A kind of gas-liquid separation device
Technical field
The present invention relates to air-conditioning technical fields, and in particular to a kind of gas-liquid separation device.
Background technology
Air-conditioning principle is the gas that refrigerant is changed into high temperature and pressure by compressor compresses, enters condensation by four-way valve
Device, becomes the liquid of medium temperature high pressure after condenser inhales cold heat release, after expanded valve, becomes the liquid of low-temp low-pressure, by steaming
After hair device heat absorption lets cool effect, becomes the gas of low-temp low-pressure, compressor is returned to by four-way valve, then proceed to recycle.
Air-conditioner set realizes that refrigerant supercooling, which can not only increase condensation by increasing super cooled sect within the condenser at present
The volume of device can also increase material cost and processing cost, cannot meet existing actual demand, therefore there is an urgent need for propose to improve.
Invention content
It is an object of the invention to solve the above problems, a kind of novel gas-liquid separator is provided, it can be achieved that refrigerant mistake
It is cold, cost will not be increased, improve air conditioning performance.
The present invention realizes its goal of the invention using following technical scheme:
A kind of gas-liquid separation device is provided, including:First shell 1 and second shell 2, the second shell 2 are located at described
In first shell 1, air inlet pipe 3 and escape pipe 4 are set, and the air inlet pipe 3, the escape pipe 4 are by described in the second shell 2
The outside of first shell 1 extends to inside the second shell 2, and inlet tube 5, the feed liquor is arranged in 1 outside of the first shell
Pipe 5 has two nozzles, respectively the first nozzle 6 and the second nozzle 7, and coupling tube 8, the mistake are communicated at the middle part of inlet tube 5
It crosses pipe 8 to be extended to inside it by the outside of the first shell 1, end connection of the coupling tube 8 in the first shell 1
There is spray tube 9, multiple spray ports are set on the spray tube 9, the spray tube 9 is horizontally placed on the upper of the second shell 2
Side, the escape pipe 4 is located at the U-shaped structure in end in the second shell 2, its bottom is provided with liquid return hole 10, described
Air inlet pipe 3 is located at the nozzle in the second shell 2 and is located in the second shell 2 less than the escape pipe 4 in vertical direction
Nozzle, and two nozzles are staggered in the horizontal direction, the bottom of second shell 2 are provided with fluid infusion 11, and in the fluid infusion
Solenoid valve for opening and closing fluid infusion 11 is set at 11, drain pipe 12 is set in the bottom of first shell 1.
Preferably, it is in 50 ° that the escape pipe 4, which is located at the nozzle in the second shell 2 relative to horizontal direction,.
Preferably, solenoid valve is set at drain pipe 12.
Preferably, pipeline is set at the liquid return hole 10.
Preferably, pipeline is set at the fluid infusion 11.
Advantageous effect:By the way that air inlet pipe and an air outlet pipe is arranged on the second housing, refrigerant steam enters second by air inlet pipe
Shell is discharged by escape pipe, and refrigerant steam is formed in second shell crosses heat passage;By the way that feed liquor is arranged on the first shell
Pipe, there are two nozzles for inlet tube tool, and the refrigerant liquid under refrigerating state or heating state can be made to enter respectively;It is sprayed by being arranged
Pipe is sprayed onto second shell by the refrigerant liquid that inlet tube enters by spray tube so that in refrigerant liquid and second shell
Refrigerant steam carry out heat exchange, realize the overheat of the supercooling and refrigerant steam of refrigerant liquid, can be increased by way of spray
Add heat exchange area, improves heat exchange efficiency;By the way that liquid return hole is arranged so that enter the liquid energy of the non-evaporating completely of U-tube structure
Enough bottoms for entering second shell via liquid return hole, to achieve the purpose that the more refrigerant liquid of storage, when unit lacks refrigerant,
It can be replenished in time;By the way that fluid infusion and solenoid valve is arranged, refrigerant liquid can be filled into time, carried when unit needs
High unit refrigerating capacity.
Description of the drawings
Fig. 1 is the structural schematic diagram of the gas-liquid separation device of the present invention.
Specific implementation mode
Technical solution to further illustrate the present invention below with reference to the accompanying drawings and specific embodiments.
As shown in Figure 1, the gas-liquid separation device of the present invention, including:First shell 1 and second shell 2, the second shell
2 are located in the first shell 1, and air inlet pipe 3 and escape pipe 4, the air inlet pipe 3, the outlet are arranged in the second shell 2
Pipe 4 is extended to by the outside of the first shell 1 inside the second shell 2, and inlet tube 5 is arranged in 1 outside of the first shell,
The inlet tube 5 has two nozzles, respectively the first nozzle 6 and the second nozzle 7, and coupling tube is communicated at the middle part of inlet tube 5
8, the coupling tube 8 is extended to by the outside of the first shell 1 inside it, and the coupling tube 8 is in the first shell 1
End is connected with spray tube 9, and multiple spray ports are arranged on the spray tube 9, and the spray tube 9 is horizontally placed on the second shell
The top of body 2, the escape pipe 4 are located at the U-shaped structure in end in the second shell 2, its bottom is provided with liquid return hole
10, the air inlet pipe 3 is located at the nozzle in the second shell 2 and is located at described second less than the escape pipe 4 in vertical direction
Nozzle in shell 2, and two nozzles are staggered in the horizontal direction, the bottom of second shell 2 are provided with fluid infusion 11, and described
Solenoid valve for opening and closing fluid infusion 11 is set at fluid infusion 11, drain pipe 12 is set in the bottom of first shell 1.
Preferably, it is in 50 ° that the escape pipe 4, which is located at the nozzle in the second shell 2 relative to horizontal direction,.
Preferably, solenoid valve is set at drain pipe 12.
Preferably, pipeline is set at the liquid return hole 10.
Preferably, pipeline is set at the fluid infusion 11.
Since without departing substantially from the characteristic of the present invention, the feature of the present invention can be embodied in a variety of forms, so
It should also be understood that above-described embodiment is not limited to any details described above, unless otherwise indicated, and should be broadly
It is construed in range defined in the appended claims, therefore, falls into the scope of the claims and boundary or this range
With in the equivalent scheme of boundary all modifications and remodeling should all cover for appended claims.