This application claims priority of Taiwanese Application No. 096103882, filed on Feb. 2, 2007.
1. Field of the Invention
The invention relates to a fuser assembly, more particularly to a fuser assembly applicable to an electrophotographic device.
2. Description of the Related Art
In U.S. Pat. No. 6,559,421, there is disclosed a conventional fuser assembly for an electrophotographic device that includes a tubular roller, a heater disposed in the tubular roller, and a pressing roller that makes a point contact with the tubular roller.
In operation, when a recording medium with a toner image thereon is fed to the conventional fuser assembly, the toner image on the recording medium is subjected to heat generated by the heater via the tubular roller, by which the toner image is melted, and is subsequently pressed between the tubular roller and the pressing roller, by which the toner image is fixed on the recording medium.
Although the aforementioned conventional fuser assembly achieves its intended purpose, since the pressing roller makes only a point contact with the tubular roller, during operation of the fuser assembly, the toner image on the recording medium makes contact with the tubular roller within only a very short period of time. As such, the recording medium has to be fed very slowly to the conventional fuser assembly. The conventional fuser assembly can, therefore, be very inefficient. Moreover, since the tubular roller is made from a metallic pipe, undesirable curling of the recording medium occurs during operation of the conventional fuser assembly.
A fuser assembly has been proposed in U.S. Pat. No. 5,210,579 to solve the aforementioned problems. The proposed fuser assembly includes a tubular roller that is made from a thin film of polyimide, a support member disposed in the tubular roller, a heater mounted fixedly on the support member, and a pressing roller that presses the tubular roller against the support member and the heater. The proposed fuser assembly, however, is disadvantageous in that, since the heater is mounted fixedly on the support member, when the heater needs replacing, the support member has to be replaced as well.
Therefore, the main object of the present invention is to provide a fuser assembly that can overcome the aforesaid drawbacks of the prior art.
According to the present invention, a fuser assembly for an electrophotographic device comprises a deformable tubular roller, a pressing member, a pressing roller, and a heater. The pressing member is disposed in the tubular roller and has a flat surface. The pressing roller includes an elastic member that presses the tubular roller against the flat surface of the pressing member. The heater is disposed in the tubular roller and is separated from the pressing member.
Other features and advantages of the present invention will become apparent in the following detailed description of the preferred embodiment with reference to the accompanying drawings, of which:
Referring to
The fuser assembly 40 of this embodiment is applied to an electrophotographic printer 300 (see
With further reference to
When the electrophotographic printer 300 is operated, each of the photosensitive drum 33 and the transfer roller 32 starts to rotate, and a recording medium 30, such as a sheet of paper, is fed between the photosensitive drum 33 and the transfer roller 32. Then, the light source 31, such as a semiconductor laser, irradiates a light beam on the photosensitive drum 33, whereby an electrostatic latent image (not shown) is formed on the photosensitive drum 33. Subsequently, the developing roller 35 electrostatically transfers toner (not shown) from the toner cartridge 34 onto the photosensitive drum 33, whereby a toner image (not shown) is formed on the photosensitive drum 33 which corresponds to the electrostatic latent image on the photosensitive drum 33. As the recording medium 30 is further fed between the photosensitive drum 33 and the transfer roller 32, the toner image is transferred from photosensitive drum 33 onto the recording medium 30. The recording medium 30 is thereafter fed to the fuser assembly 40 for fixing the toner image thereon in a manner that will be described hereinafter.
The fuser assembly 40 further includes a casing 4 that includes upper and lower casing parts 42, 41. The lower casing part 41 of the casing 4 includes left and right walls 411, each of which is formed with a hole 410 therethrough, and a bottom wall 412 that interconnects the left and right walls 411 thereof and that cooperates with the left and right walls 411 to define an accommodating space 413. In this embodiment, the lower casing part 41 is made from metal. The upper casing part 42 of the casing 4 is disposed above the lower casing part 41, and includes left and right walls 421, each of which is provided with an engaging member 420, and a top wall 422 that interconnects the left and right walls 421 thereof. In this embodiment, the upper casing part 42 is made from a plastic material.
The fuser assembly 40 further includes a roller support 5 that includes spaced apart first and second support members 51, each of which is mounted movably on a respective one of the left and right walls 411 of the lower casing part 41 of the casing 4.
With further reference to
Since the construction of the second support member 51 of the roller support 5 is similar to that of the first support member 51 of the roller support 5, a detailed description thereof is omitted herein for the sake of brevity.
Preferably, each of the first and second support members 51 of the roller support 5 is made from a plastic material.
The tubular roller 6 is disposed in the accommodating space 413 in the lower casing part 41 of the casing 4, and has left and right open end portions 61, each of which defines an opening 610 and is sleeved rotatably on the second end portion 512 of a respective one of the first and second support members 51 of the roller support 5 through the opening 610 thereof. In this embodiment, the tubular roller 6 is made from a thin film of polyamide. Preferably, the tubular roller 6 has a wall thickness of 75 μm.
