RU98101419A - EVAPORATOR-CONDENSER FOR HEAT PUMP - Google Patents

Claims (15)

1. A heat exchanger designed, at least in part, for use as an evaporator, comprising: an upper block of a reservoir tank having a series of downwardly opening pipe grooves, a lower block of a reservoir reservoir located below and at a certain distance from said upper block of the reservoir a manifold having a series of upwardly opening pipe grooves, the pipe grooves in said upper block of the reservoir tank are aligned with the corresponding pipe grooves in said lower block of the reservoir reservoir ; blocks of reservoir tanks are connected by vertically arranged pipes with an elongated section, inserted at their ends into the corresponding said grooves and tightly fixed in the corresponding block of the reservoir tank; a first passage in said lower block of the reservoir tank adapted to serve as an inlet during an evaporation operation and an outlet during a condensing operation; a second passage in said upper block of the reservoir tank located on the opposite side of said upper block of the reservoir reservoir relative to said first passage and at least adapted to serve as an outlet during the evaporation operation; a transition pipe having a substantially larger inner diameter of the passage compared to said elongated pipes, located between said first and second passages, connected to said lower block of the reservoir tank at a first location located at a distance from both said passages, and connected to the said upper block of the reservoir tank at a second location located at a distance from both of these passages; means comprising a first flow restrictor in said lower block of the reservoir tank, to prevent the passage of fluid flow through said lower block of the reservoir reservoir from said first passage to said first location of said transition pipe; and means comprising a second flow limiter in said upper block of the reservoir tank located between said second passage and said second location to prevent flow from passing along said upper block of the reservoir reservoir from said second location to said second passage; as a result, during the evaporation operation, the vaporized liquid will flow into the said lower block of the reservoir tank, then into a part of the pipes with an elongated cross-section, then through the said upper block of the reservoir tank to the said second location and then will be returned to the lower block of the reservoir collector through said transition pipe to leak from said lower block of the reservoir tank through the remainder of said pipes with elongated cross-section into said upper block reserve ara-collector and then to said second passage, whereby is achieved a more even distribution of said fluid and improve the evaporation operation.  2. The heat exchanger according to claim 1, wherein at least one of said flow restrictors is a baffle.  3. The heat exchanger according to claim 1, wherein at least one of said flow restrictors is a one-way valve.  4. The heat exchanger according to claim 1, wherein one of said flow restrictors is a baffle and the other of said flow restrictors is a one-way valve.  5. The heat exchanger according to claim 1, wherein said first flow restriction is a baffle and said second flow restriction is a one-way valve.  6. The heat exchanger according to claim 5, which also includes another one-way valve located in said transition pipe so as to allow the flow to move only from said second location to said first location, but not back.  7. The heat exchanger according to claim 6, specially adapted for use in a heat pump system in such a way as to perform both an evaporation operation and a condensing operation, and including a third passage located on said lower side of the reservoir tank on its opposite side to said first passage said septum, said third passage being adapted to serve as a liquid inlet during the condensation operation.  8. The heat exchanger according to claim 1, wherein said second flow restrictor is a baffle.  9. The heat exchanger according to claim 8, wherein said first flow restrictor is a baffle.  10. The heat exchanger according to claim 1, wherein both of said flow restrictors are baffles.  11. The heat exchanger according to claim 1, wherein said elongated tubes are straight and said collector tank units are curved and substantially congruent to each other.  12. A heat exchanger comprising the first and second curved and practically congruent tubular manifolds; one of these collectors is an upper collector; the second of these collectors is located below and at a certain distance from said upper collector, aligned with said upper collector and is a lower collector; a first row of elongated pipe grooves located in said upper manifold and opening downward in the direction of said lower manifold; a second row of elongated pipe grooves located in said lower manifold and opening upward in the direction of said upper manifold; each pipe groove in said first row corresponds to a pipe groove in said second row; corresponding pipe grooves in said rows are aligned with each other; the said collectors are connected by straight smooth parallel to each other pipes with an elongated section; each of said pipes is inserted with its first end into a corresponding groove in said first row; each of said pipes is inserted at its opposite end into a corresponding groove in said second row; a first refrigerant passage in one of said manifolds; and a second refrigerant passage in one of said manifolds.  