CN209727813U - High-speed high-low-temperature impact test gas control system - Google Patents

Abstract

The utility model discloses a kind of high-speed high-low-temperature impact test gas control system, including gas source, main gas circuit, first gas circuit, refrigerator, heater, head-shield and second gas circuit, the input terminal of the main gas circuit is connected to the gas source, and the output end of the main gas circuit is connected to the input terminal of first gas circuit and second gas circuit respectively；The refrigerator and the heater are set in turn in first gas circuit；The head-shield is equipped with inner cavity and the interlayer positioned at the inner cavity periphery, and the output end of first gas circuit is connected to the inner cavity, and the output end of second gas circuit is connected to the interlayer.The utility model high-speed high-low-temperature impact test gas control system has fast regulating temperature, and temperature control capability is strong, the good advantage of energy-saving effect.

Description

High-speed high-low-temperature impact test gas control system

Technical field

The utility model relates to a kind of testing equipment more particularly to a kind of high-speed high-low-temperature impact test gas control systems System.

Background technique

In order to guarantee reliability and service life that semiconductor element uses, need after producing semiconductor element to it High-speed high-low-temperature impact test is done, the testing equipment generallyd use is high-low temperature test chamber and shermal shock test chamber.Carry out height When temperature test, sample is placed in closed chamber, is heated by electric heater or refrigeration compressor set refrigeration is to examine sample The performance of product.When carrying out thermal shock test, need to toggle sample in hot environment and low temperature environment, the property of sample survey Energy.For shermal shock test chamber generally use at present there are two types of structure type, one kind is basket-hanging, has high-temperature cabinet and low temperature Two chambers of case, test specimen are placed in hanging basket, and hanging basket moves back and forth stop in high-temperature cabinet and cryogenic box.Another kind is gas Road formula impingement box, there are three cabinet, high-temperature cabinet, cryogenic box and sales kit (SK)s to be connected by air flue for equipment, and sample passes through air flue and height Incubator cryogenic box alternately communicates.

However, the cabinet space of existing high-low temperature test chamber and shermal shock test chamber is all larger, and to semiconductor element Part is tested in bulk, therefore, longer in the time that high temperature and low temperature handoff procedure need to wait, can not fast regulating temperature, and disappear Biggish electric energy is consumed, energy-saving effect is very poor.In addition, this mode is poor for the control ability of temperature, it is temperature controlled accurate Property is lower.

Utility model content

The purpose of this utility model is to provide a kind of energy fast regulating temperatures, and temperature control capability is strong, the good height of energy-saving effect Fast high and low temperature impact test gas control system.

To achieve the goals above, high-speed high-low-temperature impact test gas control system provided by the utility model includes gas Source, main gas circuit, first gas circuit, refrigerator, heater, head-shield and second gas circuit, the input terminal of the main gas circuit with it is described Gas source connection, the output end of the main gas circuit are connected to the input terminal of first gas circuit and second gas circuit respectively；It is described Refrigerator and the heater are set in turn in first gas circuit；The head-shield is equipped with inner cavity and is located at outside the inner cavity The output end of the interlayer enclosed, first gas circuit is connected to the inner cavity, the output end of second gas circuit and it is described every Layer connection.

Compared with prior art, since the utility model is utilized by first gas circuit of setting and second gas circuit, by institute It states first gas circuit to be connected to the inner cavity of the head-shield, and the refrigerator and the heater is set to described first In gas circuit, so as to so that first gas circuit quickly can heat or freeze to high-speed gas, and then directly from described first The output end of branch gas circuit is passed into the interior intracavitary of the head-shield, and internally intracavitary test specimen carries out the impact examination of high speed high and low temperature It tests；Since the intracavity space of the head-shield is smaller, only single or a small amount of test specimen is tested every time, it therefore, can be with To inner cavity fast regulating temperature, temperature control is accurate.In addition, be connected to further through by second gas circuit with the interlayer of the head-shield, it is described The gas of second gas circuit is flowed through from interlayer can achieve two effects, and first can prevent the heat of inner cavity or cooling capacity to head-shield Outer layer outer surface transmitting, from the excessively high scald manpower of hull-skin temperature or the too low frostbite manpower of temperature for preventing head-shield；Second Make outer surface condensed water or ice after can preventing cooling capacity from transmitting to the outer surface of the outer layer of head-shield, so that guarantee passes through the glass of head-shield Glass is see-through to inside.

