 54a becomes visible. A visible image having a uniform thickness is developed on the photoreceptor drum main body 54a because the thickness of the toner layer on the developing roller 50 is uniformly maintained by means of the adjustment member 47.
The visible image supported on the photoreceptor drum main body 54a is transferred to printing paper between the photoreceptor drum 54 and the transfer roller 52. At this point, a bias voltage is applied to the transfer roller 52. The toner is transferred to the printing paper due to the difference in electric potential between the photoreceptor drum 54 and the transfer roller 52. The toner is transferred to the printing paper at a uniform density because a visible image having a uniform thickness is developed on the photoreceptor drum main body 54a. In this way, the printing density is uniformly maintained.
A desired image (text or drawing) is printed on the printing paper by means of each of the aforementioned processes.
The axis direction seal portion 156a shown in
Although a gap is provided between the axis direction seal portion 156a and the side seal member 150, the outer surface 156c of the rotation direction seal portion 156b is in contact with the inner surface 150e of the side seal member 150. In this way, a seal is created between the axis direction seal member 156 and the side seal member 150. Toner can be prevented from leaking out from between the axis direction seal member 156 and the side seal member 150.
In the present embodiment, the axis direction seal member 156 is formed by the axis direction seal portion 156a and the rotation direction seal portion 156b. Because the rotation direction seal portion 156b is provided, it is difficult for toner on the right end or left end of the axis direction seal portion 156a to enter between the axis direction seal portion 156a and the case main body 43a. Because of this, the sealing effect can be further improved.
The sealing effect of the developer cartridge 43 of the present embodiment is extremely high. If this developer cartridge 43 is used, soiling of the printer 10 by leaked toner can be effectively prevented.
Specific examples of embodiments of the present invention are presented above, but these merely illustrate some possibilities of the invention and do not restrict the claims thereof. The technique set forth in the claims includes transformations and modifications to the specific examples set forth above.
For example, the side seal member 150 and the axis direction seal member 156 can be modified as follows.
(Variant 1)
With this configuration, the developer cartridge 43 having a highly effective seal can be achieved.
(Variant 2)
With this modification, a large space is formed between the area that is located upstream of the contact area 190 and the upstream end 150d of the side seal member 150. Thus, it is difficult for toner that has moved in the direction of the arrow P to reach the side seal member 150. According to the present modification, a larger toner receiver 182 can be provided.
(Variant 3)
With this configuration, a large space can be formed between the area that is located upstream of the contact area 190 and the upstream end 150d of the side seal member 150. In addition, a large toner receiver 182 can be provided.
(Variant 4)
In the above embodiment, the rotation direction seal portion 156b is formed from felt. However, the rotation direction seal portion 156b may be formed from another material. For example, the rotation direction seal portion 156b may be formed from sponge.
In addition, the technical elements disclosed in the present specification or figures may be utilized separately or in various combinations and are not limited to the combination set forth in the claims at the time of filing of this application. Furthermore, the technique disclosed in the present specification or figures may be utilized to simultaneously realize a plurality of objects or to realize one of these objects.
Number | Date | Country | Kind |
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2005-282636 | Sep 2005 | JP | national |
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6336014 | Sato et al. | Jan 2002 | B1 |
6459867 | Ohgoshi et al. | Oct 2002 | B2 |
6496668 | Sato et al. | Dec 2002 | B2 |
7076185 | Okamoto | Jul 2006 | B2 |
7206535 | Nozawa | Apr 2007 | B2 |
7292802 | Fukuta et al. | Nov 2007 | B2 |
7336913 | Sato et al. | Feb 2008 | B2 |
Number | Date | Country |
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62-192769 | Aug 1987 | JP |
62-208073 | Sep 1987 | JP |
63-180984 | Jul 1988 | JP |
9-80906 | Mar 1997 | JP |
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Number | Date | Country | |
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20070071490 A1 | Mar 2007 | US |