IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0284250
(2011-10-28)
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등록번호 |
US-8857322
(2014-10-14)
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발명자
/ 주소 |
- Hankins, Robert Jeffery
- Davis, Raymond E.
- Davis, William Neal
- Hampton, Clifton Glenn
- Davis, Raymond Michael
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출원인 / 주소 |
- ADCO Industries—Technologies, L.P.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
46 |
초록
▼
A roller grill for heating a pre-cooked food product includes a housing structure adapted to support the roller grill; a plurality of tubes having outer surfaces adapted to transfer heat to the pre-cooked food product; a plurality of non-metallic gears, each non-metallic gear mounted on an end of a
A roller grill for heating a pre-cooked food product includes a housing structure adapted to support the roller grill; a plurality of tubes having outer surfaces adapted to transfer heat to the pre-cooked food product; a plurality of non-metallic gears, each non-metallic gear mounted on an end of a corresponding tube; a motor including a motor shaft and adapted to generate a rotational power through the motor shaft at a first rotational speed; and a drive sub-assembly adapted to transfer the rotational power from the shaft to the plurality of non-metallic gears at a second rotational speed.
대표청구항
▼
1. A roller grill for heating a pre-cooked food product, comprising: a housing structure adapted to support the roller grill;a plurality of tubes disposed between opposed portions of the housing structure and having outer surfaces adapted to transfer heat to the pre-cooked food product;a plurality o
1. A roller grill for heating a pre-cooked food product, comprising: a housing structure adapted to support the roller grill;a plurality of tubes disposed between opposed portions of the housing structure and having outer surfaces adapted to transfer heat to the pre-cooked food product;a plurality of non-metallic gears, each non-metallic gear mounted on an end of a corresponding tube;a motor disposed within a cavity of the housing structure, the motor comprising a motor shaft and adapted to generate a rotational power through the motor shaft at a first rotational speed;a fan coupled to the motor;a drive sub-assembly coupled to the motor and adapted to transfer the rotational power from the shaft to the plurality of non-metallic gears at a second rotational speed; anda cover plate mounted within a plenum of the housing structure adjacent the non-metallic gears, the plenum at least partially defined by a side housing of the housing structure, the cover plate extending across a width of the plenum that is orthogonal to a length of the plurality of tubes that extend lengthwise between the opposed portions of the housing structure, whereinat least one of the plurality of non-metallic gears is mounted to the cover plate, the cover plate serves as a heat sink to receive heat transferred from the plurality of tubes through the plenum, and the cover plate comprises at least one aperture that permits airflow between the plenum and an ambient space, whereinthe motor and the fan are mounted in a bottom portion of the housing arranged beneath the plurality of tubes, the fan positioned to circulate airflow between the plenum and the ambient space to cool the cover plate. 2. The roller grill of claim 1, wherein the first and second rotational speeds are substantially identical. 3. The roller grill of claim 1, wherein the non-metallic gears comprise a heat resistive material having a continual duty max temperature rating of between about 120° F. (49.9° C.) and about 500° F. (260° C.). 4. The roller grill of claim 1, wherein the non-metallic gears comprise a heat resistive material having a continual duty max temperature rating of between about 120° F. (49.9° C.) and about 200° F. (93.3° C.). 5. The roller grill of claim 1, wherein the drive sub-assembly comprises: a timing pulley coupled to a second shaft having at least one worm gear mounted on the second shaft, the worm gear in contacting engagement with at least one of the plurality of non-metallic gears; anda timing belt coupled to the motor and the timing pulley and adapted to transfer the rotational power generated by the motor into rotary motion of the tubes through contacting engagement of the worm gear with the non-metallic gear. 6. The roller grill of claim 5, wherein at least one of the non-metallic gears comprises a helical spur gear. 7. The roller grill of claim 5, wherein the timing belt comprises a plurality of teeth protruding from a surface of the timing belt, the teeth engageable with a plurality of corresponding teeth disposed on a surface of the timing pulley. 8. The roller grill of claim 5, wherein the drive sub-assembly further comprises a timing gear mounted on the second shaft and engageable with the timing belt. 9. The roller grill of claim 1, wherein the drive sub-assembly comprises: a plurality of idler gears mounted to a portion of the housing structure and contactingly engaged with the plurality of non-metallic gears, the idler gears adapted to transfer the rotational power from the motor to the plurality of non-metallic gears at the second rotational speed. 10. The roller grill of claim 9, wherein the drive sub-assembly further comprises a drive gear coupled to the shaft of the motor, the drive gear adapted to transfer the rotational power from the motor to the plurality of idler gears. 11. The roller grill of claim 10, wherein the drive sub-assembly further comprises at least one transfer gear in contacting engagement with at least one of the idler gears and adapted to transfer the rotational power from the drive gear to the least one of the plurality of idler gears. 