US2020064074A1PendingUtilityA1
Condenser and heat dissipation apparatus
Est. expiryAug 22, 2038(~12.1 yrs left)· nominal 20-yr term from priority
Inventors:Cheng-Chien WanCheng-Feng WanHao-Hui LinTung-Hsin LiuWei-Che HsiaoHsiao-Ching ChenDhao-Jung Lin
F28D 1/0435F28D 15/0266F28D 2021/0031H05K 7/20318F28D 15/0233F28D 1/0417H10W 40/73H10W 40/226
45
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Claims
Abstract
A condenser has a main condensing module, an auxiliary condensing module, and a connecting tube. The main condensing module has an input base tube, a first connecting base tube, and a main heat dissipating mechanism, which are series connected. The auxiliary condensing module has a second connecting base tube, an output base tube, and an auxiliary heat dissipating mechanism, which are series connected. The connecting tube is mounted between the main condensing module and the auxiliary condensing module. An interior room of the first connecting base tube communicates with an interior room of the second connecting base tube.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A condenser comprising:
a main condensing module having
an input base tube;
a main heat dissipating mechanism having
a first side end connected with and communicating with the input base tube; and
a second side end; and
a first connecting base tube connected with and communicating with the second side end of the main heat dissipating mechanism, and arranged at a spaced interval with the input base tube;
an auxiliary condensing module disposed at a spaced interval with the main condensing module, and having
a second connecting base tube;
an auxiliary heat dissipating mechanism having
a first side end connected with and communicating with the second connecting base tube; and
a second side end;
an output base tube connected with and communicating with the second side end of the auxiliary heat dissipating mechanism, and arranged at a spaced interval with the second connecting base tube; and
a connecting tube mounted between the main condensing module and the auxiliary condensing module, and having
a first end connected with and communicating with the first connecting base tube; and
a second end connected with and communicating with the second connecting base tube, wherein an interior space of the first connecting base tube communicates with an interior space of the second connecting base tube.
2 . The condenser as claimed in claim 1 , wherein
the main heat dissipating mechanism has
multiple main heat dissipating tubes mounted between the input base tube and the first connecting base tube and disposed at spaced intervals in a vertical direction; and
multiple main heat dissipating sheets mounted between the multiple main heat dissipating tubes, wherein the multiple main heat dissipating sheets are in thermally-conductive contact with the multiple main heat dissipating tubes; and
the auxiliary heat dissipating mechanism has
multiple auxiliary heat dissipating tubes mounted between the second connecting base tube and the output base tube and disposed at spaced intervals in a vertical direction; and
multiple auxiliary heat dissipating sheets mounted between the multiple auxiliary heat dissipating tubes, wherein the multiple auxiliary heat dissipating sheets are in thermally-conductive contact with the multiple auxiliary heat dissipating tubes.
3 . The condenser as claimed in claim 1 , wherein the connecting tube has multiple connecting flow channels mounted in the connecting tube and arranged at spaced intervals in the vertical direction, wherein each connecting flow channel communicates with the first connecting base tube and the second connecting base tube.
4 . The condenser as claimed in claim 2 , wherein the connecting tube has multiple connecting flow channels mounted in the connecting tube and arranged at spaced intervals in the vertical direction, wherein each connecting flow channel communicates with the first connecting base tube and the second connecting base tube.
5 . A heat dissipation apparatus comprising:
the condenser as claimed in claim 1 ; an evaporation component having
an evaporator having
an evaporation chamber formed in the evaporator; and
a conducting base plate mounted at a bottom surface of the evaporator;
an input tube having
a first end connected with a top surface of the evaporator; and
a second end connected with the input base tube of the main condensing module; and
an output tube having
a first end connected with a side surface of the evaporator; and
a second end connected with the output base tube of the auxiliary condensing module, wherein the evaporation component and the condenser form a closed loop, and the closed loop is full of refrigerants.
6 . The heat dissipation apparatus as claimed in claim 5 , wherein
a refrigerant input hole is formed in an upper section of the input base tube, and the second end of the input tube is connected with the refrigerant input hole of the input base tube; and a refrigerant output hole is formed in a lower section of the output base tube, and the second end of the output tube is connected with the refrigerant output hole of the output base tube.