Preferably, the main gas circuit is equipped with pre-processing device.The gas that the pre-processing device can provide gas source Pre-treatment is carried out, guarantees the requirement for entering the gas Pass Test of the inner cavity.

Specifically, the pre-processing device includes degreaser, filter and/or drier.

Preferably, being successively arranged first throttle valve and/or in first gas circuit and before the refrigerator One solenoid valve and/or check valve.It, can be to first by setting first throttle valve and/or the first solenoid valve and/or check valve Gas circuit carries out open and close and/or speed regulation, pressure regulation.

Preferably, being equipped with flowmeter, the flowmeter and institute in first gas circuit and before the refrigerator It is adjacent to state refrigerator.

Preferably, being successively arranged second solenoid valve and/or first manual valve in second gas circuit.

Preferably, the high-speed high-low-temperature impact test gas control system further includes third branch gas circuit, the third branch The input terminal of gas circuit is connected to the output end of the main gas circuit, the input of the output end and the refrigerator of the third branch gas circuit End connection；Third solenoid valve and/or the second hand-operated valve are successively arranged in the third branch gas circuit.The third branch gas circuit can be The heating wire in temperature and cooling heater when testing machine is shut down for cooling down first gas circuit, guarantees the safety used Property.

Preferably, the high-speed high-low-temperature impact test gas control system further includes the 4th gas circuit, described 4th The input terminal of gas circuit is connected to the output end of the main gas circuit, and the output end and the driving head-shield of the 4th gas circuit are mobile Cylinder connection；The 4th solenoid valve and/or second throttle are successively arranged in 4th gas circuit.

Specifically, pressure regulator valve is equipped in the 4th gas circuit, the pressure regulator valve is located at before the 4th solenoid valve.

Preferably, the high-speed high-low-temperature impact test gas control system further includes spare gas circuit, the spare gas circuit Input terminal be connected to the output end of the main gas circuit；The cushion gas road is equipped with third hand-operated valve.The spare gas circuit can To be used as standby gas source, and as needed.

Preferably, being equipped with the 5th for draining between the output end of the refrigerator and the input terminal of the heater Road, the 5th road are equipped with drainage switch.

Specifically, level height of the level height of the 5th branch lower than the pipeline for flowing into the heater.

Preferably, the refrigerator includes compressor, condenser and evaporator, the output end of the compressor with it is described cold The input terminal of condenser connects, and the output end of the condenser is connect with the input terminal of the evaporator, the output of the evaporator End is connect with the input terminal of the compressor；It is additionally provided between the compressor and the input terminal of the evaporator for deicing 6th branch, the 6th road are switched equipped with deicing.

Detailed description of the invention

Fig. 1 is the schematic diagram of the utility model high-speed high-low-temperature impact test gas control system.

Fig. 2 is the schematic diagram of the utility model high-speed high-low-temperature impact test gas control system connection cylinder and head-shield.

Fig. 3 is the schematic diagram of the refrigerator of the utility model high-speed high-low-temperature impact test gas control system.

Specific embodiment

For technology contents, the construction feature, the effect realized that the utility model is described in detail, below in conjunction with embodiment And attached drawing is cooperated to be explained in detail.

As shown in Figure 1 and Figure 2, the utility model high-speed high-low-temperature impact test gas control system 100 is used for low to high speed Temperature impact test machine gas supply, the high-speed low temperature shock machine have test platform 200, the high-speed high-low-temperature impact test Gas control system 100 includes gas source 1,2, first gas circuits 3 of main gas circuit, refrigerator 4, heater 5, head-shield 6 and second gas Road 7, the head-shield 6 realize by a cylinder 400 control and move up and down that the head-shield 6 can cover at the test platform 200 After form test space, test specimen can be placed in test space and be tested.The input terminal of the main gas circuit 2 with it is described Gas source 1 is connected to, and the output end of the main gas circuit 2 is connected to the input terminal of first gas circuit 3 and second gas circuit 7 respectively； The refrigerator 4 and the heater 5 are set in turn in first gas circuit 3；The head-shield 6 is equipped with inner cavity 61 and is located at The interlayer 62 of 61 periphery of inner cavity, the output end of first gas circuit 3 are connected to the inner cavity 61, second gas circuit 7 output end is connected to the interlayer 62.

