A kind of modified transducer air conditioning
Technical field
The invention belongs to a kind of modified transducer air conditioning field.
Background technology
At present, convertible frequency air-conditioner can effectively improve the refrigeration of convertible frequency air-conditioner using nozzle check valve as refrigeration check valve apparatus
Energy Efficiency Ratio, but the heating energy efficiency ratio brought at the same time is not but ideal.
In the prior art, nozzle check valve cannot meet convertible frequency air-conditioner as quantitative restricting element to the adaptability of flow
To the demand of flow, the little fixed frequency air conditioner of changes in flow rate is simply possible to use in;Set only with electric expansion valve or only with parallel connection
Although the capillary and solenoid valve put or only with the solenoid valve and second nozzle being arranged in parallel as variable flow restriction device energy
Unsteady flow is heated, but Energy Efficiency Ratio is undesirable.
Therefore, variable flow restriction but also the frequency converting air conditioner of Energy Efficiency Ratio can be effectively improved there is an urgent need for a kind of.
The content of the invention
In order to solve the above-mentioned problems in the prior art, there is provided a kind of modified transducer air conditioning, can effectively improve
The annual Energy Efficiency Ratio of convertible frequency air-conditioner(APF values), bring unexpected effect.
The technical solution adopted in the present invention is:A kind of modified transducer air conditioning, connects the defeated of condenser and evaporator
Send and be equipped with variable flow restriction device and one or more refrigeration check valve apparatus being arranged in parallel according to this according to refrigeration flow direction on pipeline.
Preferably, the refrigeration check valve is installed on apart from the evaporator refrigeration direction arrival end 1-80cm.
Preferably, the refrigeration check valve apparatus uses nozzle check valve.
Preferably, the refrigeration check valve apparatus is using the check valve and capillary being arranged in parallel.
Preferably, the variable flow restriction device uses electric expansion valve.
Preferably, the variable flow restriction device is using the solenoid valve and capillary being arranged in parallel.
Preferably, the variable flow restriction device is using the solenoid valve and nozzle being arranged in parallel.
Preferably, the nozzle check valve includes valve body, mobile spool and fixed valve base, described mobile spool one end
Match with described fixed valve base one end, the mobile spool is along the axial detachably connectable fixed valve base of valve body, the shifting
Some axially distributed fuisw ribs are additionally provided with movable valve plug periphery, diversion trench is formed between two neighboring fuisw rib.
Preferably, the fixed valve base is equipped with through hole along central shaft, is equipped with throttle orifice in the mobile valve vertically, described
Through hole is overlapped with the shaft core line of the throttle orifice.
Preferably, the throttle orifice aperture size is 0.4 ~ 2mm, and the length of the throttle orifice is 4 ~ 20mm.
It is using the beneficial effect of the technical program:The present apparatus is being equipped with refrigeration check valve apparatus close to evaporator one end,
The Energy Efficiency Ratio of refrigerating of convertible frequency air conditioner can be effectively improved, variable flow restriction element is equipped with one end close to condenser, can effectively carry
The heating energy efficiency ratio of high convertible frequency air-conditioner, the present invention can effectively improve the annual Energy Efficiency Ratio of convertible frequency air-conditioner, bring unexpected effect
Fruit.
Brief description of the drawings
In order that the present invention can be more clearly and readily understood, it is right below according to specific embodiment and with reference to attached drawing
The present invention is described in further detail, wherein:
Fig. 1 is the structure diagram of the embodiment of the present invention 1;
Fig. 2(a)It is 1 nozzle check valve refrigerating state structure diagram of the embodiment of the present invention;
Fig. 2(b)It is 1 nozzle check valve of embodiment of the present invention heating status architecture schematic diagram;
Fig. 3 is the structure diagram of the embodiment of the present invention 2;
Fig. 4 is the structure diagram of the embodiment of the present invention 3;
Fig. 5 is the structure diagram of the embodiment of the present invention 4;
Fig. 6 is the structure diagram of the embodiment of the present invention 5;
Fig. 7 is the structure diagram of the embodiment of the present invention 6;
Fig. 8 is the structure diagram of the embodiment of the present invention 7;
Fig. 9 is the structure diagram of the embodiment of the present invention 8;
Figure 10 is the structure diagram of the embodiment of the present invention 9;
Figure 11 is the structure diagram of the embodiment of the present invention 10;
Figure 12 is the structure diagram of the embodiment of the present invention 11;
Figure 13 is the structure diagram of the embodiment of the present invention 12;
Figure 14 is the structure diagram of conveyance conduit and condensator outlet end of the present invention and evaporator inlet end.