13. The heat exchanger according to claim 12, further comprising first and second flow restrictors in said first and second collectors, respectively, wherein said first passage is located in said first collector and said second passage is in said second collector, as well as a transition pipe connecting said collectors from a location opposite from said first passage side of said first flow restrictor on said first collector to a location on said second collector with opposite from said second passage side of said second flow restriction.  14. A heat exchanger, including: the upper block of the reservoir tank, having a series of downwardly opening pipe grooves; the lower block of the reservoir tank, located below and at some distance from the said upper block of the reservoir tank and having a series of upwardly opening pipe grooves; pipe grooves in said upper block of the reservoir tank are aligned with corresponding pipe grooves in said lower block of the reservoir tank; blocks of reservoir tanks are connected by vertically arranged pipes with an elongated section, inserted at their ends into the corresponding said grooves and tightly fixed in the corresponding block of the reservoir tank; a first passage in said lower block of the reservoir tank adapted to serve as an inlet during an evaporation operation and an outlet during a condensing operation; a second passage in said upper block of the reservoir tank located on the opposite side of said upper block of the reservoir reservoir relative to said first passage and at least adapted to serve as an outlet during the evaporation operation; a transition pipe having a substantially larger inner diameter of the passage compared to said elongated pipes, located between said first and second passages, connected to said lower block of the reservoir tank at a first location located at a distance from both said passages, and connected to the said upper block of the reservoir tank at a second location located at a distance from both of these passages; a first partition in said lower block of the reservoir tank, to prevent the passage of fluid flow through said lower block of the reservoir reservoir from said first passage to said first location of said transition pipe; and means comprising a second flow restriction in said upper block of the reservoir tank located between said second passage and said second location to prevent the flow from passing through said upper block of the reservoir reservoir from said second location to said second passage; as a result, during the evaporation operation, the vaporized liquid will flow into the said lower block of the reservoir tank, then into a part of the pipes with an elongated cross-section, then through the said upper block of the reservoir tank to the said second location and then will be returned to the lower block of the reservoir collector through said transition pipe to leak from said lower block of the reservoir tank through the remainder of said pipes with elongated cross-section into said upper block reserve ara-collector and then to said second passage, whereby is achieved a more even distribution of said fluid and improve the evaporation operation.  15. A heat exchanger, including: the upper block of the reservoir tank, having a series of downwardly opening pipe grooves; the lower block of the reservoir tank, located below and at some distance from the said upper block of the reservoir tank and having a series of upwardly opening pipe grooves; pipe grooves in said upper block of the reservoir tank are aligned with corresponding pipe grooves in said lower block of the reservoir tank; blocks of reservoir tanks are connected by vertically arranged pipes with an elongated section, inserted at their ends into the corresponding said grooves and tightly fixed in the corresponding block of the reservoir tank; a first passage in said lower block of the reservoir tank adapted to serve as an inlet during an evaporation operation and an outlet during a condensing operation; a second passage in said upper block of the reservoir tank located on the opposite side of said upper block of the reservoir reservoir relative to said first passage and at least adapted to serve as an outlet during the evaporation operation; a transition pipe having a substantially larger inner diameter of the passage compared to said elongated pipes, located between said first and second passages, connected to said lower block of the reservoir tank at a first location located at a distance from both said passages, and connected to the said upper block of the reservoir tank at a second location located at a distance from both of these passages; a partition in said lower block of the reservoir tank, to prevent the passage of fluid flow through said lower block of the reservoir reservoir from said first passage to said first location of said transition pipe; means comprising a first one-way valve in said upper block of the reservoir tank located between said second passage and said second location to prevent the passage of flow through said upper block of the reservoir reservoir from said second location to said second passage; and a second one-way valve in said transition pipe, mounted so as to allow flow from said second location to said first location, but not vice versa; as a result, during the evaporation operation, the vaporized liquid will flow into the said lower block of the reservoir tank, then into a part of the pipes with an elongated cross-section, then through the said upper block of the reservoir tank to the said second location and then will be returned to the lower block of the reservoir collector through said transition pipe to leak from said lower block of the reservoir tank through the remainder of said pipes with elongated cross-section into said upper block reserve ara-collector and then to said second passage, whereby is achieved a more even distribution of said fluid and improve the evaporation operation.