Again as shown in Figure 1, the main gas circuit 2 is equipped with pre-processing device.The pre-processing device includes degreaser, filtering Device 21 and/or drier 22.The pre-processing device can carry out pre-treatment to the gas that gas source 1 provides, and guarantee enters institute State the requirement of the gas Pass Test of inner cavity 61.Specifically, the pre-processing device of the utility model includes along main 2 side of conveying of gas circuit To the degreaser, filter 21 and drier 22 set gradually.The degreaser can deoil to gas；The filter 21 can With to dedusting and removal aqueous vapor, the drier 22 can further remove the hydrone of gas to gas dry.

Referring again to Fig. 1, first throttle valve is successively arranged in first gas circuit 3 and before the refrigerator 4 31 and/or first solenoid valve 32 and/or check valve 33.The utility model is successively arranged first throttle valve 31, the first solenoid valve 32 With check valve 33.First throttle valve 31 to be adjusted the speed to first gas circuit 3, pressure regulation.First solenoid valve 32 can be to One gas circuit 3 opens or closes automatically；The check valve 33 can prevent gas backflow.In first gas circuit 3 and described It is additionally provided with flowmeter 34 before refrigerator 4, the flowmeter 34 is between the check valve 33 and the refrigerator 4.It is described Flowmeter 34 can enter the flow of refrigerator 4 with real-time display, to facilitate monitoring and control the flow of gas.

The node of the input terminal of second gas circuit 7 be set to the drier 22 and the first throttle valve 31 it Between；Second gas circuit 7 is equipped with second solenoid valve 71 and/or first manual valve 72.The utility model is successively arranged simultaneously Second solenoid valve 71 and first manual valve 72.The second solenoid valve 71 can open or close second gas circuit 7 automatically；Described One hand-operated valve 72 needs manually to open, and adjustable flow, thus guarantee second gas circuit 7 using safe.

Again referring to Fig. 1, the high-speed high-low-temperature impact test gas control system 100 further includes third branch gas circuit 8, institute The input terminal for stating third branch gas circuit 8 is connected to the output end of the main gas circuit 2；The output end of the third branch gas circuit 8 with it is described The input terminal of refrigerator 4 is connected to；Specifically, the node of the input terminal of the third branch gas circuit 8 be set to the drier 22 with Between the first throttle valve 31, the node of the output end of the third branch gas circuit 8 is set to the check valve 33 and the stream Between meter 34；Third solenoid valve 81 and the second hand-operated valve 82 are successively arranged in the third branch gas circuit 8；The third solenoid valve 81 can open or close third branch gas circuit 8 automatically；Second hand-operated valve 82 needs manually to open, and adjustable stream Amount, thus guarantee third branch gas circuit 8 using safe.The entire third branch gas circuit 8 can be when testing machine be shut down for cold But the heating wire in the temperature of first gas circuit 3 and cooling heater 5, guarantees the safety used.

Again referring to Fig. 1, the high-speed high-low-temperature impact test gas control system 100 further includes the 4th gas circuit 9, institute The input terminal for stating the 4th gas circuit 9 is connected to the output end of the main gas circuit 2；Specifically, the input terminal of the 4th gas circuit 9 Node be set between the drier 22 and the first throttle valve 31；The output end of 4th gas circuit 9 and driving The mobile cylinder 400 of the head-shield 6 is connected to；When the cylinder 400 ventilation, the head-shield 6 rises, and can be placed on institute at this time The test sample in head-shield 6 is stated to take out or place test sample into the head-shield 6；It is described when 400 stuffiness of cylinder Head-shield 6 declines, and the head-shield 6 can cover test sample at this time.Pressure regulator valve 91, are successively arranged in 4th gas circuit 9 Four solenoid valves 92 and second throttle 93.The pressure regulator valve 91 can carry out the gas flow and pressure for entering the 4th gas circuit 9 It adjusts；4th solenoid valve 92 can open or close the 4th gas circuit 9 automatically；The second throttle 93 needs manually Open, thus guarantee the 4th gas circuit 9 using safe.

