Source: http://patents.com/us-7881650.html
Timestamp: 2018-12-16 15:24:38
Document Index: 36879545

Matched Legal Cases: ['Application No. 08156024', 'art.\n6', 'art.\n11', 'art.\n12', 'art.\n23', 'Application No. 2007', 'art 320', 'art 320']

US Patent # 7,881,650. Fusing device and image forming apparatus having the same - Patents.com
United States Patent 7,881,650
Shin , et al. February 1, 2011
Appl. No.: 12/036,514
Oct 04, 2007 [KR] 10-2007-0099852
5210579 May 1993 Setoriyama et al.
5303016 April 1994 Oda et al.
5528345 June 1996 Hasegawa
6731901 May 2004 Nishitani et al.
7294810 November 2007 Haseba et al.
2006251479 Sep., 2006 JP
European Search Report issued Jan. 23, 2009 in European Application No. 08156024.5. cited by other.
1. A fusing device, comprising: a pressing unit; a belt unit to rotate in contact with the pressing unit; a nip forming unit disposed to form a nip area on a contact area between the pressing unit and the belt unit; a heating unit to heat the nip forming unit and the belt unit; a support unit to support the nip forming unit with respect to the pressing unit; and an insulating member disposed between the nip forming unit and the support unit to prevent transfer of the heat from the nip forming unit to the support unit.
2. The fusing device of claim 1, wherein the heating unit is spaced-apart from the nip forming unit and the support unit to directly and indirectly receive heat from the heating unit.
3. The fusing device of claim 1, wherein the nip forming unit is disposed between the heating unit and the belt unit.
4. The fusing unit of claim 1, wherein the nip forming unit comprises: a main body to surround at least a portion of the heating unit to receive a first portion of heat from the heating unit; and a nip part connected to the main body and disposed on the nip area to receive a second portion of the heat from the heating unit.
5. The fusing unit of claim 4, wherein: the first portion of heat of the heating unit is transmitted to the nip part; and the second portion of heat of the heating unit is directly transmitted from the heating unit to the nip part.
6. The fusing unit of claim 1, wherein the nip forming unit comprises: a main body to receive a first portion of the heat from the heating unit; and a nip part having a first portion to receive the first portion of the heat of the heating unit from the main body and a second portion to directly receive a second portion of the heat of the heating unit.
7. The fusing unit of claim 1, wherein the nip forming unit comprises: a main body to surround a first portion of the heating unit to receive a first portion of heat of the heating unit; and a nip part to surround a second portion of the heating unit to receive a second portion of heat of the heating unit.
8. The fusing unit of claim 7, wherein the belt unit surrounds a third portion of the heating unit to receive a third portion of heat of the heating unit.
9. The fusing unit of claim 7, wherein the main body is spaced-apart from the heating unit by a first distance, and the nip part is spaced-apart from the heating unit by a second distance longer than the first distance to form the nip area between the belt and the pressing unit.
10. The fusing unit of claim 7, wherein the main body comprises a portion to provide a passage through which the second portion of heat of the heating unit is directly received by the nip part.
11. The fusing unit of claim 10, wherein the portion of the main body transmits the first portion of the heat to the nip part.
12. The fusing unit of claim 1, wherein the nip forming unit is disposed between the heating unit and the support unit to prevent direct-transmission of the heat from the heating unit to the support unit.
13. The fusing unit of claim 1, wherein the support unit comprises: an inner support member disposed inside a traveling path of the belt unit to support the nip forming unit; and an outer support member disposed outside the traveling path of the belt unit and connected to the inner support member to support the inner support member.
14. The fusing unit of claim 1, wherein the support unit comprises: an inner support member disposed to support the nip forming unit to be spaced-apart from the heating unit; and an outer support member disposed outside the belt unit to support the inner support member with respect to the pressing unit.
15. The fusing unit of claim 1, wherein the insulating member comprises: a first portion disposed between the nip forming unit and the support unit to provide a heat insulation; and a second portion extended from the first portion to guide the belt unit along a traveling path.