12. The roller grill of claim 1, wherein the plurality of non-metallic gears comprise a plurality of timing pulleys, each timing pulley comprising a notched circumferential surface, and the drive sub-assembly comprises: a timing belt coupled to the motor and contactingly engaged with the notched circumferential surfaces of the timing pulleys, the timing belt adapted to transfer the rotational power generated by the motor to the tubes at the second rotational speed. 13. The roller grill of claim 12, wherein the drive sub-assembly further comprises a plurality of idler pulleys comprising substantially smooth circumferential surfaces, wherein the timing belt is contactingly engaged with the smooth circumferential surfaces of the plurality of idler pulleys. 14. The roller grill of claim 13, wherein the drive sub-assembly comprises a timing gear mounted on the shaft and engageable with the timing belt. 15. The roller grill of claim 1, wherein at least one of the non-metallic gears comprises a self-lubricating gear. 16. An apparatus for heating a pre-cooked food product, comprising: a bottom housing mounted between a first side housing and a second side housing;a plurality of legs mounted to the bottom housing;a plurality of tubes disposed between the first and second side housings and having outer surfaces adapted to transfer heat to the pre-cooked food product;a plurality of non-metallic gears, each non-metallic gear mounted on an end of a corresponding tube;a motor disposed within a cavity defined by the first side, second side, and bottom housings, the motor comprising a motor shaft and adapted to generate a rotational power through the motor shaft at a first rotational speed; anda fan coupled to the motor, the fan and the motor mounted in the bottom housing;a drive sub-assembly coupled to the motor and adapted to transfer the rotational power from the shaft to the plurality of non-metallic gears at a second rotational speed; anda cover plate mounted within a plenum of the first side housing adjacent the non-metallic gears, the plenum at least partially defined by the first side housing, the cover plate extending across a width of the plenum that is orthogonal to a length of the plurality of tubes that extend lengthwise between the first and second side housings of the roller grill, whereinthe cover plate serves as a heat sink to receive heat transferred from the plurality of tubes through the plenum, and the cover plate comprises at least one aperture that permits airflow between the plenum and an ambient space, andthe fan is positioned beneath the plurality of tubes to circulate airflow from the ambient space, through the bottom housing, and to the first side housing to cool the cover plate. 17. The apparatus of claim 16, wherein the first and second rotational speeds are substantially identical. 18. The apparatus of claim 16, wherein the non-metallic gears comprise a heat resistive material having a continual duty max temperature rating of between about 120° F. (49.9° C.) and about 500° F. (260° C.). 19. The apparatus of claim 16, wherein the non-metallic gears comprise a heat resistive material having a continual duty max temperature rating of between about 120° F. (49.9° C.) and about 200° F. (93.3° C.). 20. The apparatus of claim 16, wherein the drive sub-assembly comprises: a timing pulley coupled to a second shaft having at least one worm gear mounted on the second shaft, the worm gear in contacting engagement with at least one of the plurality of non-metallic gears; anda timing belt coupled to the motor and the timing pulley and adapted to transfer the rotational power generated by the motor into rotary motion of the tubes through contacting engagement of the worm gear with the non-metallic gear. 21. The apparatus of claim 20, wherein at least one of the non-metallic gears comprises a helical spur gear. 22. The apparatus of claim 20, wherein the timing belt comprises a plurality of teeth protruding from a surface of the timing belt, the teeth engageable with a plurality of corresponding teeth disposed on a surface of the timing pulley. 23. The apparatus of claim 20, wherein the drive sub-assembly further comprises a timing gear mounted on the second shaft and engageable with the timing belt. 24. The apparatus of claim 16, wherein the drive sub-assembly comprises: a plurality of idler gears mounted to a portion of the housing structure and contactingly engaged with the plurality of non-metallic gears, the idler gears adapted to transfer the rotational power from the motor to the plurality of non-metallic gears at the second rotational speed. 25. The apparatus of claim 24, wherein the drive sub-assembly further comprises a drive gear coupled to the shaft of the motor, the drive gear adapted to transfer the rotational power from the motor to the plurality of idler gears. 26. The apparatus of claim 25, wherein the drive sub-assembly further comprises at least one transfer gear in contacting engagement with at least one of the idler gears and adapted to transfer the rotational power from the drive gear to the least one of the plurality of idler gears. 27. The apparatus of claim 16, wherein the plurality of non-metallic gears comprise a plurality of timing pulleys, each timing pulley comprising a notched circumferential surface, and the drive sub-assembly comprises: a timing belt coupled to the motor and contactingly engaged with the notched circumferential surfaces of the timing pulleys, the timing belt adapted to transfer the rotational power generated by the motor to the tubes at the second rotational speed. 28. The apparatus of claim 27, wherein the drive sub-assembly further comprises a plurality of idler pulleys comprising substantially smooth circumferential surfaces, wherein the timing belt is contactingly engaged with the smooth circumferential surfaces of the plurality of idler pulleys. 29. The apparatus of claim 28, wherein the drive sub-assembly comprises a timing gear mounted on the shaft and engageable with the timing belt.
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