Referring again to Fig. 1, the high-speed high-low-temperature impact test gas control system 100 further includes spare gas circuit 10, institute The input terminal for stating spare gas circuit 10 is connected to the output end of the main gas circuit 2；Specifically, the input terminal of the spare gas circuit 10 Node is set between the drier 22 and the first throttle valve 31；The spare gas circuit 10 is equipped with third hand-operated valve 101, the third hand-operated valve 101 needs manually to open, thus guarantee spare gas circuit 10 using safe.The cushion gas Road 10 can be used as standby gas source 1 and use as needed.

In addition, the high-speed high-low-temperature impact test gas control system 100 further includes mechanical pressure switches 110 and electronics The input node of pressure detector 120, the switch of mechanical pressure 110 and electron pressure detector 120 is respectively arranged at described Between drier 22 and the first throttle valve 31.The mechanical pressure switches 110 are for testing in refrigerator 4 and heater 5 Air pressure, to both guarantee to guarantee the safety used in normal pressure limit.The electron pressure detector 120 For detecting the pressure in 2 to the first gas circuit of main gas circuit 3, pressure data is transmitted in control system, the control is made System can be automatically adjusted according to data.

Again referring to Fig. 2, being equipped between the output end of the refrigerator 4 and the input terminal of the heater 5 for draining The 5th branch 130, the 5th branch 130 be equipped with drainage switch 131, the drainage switch 131 can be manual switch, Or automatic switch, such as solenoid valve.The level height of 5th branch 130 is lower than the pipe for flowing into the heater 5 The level height on road can make liquid water be directly entered the 5th branch 130 in draining in this way.Due to first gas circuit 3 may by the refrigerator 4 cooling and testing machine shutdown after generate liquid water, therefore, by be arranged it is described 5th Road 130, can be by opening the drainage switch 131, thus using high-speed gas by described first before testing machine booting Liquid water discharge in gas circuit 3, avoiding liquid water from being directly entered in head-shield 6 when starting influences test sample.

Referring to Fig. 3, the refrigerator 4 include compressor 41, condenser 42 and evaporator 43, the compressor 41 it is defeated Outlet is connect with the input terminal of the condenser 42, is additionally provided with oil eliminator between the compressor 41 and the condenser 42 44, the oil eliminator 44 is used to separate the oil contained in refrigerant that the compressor 41 exports, improves the pure of refrigerant Degree；The output end of the condenser 42 is connect with the input terminal of the evaporator 43, the output end of the evaporator 43 with it is described The input terminal of compressor 41 connects；In addition, between the output end of the condenser 42 and the input terminal of the evaporator 43 also according to Secondary to be equipped with device for drying and filtering 45 and regenerator 46, the output end of the evaporator 43 is described by entering back into after the regenerator 46 The output end of compressor 41.The 6th for deicing is additionally provided between the compressor 41 and the input terminal of the evaporator 43 The input node on road 47, the 6th branch 47 is located at the output end of the oil eliminator 44 and the input terminal of the evaporator 43 Between, and solenoid valve is set between the input node of the 6th branch 47 and the input terminal of the condenser 42.Described 6th Branch 47 is equipped with deicing switch 48, and the deicing switch 48 can be manual switch, or automatic switch, such as electromagnetism Valve.Since the refrigerator 4 is after long-time is opened, 43 inside of the evaporator and by described the of the evaporator 43 The part pipeline of one gas circuit 3 may freeze, and first gas circuit 3 can be blocked after icing, therefore, pass through setting the 6th Road 47, the higher refrigerant of temperature that the compressor 41 can if necessary exported enter directly into the evaporator 43, To which the part pipeline to 43 inside of evaporator and by first gas circuit 3 of the evaporator 43 removes Ice avoids blocking first gas circuit 3.

In summary and Fig. 1 and Fig. 2 is combined, below to the utility model high-speed high-low-temperature impact test gas control system 100 gas supply principle is described in detail, as follows:

Firstly, opening the drainage switch 131 before testing machine starting.The high-speed gas that gas source 1 exports enters main gas circuit 2, And pass sequentially through degreaser, filter 21 and drier 22；Then, high-speed gas enters the first branch, and passes through first throttle Enter the 5th branch 130 after valve 31, the first solenoid valve 32, check valve 33 and flowmeter 34, in the process, high-speed gas is simultaneously Remaining liquid water in the main gas circuit 2 and first gas circuit 3 is driven to be discharged from the 5th branch 130.After a period of time, liquid State water base discharge is clean, at this moment closes the drainage switch 131, and start testing machine.