The pressing member 7 is disposed in the tubular roller 6, has a flat surface 71, extends through the opening 610 defined by each of the left and right open end portions 61 of the tubular roller 6 and the hole 410 in each of the left and right walls 411 of the lower casing part 41 of the casing 4, and abuts against the horizontal member 532 of the bracket 53 of the respective one of the first and second support members 51 of the roller support 5. In this embodiment, the pressing member 7 is made from a metal alloy. In an alternative embodiment, the pressing member 7 may be made from ceramic.
The pressing roller 9 is mounted rotatably on the casing 4, and includes a shaft 91, an elastic member 92, and a gear 93. The shaft 91 of the pressing roller 9 is disposed in the accommodating space 413 in the lower casing part 41 of the casing 4, and extends rotatably through the hole 410 in each of the left and right walls 411 of the lower casing part 41 of the casing 4. The elastic member 92 of the pressing roller 9 is disposed in the accommodating space 413 in the lower casing part 41 of the casing 4, is wrapped around the shaft 91, and presses the tubular roller 6 against the flat surface 71 of the pressing member 7, as best shown in
The electrographic printer 300 further includes a motor (not shown) that is coupled to the gear 93 of the pressing roller 9, and that is operable so as to drive rotation of the pressing roller 9.
The fuser assembly 40 further includes a protective layer 73 provided on the flat surface 71 of the pressing member 7 for reducing a friction coefficient between an inner surface of the tubular roller 6 and the flat surface 71 of the pressing member 7 to less than that of between an outer surface of the tubular roller 6 and the recording medium 30. In this embodiment, the protective layer 73 is made from a resin material. Preferably, the protective layer has a thickness of 15 μm.
The fuser assembly 40 further includes a biasing unit 50 that serves to bias the tubular roller 6 against the pressing roller 9. In particular, the outer surface of each of the first and second support members 51 of the roller support 5 is further formed with a protrusion 54 that is disposed externally of the lower casing part 41 of the casing 4. The biasing unit 50 includes first and second abutting members 501, third and fourth abutting members 502, and first and second biasing members 503. Each of the first and second abutting members 501 is fastened on the respective one of the left and right walls 411 of the lower casing part 41 of the casing 4. Each of the third and fourth abutting members 502 is sleeved on the protrusion 54 of the respective one of the first and second support members 51 of the roller support 5 and abuts against the outer surface of the respective one of the first and second support members 51 of the roller support 5. The first biasing member 503 is sleeved on the protrusion 54 of the first support member 5 of the roller support 5, and has opposite ends that abut respectively against the first and third abutting members 501, 502. The second biasing member 503 is sleeved on the protrusion 54 of the second support member 51 of the roller support 5, and has opposite ends that abut respectively against the second and fourth abutting members 501, 502. In this embodiment, each of the first and second biasing members 503 of the biasing unit 50 is a compression spring.
The heater 8 is disposed above and separated from the pressing member 7, and includes a heat-generating element 81 and a pair of electrodes 82. The heat-generating element 81 of the heater 8 is disposed in the tubular roller 6, and has left and right end portions. Each of the electrodes 82 extends from a respective one of the left and right end portions of the heat-generating element 81, through the opening 610 defined by the respective one of the left and right open end portions 61 of the tubular roller 6, and further through a space between the vertical members 531 of the bracket 53 of the respective one of the first and second support members 51 of the roller support 5. Each of the electrodes 82 is additionally coupled to a power source (not shown), and engages releasably the engaging member 420 of a respective one of the left and right walls 421 of the upper casing part 42 of the casing 4, thereby mounting removably the heater 8 on the casing 4. As such, the heater 8 can be solely replaced. In this embodiment, the heater 8 is a halogen heater. In an alternative embodiment, the heater 8 is a resistor.
In operation, referring to
From the above description, since the tubular roller 6 is pressed on the flat surface 71 of the pressing member 7 by the pressing roller 9, during the operation of the fuser assembly 40 of this invention, not only is undesirable curling of the recording medium 30 prevented, but the toner image 301 on the recording medium 30 makes contact with the tubular roller 6 for a relatively longer period of time. As such, the recording medium 30 may be fed very quickly to the fuser assembly 40 of this invention. The fuser assembly 40 of this invention can, therefore, be applied to an electrographic printer with a fast printing speed. Moreover, since the friction coefficient between the inner surface of the tubular roller 6 and the flat surface 71 of the pressing member 7 is less than that between the outer surface of the tubular roller 6 and the recording medium 30, slippage between the recording medium 30 and the tubular roller 6 is prevented during the operation of the fuser assembly 40 of this invention.
It is noted herein that the outer surface of the tubular roller 6 may be coated with a tetrafluoroethylene perfluoroalkylvinylether copolymer resin (PFA) for preventing the toner image 301 from adhering thereon.
The fuser assembly 40 further includes a heater controller 2 (see
Based on experimental results and with reference to
While the present invention has been described in connection with what is considered the most practical and preferred embodiment, it is understood that this invention is not limited to the disclosed embodiment but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
Number | Date | Country | Kind |
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096103882 | Feb 2007 | TW | national |