JP2000213825A5 - - Google Patents

Description

The invention according to claim 7 is a receiver-integrated condenser (100) integrally joined by brazing, which is a plurality of tubes (111) through which a refrigerant flows and a tube (111). The space (121a, 121b) provided at the end in the longitudinal direction and communicating with each tube (111) to form the condenser (2) and the tube (111) located on the lower side provide the supercooler (4). A receiver casing (130) formed in a substantially cylindrical shape and extending in a direction parallel to the header tank (121) forming a space (121c) to be formed and formed in a substantially cylindrical shape. (3, 130, 131, 132), a member (131a, 137) provided between the upper side of the receiver and the header tank, and supporting the receiver on the header tank, and a receiver. A joint block provided between the side wall of the receiver casing (130) on the lower side of the liquid vessel and the side wall of the header tank (121) to support the receiver to the header tank, and receives liquid from the condenser. It is provided with a joint block (138) in which an inflow passage (138a) for the refrigerant flowing into the vessel and an outflow passage (138b) for the refrigerant flowing out from the liquid receiver to the supercooler are formed, and the header tank (121) and the receiver are provided. A technical means called a liquid receiver integrated condenser is adopted, which is characterized in that a gap (135) through which air passes is formed between the liquid container (3) and the liquid container (3).
In the invention according to claim 8, the side wall of the receiver casing (130) is formed with an opening communicating with the inflow passage (138a) formed in the joint block (138) and the joint block (138). An opening communicating with the outflow passage (138b) is provided, and an opening communicating with the inflow passage (138a) formed in the joint block (138) and a joint block (138) are provided on the side wall of the header tank (121). ) Is provided with an opening communicating with the outflow passage (138b), which is a technical means of a receiver-integrated condenser. Configurations such as openings in such inventions can be provided as illustrated in FIG.
In the invention according to claim 9, the receiver includes a first cap and a second cap (131, 132) that close both ends in the longitudinal direction of the receiver casing (130). Adopt a technical means called an integrated condenser.
In the invention according to claim 10, a packing (330) such as urethane that is in contact with the receiver is provided so that air passes through the gap (135) between the header tank (121) and the receiver (3). The technical means of the receiver-integrated condenser according to any one of claims 1 to 9, wherein the condenser is provided is adopted.
In the invention according to claim 11, a packing (330) such as urethane provided at the other end of the tube (111) in the longitudinal direction and in contact with the second header tank (122) communicating with each tube (111) is further provided. The technical means of the receiver-integrated condenser according to claim 10, characterized in that it is provided, is adopted.
The invention according to claim 12 employs the technical means of the receiver-integrated condenser according to claim 10 or 11, wherein the packing (330) is located on the downstream side.
According to the invention according to claim 13, the liquid receiver integrated condenser according to any one of claims 10 to 12, wherein the packing (330) closes the space between the packing (330) and the radiator (200). Adopt technical means.
The invention according to claim 14, wherein the support member (131a, 137) is brazed to the receiver casing (130), according to any one of claims 7 to 13. A technical means called a receiver-integrated condenser is adopted.
Incidentally, the reference numerals in parentheses of the above means are examples showing the correspondence with the specific means described in the embodiments described later.

Claims (14)