When testing machine works, the high-speed gas that gas source 1 exports enters main gas circuit 2, and passes sequentially through degreaser, filter 21 With drier 22.Then, it is divided into five road high-speed gas in the output end of the main gas circuit 2, wherein the 4th road high-speed gas enters 4th gas circuit 9, and by being entered in the cylinder 400 after pressure regulator valve 91, the 4th solenoid valve 92 and second throttle 93, and The telescopic end movement of driving cylinder 400 drives head-shield 6 to be provide on ground test platform 200.First via high-speed gas enters first Gas circuit 3 enters the refrigeration after then passing sequentially through first throttle valve 31, the first solenoid valve 32, check valve 33 and flowmeter 34 Device 4, the refrigerator 4 freeze to the portion gas, are then output in the inner cavity 61 of head-shield 6 low to test specimen progress high speed Temperature impact test.At the same time, the second road high-speed gas is output and then enter from main gas circuit 2 to second gas circuit 7, and passes through second Enter in the interlayer 62 of the head-shield 6 after solenoid valve 71 and first manual valve 72, finally from interlayer 62, blowout forms air curtain upwards. When needing higher temperature, continue to keep the refrigerator 4 to the refrigeration of first via high-speed gas, and start heater 5, and The heating temperature of heater 5 is adjusted, to required temperature, then first via gas is rapidly heated after being heated the heating of device 5 It is output in the inner cavity 61 of head-shield 6 again and high-speed and high-temperature impact test is carried out to test specimen.Since the refrigerator 4 is low Work is all kept during temperature test and high temperature test, therefore, when high temperature test can be rapidly heated by heater 5, and low Only need heater 5 out of service that can obtain the high-speed gas of low temperature at once when temperature test, therefore, it is possible in low temperature or high temperature It is switched fast in test pattern, improves testing efficiency.

When testing machine is shut down, first solenoid valve 32 is closed, first gas circuit, 3 stuffiness, the third electricity Magnet valve 81 is opened and the second hand-operated valve 82 is opened, and enters third branch gas from the third road high-speed gas that the main gas circuit 2 exports Then road 8 passes sequentially through third solenoid valve 81, the second hand-operated valve 82, refrigerator 4 and heater 5, enters back into the head later The inner cavity 61 of cover 6, so as to the refrigerator 4 after worked carry out deicing or to after worked heater 5 and inner cavity 61 Cooling.

When needing in addition to use the high-speed gas of gas source 1, the third hand-operated valve 101, the 5th road high-speed gas are opened Enter the spare gas circuit 10 for need using.

When the refrigerator 4 is opened for a long time, and 43 inside of the evaporator and the institute by the evaporator 43 When stating the part pipeline generation icing of first gas circuit 3, stopping supplying first gas circuit 3, the compressor 41 starts, and Solenoid valve before closing the input terminal of the condenser 42 opens simultaneously the deicing switch 48 of the 6th branch 47, at this moment, institute The higher refrigerant of temperature for stating the output of compressor 41 enters the 6th branch 47, then enters back into the evaporator 43, to described The inside of evaporator 43 and by the evaporator 43 first gas circuit 3 part pipeline it is ice melting；Meanwhile institute The drainage switch 131 of the 5th branch 130 is stated, the liquid water that ice cube generates after change in first gas circuit 3 is finally from the described 5th Branch 130 is discharged.

It compared with prior art, will since the utility model is utilized through first gas circuit 3 of setting and second gas circuit 7 First gas circuit 3 is connected to the inner cavity 61 of the head-shield 6, and the refrigerator 4 and the heater 5 are set to institute It states in first gas circuit 3, so as to so that first gas circuit 3 quickly can heat or freeze to high-speed gas, and then directly Out of, the output end of first gas circuit 3 is passed into the head-shield 6 inner cavity 61, the test specimen in inner cavity 61 is carried out high Fast high and low temperature impact test；Since 61 space of inner cavity of the head-shield 6 is smaller, every time only to single or a small amount of test specimen It is tested, therefore, can be to 61 fast regulating temperature of inner cavity, temperature control is accurate.In addition, further through by second gas circuit 7 and institute The interlayer 62 for stating head-shield 6 is connected to, and the gas of second gas circuit 7 is flowed through from interlayer 62 can achieve two effects, and first can To prevent heat or the cooling capacity of inner cavity 61 from transmitting to the outer surface of the outer layer of head-shield 6, from preventing the hull-skin temperature of head-shield 6 excessively high Scald manpower or the too low frostbite manpower of temperature；Second can prevent cooling capacity to the outer surface of the outer layer of head-shield 6 transmitting after make appearance Face condensed water or ice, to guarantee see-through to inside by the glass of head-shield 6.

