Claims
- 1. A refrigerant cycle system for an air conditioning apparatus for a vehicle having a passenger compartment, said refrigerant cycle system comprising:
- a first heat exchanger, disposed inside the passenger compartment, for performing heat-exchange between air to be blown into the passenger compartment and refrigerant flowing through the said first heat exchanger;
- a second heat exchanger, disposed outside the passenger compartment, for performing heat-exchange between air outside the passenger compartment and refrigerant flowing through said second heat exchanger;
- a compressor for compressing refrigerant, said compressor having an inlet port for introducing therein low-pressure refrigerant, a gas-injection port for introducing therein middle-pressure refrigerant and an outlet port for discharging compressed high-pressure refrigerant;
- first decompressing means for reducing a pressure of liquid refrigerant, condensed in one of said first heat exchanger and said second heat exchanger, to a middle pressure;
- a gas-liquid separator for separating the middle-pressure refrigerant decompressed by said first decompressing means into gas refrigerant and liquid refrigerant;
- second decompressing means for decompressing the liquid refrigerant separated by said gas-liquid separator; and
- a gas-injection pipe for introducing gas refrigerant separated by said gas-liquid separator into said gas-injection port of said compressor, wherein:
- said gas-liquid separator includes a gas-suction pipe for introducing gas refrigerant into said gas-injection pipe; and
- said gas-suction pipe includes
- an open end opened in gas refrigerant within said gas-liquid separator,
- a middle pipe portion which is immersed in liquid refrigerant within said gas-liquid separator and has a first suction hole through which liquid refrigerant is introduced, and
- a second suction hole at a downstream refrigerant side of said first suction hole, provided in gas refrigerant within said gas-liquid separator.
- 2. The refrigerant cycle system according to claim 1, wherein said first suction hole has an opening area less than each opening area of said second suction hole and said open end of said gas-suction pipe.
- 3. The refrigerant cycle system according to claim 1, wherein:
- said first suction hole has an opening area less than an opening area of said second suction hole; and
- the opening area of said second suction hole is less than an opening area of said open end of said gas-suction pipe.
- 4. The refrigerant cycle system according to claim 1, wherein:
- said first decompressing means is an electrical expansion valve for reducing the pressure of liquid refrigerant to the middle-pressure; and
- said second decompressing means is a thermal expansion valve which adjusts a super-heating degree of refrigerant to be introduced into said inlet port of said compressor.
- 5. The refrigerant cycle system according to claim 1, further comprising:
- a filter member, attached to said first suction hole of said gas-suction pipe, for filtering liquid refrigerant before being sucked into said gas-suction pipe, and
- a holing member, attached to said gas-suction pipe, for holding said filter member.
- 6. The refrigerant cycle system according to claim 1, wherein:
- said gas-suction pipe is approximately a U-shaped pipe having first and second ends and a bottom;
- said open end of said gas-suction pipe is formed at said first end of said U-shaped pipe;
- said second end of said U-shaped pipe is connected to said gas-injection pipe; and
- said first suction hole is formed in said bottom of said U-shaped pipe.
- 7. A gas-liquid separator for a refrigerant cycle having a compressor for compressing refrigerant, said gas-liquid separator, for separating gas-liquid refrigerant into gas refrigerant and liquid refrigerant, comprising:
- a refrigerant case for receiving refrigerant therein;
- an inlet pipe through which gas-liquid refrigerant in the refrigerant cycle is introduced into said refrigerant case;
- an outlet pipe through which liquid refrigerant within said refrigerant case is supplied to the refrigerant cycle;
- a gas-suction pipe through which gas refrigerant is introduced into the compressor at an intermediate-compression step; and
- said gas-suction pipe includes
- an open end opened in gas refrigerant within said refrigerant case,
- a middle pipe portion which is immersed in liquid refrigerant within said refrigerant case and has a first suction hole through which liquid refrigerant is introduced from said refrigerant case to the compressor, and
- a second suction hole at a downstream refrigerant side of said first suction hole, provided in gas refrigerant within said refrigerant case.
- 8. The gas-liquid separator according to claim 7, wherein said first suction hole has an opening area less than each opening area of said second suction hole and said open end of said gas-suction pipe.
- 9. The gas-liquid separator according to claim 7, wherein:
- said gas-suction pipe is approximately a U-shaped pipe having first and second ends and a bottom;
- said open end of said gas-suction pipe is formed at said first end of said U-shaped pipe;
- said second end of said U-shaped pipe is coupled to the compressor through a connection pipe; and
- said first suction hole is formed in said bottom of said U-shaped pipe.
- 10. The gas-liquid separator according to claim 9, wherein said U-shaped pipe has a round cross-section.
- 11. The gas-liquid separator according to claim 7, further comprising:
- a filter member, attached to said first suction hole of said gas-suction pipe, for filtering liquid refrigerant before being sucked into said gas-suction pipe; and
- a holing member, attached to said gas-suction pipe, for holding said filter member.
Priority Claims (1)
Number |
Date |
Country |
Kind |
9-185497 |
Jul 1997 |
JPX |
|
CROSS-REFERENCE TO RELATED APPLICATION
This application relates to and claims priority from Japanese Patent Application No. Hei. 9-185497 filed on Jul. 10, 1997, the contents of which are hereby incorporated by reference.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
4517811 |
Atsumi et al. |
May 1985 |
|
Foreign Referenced Citations (2)
Number |
Date |
Country |
031 4857 |
Dec 1989 |
JPX |
3-260556 |
Nov 1991 |
JPX |