A condensing core (110) having a plurality of tubes (111) through which the refrigerant flows and condensing the refrigerant;
First and second header tanks (121, 122) provided at both longitudinal ends of the tube (110) and communicating with the plurality of tubes (111);
The first header tank (121) has a predetermined gap (135) and is directly fixed to the first header tank (121). And a liquid receiver (3) that separates the liquid phase refrigerant and stores the liquid phase refrigerant. A condensing core (110) having a plurality of tubes (111) through which the refrigerant flows and condensing the refrigerant;
First and second header tanks (121, 122) provided at both longitudinal ends of the tube (110) and communicating with the plurality of tubes (111);
The first header tank (121) and the first header tank (121) having a predetermined gap (135) are fixed to the first header tank (121), and the refrigerant flowing out of the condensation core (110) A liquid receiver (3) that stores liquid phase refrigerant separated into
The liquid receiver (3) includes a joint block (138a) in which a refrigerant path (138a) flowing into the liquid receiver (3) and a refrigerant path (138b) flowing out from the liquid receiver (3) are formed. 138) and is fixed to the first header tank (111) through the receiver-integrated condenser. The first header tank (121) is formed to extend in a direction perpendicular to the longitudinal direction of the tube (111),
Further, the liquid receiver (3) is formed to extend in a direction parallel to the first header tank (121), and the first header tank is formed by two places on one end side and the other end side in the longitudinal direction. The receiver-integrated condenser according to claim 1 or 2, wherein the condenser is integrated with (121).   The gap dimension (δ) between the first header tank (121) and the liquid receiver (3) is 1 mm or more and 10 mm or less, according to any one of claims 1 to 3. Condenser with integrated receiver. In the vehicle which mounts the receiver integrated condenser (100) according to any one of claims 1 to 4 in an engine room,
The receiver integrated condenser, wherein the receiver integrated condenser (100) is arranged in the engine room so that air flowing into the engine room passes through the gap (135). The mounting structure of the vessel. In the vehicle which mounts the receiver integrated condenser (100) according to any one of claims 1 to 4 in an engine room,
A radiator core (210) for cooling the engine coolant is provided downstream of the receiver-integrated condenser (100) in the air flow;
Further, the receiver-integrated condenser (100) is arranged so that the gap (135) is located at a position overlapping the radiator core (210) when viewed from the upstream side of the air flow flowing into the engine room. A mounting structure for a condenser integrated with a liquid receiver, which is disposed in the engine room. A receiver-integrated condenser (100) integrally joined by brazing,
A plurality of tubes (111) through which the refrigerant flows;
A space (121a, 121b) that is provided at the longitudinal end of the tube (111) and communicates with each tube (111) and forms a condenser (2), and the tube (111) located on the lower side. A header tank (121) forming a space (121c) constituting the subcooler (4);
It is formed in a substantially cylindrical shape and extends in the direction parallel to the header tank (121), and is formed in a substantially cylindrical shape. A liquid receiver (3, 130, 131, 132) comprising a liquid receiver casing (130) formed;
Members (131a, 137) provided between the upper side of the liquid receiver and the header tank, and supporting the liquid receiver on the header tank;
A joint block provided between the side wall of the receiver casing (130) on the lower side of the receiver and the side wall of the header tank (121) and supporting the receiver on the header tank; A joint block (138) in which an inflow passage (138a) for refrigerant flowing from the condenser to the receiver and an outflow passage (138b) for refrigerant flowing from the receiver to the subcooler are formed; With
A receiver-integrated condenser having a gap (135) through which air passes between the header tank (121) and the receiver (3). An opening communicating with the inflow passage (138a) formed in the joint block (138) and an outflow passage (138b) formed in the joint block (138) are formed in a side wall of the receiver casing (130). And an opening communicating with the inflow passage (138a) formed in the joint block (138) on the side wall of the header tank (121), and the joint block (138). And an opening that communicates with the outflow passage (138b) formed in the receiver). The liquid receiver-integrated condenser, wherein the liquid receiver includes a first cap and a second cap (131, 132) that block both longitudinal ends of the liquid receiver casing (130). A packing (330) made of urethane or the like in contact with the liquid receiver is provided so that air passes through the gap (135) between the header tank (121) and the liquid receiver (3). The receiver integrated condenser according to any one of claims 1 to 9. Furthermore, a packing (330) made of urethane or the like is provided at the other longitudinal end of the tube (111) and is in contact with a second header tank (122) communicating with each tube (111). The receiver-integrated condenser according to 10. The receiver-integrated condenser according to claim 10 or 11, wherein the packing (330) is located on the downstream side. The receiver-integrated condenser according to any one of claims 10 to 12, wherein the packing (330) closes a gap between the packing (330) and the radiator (200). 14. The receiver integrated condenser according to any one of claims 7 to 13, wherein the support member is brazed to the receiver casing (130).