Above disclosed is only the preferred embodiments of the utility model, cannot limit the utility model certainly with this Interest field, therefore equivalent variations made according to the patent scope of the utility model still falls within the utility model and covered Range.

Claims (13)

1. a kind of high-speed high-low-temperature impact test gas control system, it is characterised in that: including gas source, main gas circuit, first gas Road, refrigerator, heater, head-shield and second gas circuit, the input terminal of the main gas circuit are connected to the gas source, the main gas circuit Output end be connected to respectively with the input terminal of first gas circuit and second gas circuit；The refrigerator and the heater according to It is secondary to be set in first gas circuit；The head-shield be equipped with inner cavity and be connected to positioned at inner cavity periphery and with outside every Layer, the output end of first gas circuit are connected to the inner cavity, and the output end of second gas circuit is connected to the interlayer.

2. high-speed high-low-temperature impact test gas control system as described in claim 1, it is characterised in that: in the main gas circuit Equipped with pre-processing device.

3. high-speed high-low-temperature impact test gas control system as claimed in claim 2, it is characterised in that: the pre-treatment is set Standby includes degreaser, filter and/or drier.

4. high-speed high-low-temperature impact test gas control system as described in claim 1, it is characterised in that: at described first First throttle valve and/or the first solenoid valve and/or check valve are successively arranged in gas circuit and before the refrigerator.

5. high-speed high-low-temperature impact test gas control system as described in claim 1 or 4, it is characterised in that: described Flowmeter is equipped in one gas circuit and before the refrigerator, the flowmeter is adjacent with the refrigerator.

6. high-speed high-low-temperature impact test gas control system as described in claim 1, it is characterised in that: second gas Road is successively arranged second solenoid valve and/or first manual valve.

7. high-speed high-low-temperature impact test gas control system as described in claim 1, it is characterised in that: the high speed height Temperature impact test gas control system further includes third branch gas circuit, and the input terminal of the third branch gas circuit is defeated with the main gas circuit Outlet connection, the output end of the third branch gas circuit are connected to the input terminal of the refrigerator；In the third branch gas circuit successively Equipped with third solenoid valve and/or the second hand-operated valve.

8. high-speed high-low-temperature impact test gas control system as described in claim 1, it is characterised in that: the high speed height Temperature impact test gas control system further includes the 4th gas circuit, and the input terminal of the 4th gas circuit is defeated with the main gas circuit Outlet connection, the output end of the 4th gas circuit are connected to the cylinder for driving the head-shield mobile；In 4th gas circuit It is successively arranged the 4th solenoid valve and/or second throttle.

9. high-speed high-low-temperature impact test gas control system as claimed in claim 8, it is characterised in that: at described 4th Gas circuit is equipped with pressure regulator valve, and the pressure regulator valve is located at before the 4th solenoid valve.

10. high-speed high-low-temperature impact test gas control system as described in claim 1, it is characterised in that: the high speed is high Low-temperature impact test gas control system further includes spare gas circuit, the output of the input terminal of the spare gas circuit and the main gas circuit End connection；The cushion gas road is equipped with third hand-operated valve.

11. high-speed high-low-temperature impact test gas control system as described in claim 1, it is characterised in that: the refrigerator Output end and the heater input terminal between be equipped with for draining the 5th branch, the 5th road be equipped with draining Switch.

12. high-speed high-low-temperature impact test gas control system as claimed in claim 11, it is characterised in that: described 5th Level height of the level height on road lower than the pipeline for flowing into the heater.

13. high-speed high-low-temperature impact test gas control system as described in claim 1, it is characterised in that: the refrigerator Including compressor, condenser and evaporator, the output end of the compressor is connect with the input terminal of the condenser, the condensation The output end of device is connect with the input terminal of the evaporator, and the input terminal of the output end of the evaporator and the compressor connects It connects；The 6th branch for deicing, the 6th road are additionally provided between the compressor and the input terminal of the evaporator It is switched equipped with deicing.