[미국특허]
Remote distance transporting and integrating heat ejection connected to central heating ductwork (auxiliary heat ejectors)
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F24D-005/08
F24D-005/04
F24D-019/00
F15B-015/00
출원번호
US-0896204
(2013-05-16)
등록번호
US-9188347
(2015-11-17)
발명자
/ 주소
Ohunna, II, Paul N
출원인 / 주소
Home Energy Technologies, Inc.
인용정보
피인용 횟수 :
0인용 특허 :
42
초록▼
Auxiliary heat ejectors (380A, 490) having an optional independent circulator module (380D), heat exchange radiators (41e, 41f), heated fluid inlet lines (21e, 21f) and exchange fluid return lines (47e, 47f) with pumps (49e, 49f) connected to other tandem modules such as heat sources (30E, 40F) inco
Auxiliary heat ejectors (380A, 490) having an optional independent circulator module (380D), heat exchange radiators (41e, 41f), heated fluid inlet lines (21e, 21f) and exchange fluid return lines (47e, 47f) with pumps (49e, 49f) connected to other tandem modules such as heat sources (30E, 40F) incorporated by reference, a flexible helical corrugated body (53e) or a retractable modular unite walls (53f) on cart wheels (25f), actuators (23e, 23f), partitions (35e, 37e, 37f), inlet and outlet end having flanges (45e, 45f, 35g) for connecting with shared ductwork of a primary heater. The independent circulator module (380D) comprises of a flexible body (41g), support (21g), flow check gate (31g), a blower motor (27g) with propeller 25g.
대표청구항▼
1. A transporting and integrating heat ejector device (380A) for transferring heat from a heated fluid source to a distributing central heating ductwork plenum (85e) and comprising: a flexible, corrugated, body (53e) enclosing pluralities of heat exchange radiators (41e) interconnected in series wit
1. A transporting and integrating heat ejector device (380A) for transferring heat from a heated fluid source to a distributing central heating ductwork plenum (85e) and comprising: a flexible, corrugated, body (53e) enclosing pluralities of heat exchange radiators (41e) interconnected in series with stretchable coils (43e) inside the said insulated body (53e); the first of said radiators having an inlet connected to an insulated inlet pipe (21e) which is connected to a heating source (30E, 40F) outlet through a hydraulic actuator (23e) and the last of said radiators having an outlet connected to an outlet pipe (47e) which is connected to a fluid pump (49e) inlet; the said pump having an outlet connected to said hydraulic actuator (23e) and the actuator connected to a return inlet of said heating source (30E, 40F) to complete a fluid closed loop; said body (53e) having at least two open ends with flanges (45e) for connecting the open ends of said body to a plenum (85e) of a ductwork in closed loop air distribution configuration; and further comprising: (a) actuated partitions (37e) that partition said ductwork plenum (85e) and have sole-share adjusters (33e) for prioritizing proportion of share; said partitions being connected to controllers (29e and 31e) and said controllers being connected to a piston (27e) and said piston connected to said actuator (23e) for auto control of said partitions;(b) said pump (49e) being configured for circulation of heat depleted fluid from said last radiator having outlet line (47e) connected to said hydraulic actuator though a fluid pipe (22e) to an inlet of said heating source (30E, 40F) where it is heated and circulated to the first radiator (41e) inlet via a fluid pipe (21e) to said first radiator (41e) inlet in the body (53e) of an installed heat ejector (380a) that ejects heat into a distributing ductwork plenum (85e) where the heated fluid flows and a heat exchange return air (A, B) flows from ductwork air return through said radiators (41e) in opposite direction in a maximized counter current exchange arrangement; the closed loop circulation of fluid configured to provide a heat source to the return air (A, B) via the heat exchange radiators (41e);(c) a partition actuator (23e) is connected to said corrugated body (53e) by an actuator fastener (51e) and said actuator has an actuator piston (27e) with a recoil spring (25e) for recoil return motion of said actuator piston (27e);(d) having said piston with return recoil springs (25e) connected to said controllers (29e, 31e) that controls access to the said ductwork plenum using share-partitions (35e) and sole-partitions (37e) to adjustably slide over pivoting share-partitions. 2. A heat transporting ejector according to claim 1 wherein said actuator is also electrically powered. 3. A transporting heat ejector according to claim 1 having said pump being optionally powered by a high voltage AC or a step down transformed and rectified DC current with a backup rechargeable battery which provides for operation in event of power failure. 4. A transporting heat ejector according to claim 1 having zero failure mode effect that allows ductwork and plenum to be used in its form before heat ejector installation, making the heat ejector available on-demand. 5. A remote distance transporting and integrating heat ejector device (390, 390A) with an insulated rigid geometric body (53f) for transferring heat from a heated fluid source (30E, 40F) to a distributing central heating ductwork plenum and comprising: a cart (33f) on a cart rails (59f); said cart rails spanning from one end of said body (53f) to an opposite end of a plenum (85e) or an air circulation ductwork, said cart being configured to insert and retract its presence into and out of the ductwork flow path via the rails;the said body having flanges (45f) for connecting to said plenum; said body (53f) enclosing pluralities of heat exchange radiators (41f) stacked and connected in series;partitions (37f) for partitioning heating shared or sole-shared ductwork;a pump (49f) being configured for circulation of a heated fluid from a hot fluid heating source (30E, 40F) to an installed heat ejector (390) that ejects heat into a distributing central heating ductwork plenum (85e) and circulates heat depleted cold fluid back to a heating source (30E, 40F) system;a partition actuator (23f) connected to the body (53f) by an actuator support (57f) and connected to said actuator is an actuator piston (27f) having internal recoil spring (25e) for reverse motion of said actuator piston (27f) when said actuation is turned off; and further comprising: (a) a heated fluid inlet line (21f) from a remote heating source (30E, 40F) connected to a first radiator (41f) in said series; and(b) module connection (61f) under and between said pair of parallel cart wheels and cart rail for an independent circulation module connection. 6. A heater according to claim 5 having two stage telescopic actuator piston comprising of a first stage partition telescopic piston (31f) that projects from said actuator (23f) to a partition controller (35f) connected to a sole-share partition; said partition is pivotally connected to an end of the cartwheels; said pistons have internal recoil spring for reverse motion when actuation is turned off; a second sage projection telescopic piston (39f) that projects said cart on cart rail when actuated and said recoil spring retracts said cart when actuation power is off or system failure occurs. 7. A heater according to claim 5 wherein hot fluid passes through said actuator to a top heat exchange radiators and exit at a bottom radiator through exchange fluid return line and exchange air passed from bottom to top, in a counter-current exchange. 8. A heater according to claim 5 wherein a heat ejector when connected to an independent circulator module has the capability and provides a choice of using a primary heater blower or said independent circulator module for air closed loop ductwork circulation. 9. A heater according to claim 5 wherein radiators in said body are sequentially arranged to provide opposite direction flow of air to provide counter current heat exchange in both fluid and return air closed loop systems.
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