16. A fusing device, comprising: a pressing unit; a belt unit to rotate in contact with the pressing unit; a nip forming unit to be in contact with the pressing unit to form a nip area on a contact area between the pressing unit and the belt unit; a heating unit to heat the nip forming unit and the belt unit; a support unit to support the nip forming unit with respect to the pressing unit, the support unit comprising a space formed therein, so that the belt unit passes through the space of the support unit; and an insulating member disposed between the nip forming unit and the support unit to prevent transfer of the heat from the nip forming unit to the support unit.
17. An image forming apparatus comprising: an image forming unit to form an image on a printing medium; and a fusing device to fix the image onto the printing medium, wherein the fusing device comprises: a pressing unit; a belt unit to rotate in contact with the pressing unit; a nip forming unit disposed to form a nip area on a contact area between the pressing unit and the belt unit; a heating unit to heat the nip forming unit and the belt unit; a support unit to support the nip forming unit with respect to the pressing unit; and an insulating member disposed between the nip forming unit and the support unit to prevent transfer of the heat from the nip forming unit to the support unit.
18. An image forming apparatus comprising: an image forming unit to form an image on a printing medium; and a fusing device to fix the image onto the printing medium, wherein the fusing device comprises: a pressing unit; a belt unit to rotate in contact with the pressing unit; a nip forming unit to be in contact with the pressing unit to form a nip area on a contact area between the pressing unit and the belt unit; a heating unit to heat the nip forming unit and the belt unit; a support unit to support the nip forming unit with respect to the pressing unit, the support unit comprising a space formed therein, so that the belt unit passes through the space of the support unit; and an insulating member disposed between the nip forming unit and the support unit to prevent transfer of the heat from the nip forming unit to the support unit.
19. A fusing device, comprising: a pressing unit; a belt unit to rotate in contact with the pressing unit; a nip forming unit to be in contact with the pressing unit to form a nip area on a contact area between the pressing unit and the belt unit; a heating unit to heat the nip forming unit and the belt unit; and a support unit to support the nip forming unit with respect to the pressing unit, the support unit comprising a space formed therein, so that the belt unit passes through the space of the support unit, the support unit comprising an inner support member placed inside the belt unit and an outer support member placed outside the belt unit such that both ends of the outer support member are engaged with the inner support member to reinforce strength of the inner support member and to form a path for a radiation heat to disperse.
20. The fusing device of claim 19, wherein: the pressing unit comprises a rotatable roller member; and the belt unit rotates by a rotating force transmitted from the roller member.
21. The fusing device of claim 19, wherein the nip forming unit comprises: a main body formed to surround at least a portion of the heating unit to collect radiation heat from the heating unit; and a nip part connected to the main body to contact the belt unit.
22. The fusing device of claim 21, wherein the main body comprises a slit to allow a portion of the radiation heat of the heating unit to be directly transferred to the nip part.
23. The fusing device of claim 21, wherein the main body and the nip part are formed in a single integral body.
24. The fusing device of claim 21, wherein the nip part comprises a portion to face the pressing unit and another portion to be curved to correspond to the shape of an outer circumference of the pressing unit.
25. The fusing device of claim 21, further comprising: a thermostat formed on a cover of the fusing device to detect, by contact or without contact, a temperature of the belt unit and shut off power when detecting overheating, wherein an outer support member of the support unit comprises a hole to accommodate the thermostat to detect the temperature.
26. The fusing device of claim 19, wherein: the nip forming unit comprises a main body and a nip part; and the inner support member comprises a central portion comprising a pair of spaced ribs to press both sides of the nip part, and an arch-shape connector to connect both ends of each of the pair of spaced ribs.
27. The fusing device of claim 26, wherein the central portion further comprises reinforcing ribs bent toward an inner side of the pair of spaced ribs.
28. The fusing device of claim 26, wherein the inner support member comprises a plurality of spacers disposed between the pair of spaced ribs to keep the pair of spaced ribs at a predetermined distance from each other.