7 . The heat dissipation apparatus as claimed in claim 6 , wherein
a return hole is formed in a lower section of the input base tube; the evaporation component further has a return tube having
a first end connected with a side surface of the evaporation component; and
a second end connected with the return hole of the input base tube.
8 . The heat dissipation apparatus as claimed in claim 5 , wherein a diameter of the input tube is larger than a diameter of the output tube.
9 . A heat dissipation apparatus comprising:
the condenser as claimed in claim 2 ; an evaporation component having
an evaporator having
an evaporation chamber formed in the evaporator; and
a conducting base plate mounted at a bottom surface of the evaporator;
an input tube having
a first end connected with a top surface of the evaporator; and
a second end connected with the input base tube of the main condensing module; and
an output tube having
a first end connected with a side surface of the evaporator; and
a second end connected with the output base tube of the auxiliary condensing module, wherein the evaporation component and the condenser form a closed loop, and the closed loop is full of refrigerants.
10 . The heat dissipation apparatus as claimed in claim 9 , wherein
a refrigerant input hole is formed in an upper section of the input base tube, and the second end of the input tube is connected with the refrigerant input hole of the input base tube; and a refrigerant output hole is formed in a lower section of the output base tube, and the second end of the output tube is connected with the refrigerant output hole of the output base tube.
11 . The heat dissipation apparatus as claimed in claim 10 , wherein
a return hole is formed in a lower section of the input base tube; the evaporation component further has a return tube having
a first end connected with a side surface of the evaporation component; and
a second end connected with the return hole of the input base tube.
12 . The heat dissipation apparatus as claimed in claim 9 , wherein a diameter of the input tube is larger than a diameter of the output tube.
13 . A heat dissipation apparatus comprising:
the condenser as claimed in claim 3 ; an evaporation component having
an evaporator having
an evaporation chamber formed in the evaporator; and
a conducting base plate mounted at a bottom surface of the evaporator;
an input tube having
a first end connected with a top surface of the evaporator; and
a second end connected with the input base tube of the main condensing module; and
an output tube having
a first end connected with a side surface of the evaporator; and
a second end connected with the output base tube of the auxiliary condensing module, wherein the evaporation component and the condenser form a closed loop, and the closed loop is full of refrigerants.
14 . The heat dissipation apparatus as claimed in claim 13 , wherein
a refrigerant input hole is formed in an upper section of the input base tube, and the second end of the input tube is connected with the refrigerant input hole of the input base tube; and a refrigerant output hole is formed in a lower section of the output base tube, and the second end of the output tube is connected with the refrigerant output hole of the output base tube.
15 . The heat dissipation apparatus as claimed in claim 13 , wherein
a return hole is formed in a lower section of the input base tube; the evaporation component further has a return tube having
a first end connected with a side surface of the evaporation component; and
a second end connected with the return hole of the input base tube.
16 . The heat dissipation apparatus as claimed in claim 13 , wherein a diameter of the input tube is larger than a diameter of the output tube.
17 . A heat dissipation apparatus comprising:
the condenser as claimed in claim 4 ; an evaporation component having
an evaporator having
an evaporation chamber formed in the evaporator; and
a conducting base plate mounted at a bottom surface of the evaporator;
an input tube having
a first end connected with a top surface of the evaporator; and
a second end connected with the input base tube of the main condensing module; and
an output tube having
a first end connected with a side surface of the evaporator; and
a second end connected with the output base tube of the auxiliary condensing module, wherein the evaporation component and the condenser form a closed loop, and the closed loop is full of refrigerants.
18 . The heat dissipation apparatus as claimed in claim 17 , wherein
a refrigerant input hole is formed in an upper section of the input base tube, and the second end of the input tube is connected with the refrigerant input hole of the input base tube; and a refrigerant output hole is formed in a lower section of the output base tube, and the second end of the output tube is connected with the refrigerant output hole of the output base tube.
19 . The heat dissipation apparatus as claimed in claim 18 , wherein a return hole is formed in a lower section of the input base tube;
the evaporation component further has a return tube having
a first end connected with a side surface of the evaporation component; and
a second end connected with the return hole of the input base tube.
20 . The heat dissipation apparatus as claimed in claim 19 , wherein a diameter of the input tube is larger than a diameter of the output tube.Cited by (0)
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