29. The fusing device of claim 26, further comprising: an insulating member disposed between the nip part of the nip forming unit and a central portion of the inner support member to prevent transfer of heat of the nip forming unit to the support unit.
30. The fusing device of claim 29, wherein the insulating member comprises a portion to contract the belt unit and having a round shape to correspond to a traveling path of the belt unit.
31. The fusing device of claim 29, wherein the nip forming unit comprises a main body formed with a heat shielding part to prevent transfer of radiation heat of the heating unit to the inner support member and the insulating member.
32. The fusing device of claim 19, wherein the support unit further comprises guide members provided on the both ends of the support unit to guide the traveling of the belt unit.
33. The fusing device of claim 32, wherein the guide members are fit in between arch-shape connectors of the inner support member and both ends of the outer support member and are fastened in place by screws respectively.
34. The fusing device of claim 32, wherein the space of the support unit has a length to correspond to a length of the belt unit in a direction parallel to a rotating axis of the belt unit.
35. The fusing device of claim 33, wherein the both ends of the outer support member contact the arch-shape connector of the inner support member.
36. The fusing device of claim 33, wherein the both ends of the outer support member are bent and fastened.
37. The fusing device of claim 19, wherein the inner support member is located inside the belt unit to press a nip part of the nip unit member toward the pressing unit, and the outer support member is located outside the belt unit.
38. The fusing device of claim 37, further comprising: an insulating member disposed between the inner support member and the nip forming unit to prevent transfer of heat from the nip part to the inner support member, wherein the insulating member comprises a surface to face the belt unit and to be round to correspond to a traveling path of the belt unit.
39. The fusing device of claim 37, further comprising: guide members formed on both sides of the inner support member and the outer support member, to guide the traveling of the belt unit, wherein each of the guide members comprises a portion to be fit in between the inner support member and the outer support member and to be fastened in place by a coupling member.
40. An image forming apparatus comprising: a photosensitive medium to form an electrostatic latent image thereon; a developing unit to develop the electrostatic latent image on the photosensitive medium with a developer; a transfer unit to transfer a developer image of the photosensitive medium onto a recording medium; and a fusing device to fix the developer image into the recording medium, wherein the fusing device comprises, a pressing unit, a belt unit to rotate in contact with the pressing unit, an outer surface of the belt unit contacting the pressing unit, a nip forming unit in contact with the pressing unit to form a nip area on a contact area between the pressing unit and the belt unit, an inner surface of the nip forming unit contacting the belt unit, a heating unit to heat the nip forming unit and the belt unit, and a support unit to press the nip forming unit, the support unit comprising: an inner support member located within the belt unit to press a nip part of the nip forming unit toward the pressing unit; an outer support member located outside the belt unit, and having both ends to be engaged with the inner support member to reinforce the inner support member and form a path for radiation heat to disperse; and a space formed therein for the belt unit to disperse through.
This application claims priority under 35 U.S.C. .sctn.119(a) from Korean Patent Application No. 2007-99852, filed Oct. 4, 2007, in the Korean Intellectual Property Office, the entire disclosure of which is hereby incorporated in its entirety by reference.
The nip forming unit 300 includes a main body 310 to receive or collect the radiant heat from the heating unit 400, and a nip part 320 to form the nip area N formed on a contact between the pressing unit 100 and the belt unit 200. The main body 310 may be disposed to wrap around or surround a portion or an entirety of the heating unit 400, so as to receive or collect not only the radiant heat from the heating unit 400, but also the radiant heat reflected from other structures, such as an inner surface of the belt unit 200. The collected heat energy is transmitted to the nip part 320. The main body 310 may include one or more slit 310a and/or gap 310b to allow the radiant heat from the heating unit 400 to be passed and directly transmitted to the nip area 320. The nip forming unit 300 may be made of highly heat-transferable materials, such as metals including aluminum or copper, or alloy of metals.
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