In figure, 1. compressor, 2. four-way valve, 3. condenser, 4. evaporator, 5. electric expansion valve, 6. nozzle check valve 7.
11. valve body of nozzle 8. check valve, 9. capillary, 10. solenoid valve, 12. fixed valve base 13. movement 14. through hole 15. of spool saves
16. condenser of discharge orifice, first fin, 17. evaporator, first 18. condensator outlet end of fin, 19. evaporator inlet end
20. the outer machine shut-off valve of conveyance conduit 21..
Embodiment
The specific embodiment that the invention will now be described in detail with reference to the accompanying drawings.
As shown in figure 14, conveyance conduit 20 refers to that refrigeration flows to condensator outlet end 18 between evaporator inlet end 19
The outer machine shut-off valve 21 connected in pipeline, including pipeline, condensator outlet end 18 are located on first fin 16 of condenser, evaporation
Device arrival end 18 is located at 17 on first fin of evaporator of evaporator refrigeration flow direction.
Embodiment 1
As shown in Figure 1, 2, a kind of modified transducer air conditioning, including compressor 1, four-way valve 2, condenser 3 and evaporator
4, connect and be equipped with variable flow restriction device and a refrigeration according to this according to refrigeration flow direction on the conveyance conduit of condenser 3 and evaporator 4
Check valve apparatus, refrigeration check valve apparatus conducting direction are directed toward condenser 3, and refrigeration check valve apparatus is single close to evaporator 4, refrigeration
It is installed on to valve and uses nozzle check valve 6, unsteady flow apart from the evaporator refrigeration direction arrival end 80cm, refrigeration check valve apparatus
Throttling arrangement uses electric expansion valve 5, heats throttling by adjusting the aperture of electric expansion valve 5 to realize, nozzle check valve 6 wraps
Valve body 11, mobile spool 13 and fixed valve base 12 are included, mobile 13 one end of spool matches with 12 one end of fixed valve base, mobile spool
13 are additionally provided with some axially distributed water conservancy diversion along the axial detachably connectable fixed valve base 12 of valve body 11, movement spool on 13 periphery
Muscle, forms diversion trench between two neighboring fuisw rib.Fixed valve base 12 is equipped with through hole 14 along central shaft, moves in spool vertically
Equipped with throttle orifice 15, through hole 14 is overlapped with the shaft core line of throttle orifice 15, and 15 aperture size of throttle orifice is 0.4 ~ 2mm, throttle orifice 15
Length be 4 ~ 20mm.
The aperture of the mobile spool 13 of nozzle check valve 6 is the specified of the convertible frequency air-conditioner after electric expansion valve 5 is opened completely
The optimal adaptation of refrigerating capacity is high through compressor output high temperature when the low temperature low pressure gas refrigerant of frequency converting air-conditioner compressor suction
Body of calming the anger enters condenser, is carrying out pressing medium temperature refrigerant liquid during heat exchange obtains with the external world, when refrigerant flows out condenser
When, since the aperture of the nozzle check valve mounted in evaporator inlet end is set(That is flow set)It is equipped with condensator outlet
Reach the optimal adaptation of convertible frequency air-conditioner rated cooling capacity when electric expansion valve is opened completely, so compared with existing convertible frequency air-conditioner
Compared with, the refrigerant conveyed on the pipeline between condenser and evaporator is changed into liquid from gaseous state, so set the advantages of be:
(1) since nozzle check valve to be located to the arrival end of evaporator, reduce refrigerant in conveying with extraneous heat exchange so that
Under equal conditions there is more preferable refrigeration effect than conventional throttle;In addition, nozzle check valve has the function that moment reducing pressure by regulating flow
And refrigerant does not have two phase flow motion process, thus it is possible to which two phase flow noise is completely eliminated.(2) due to freezing in intake line
Agent by gaseous state be changed to liquid input, the gaseous state of phase homogenous quantities is bigger than the space that liquid occupies, thus liquid conveying increase it is cold
Solidifying space, therefore compressor delivery pressure is reduced, so as to reduce the power consumption of compressor.It is in conclusion empty with traditional frequency conversion
Phase modulation ratio, not only increases refrigerating of convertible frequency air conditioner amount, while also reduces compressor power consumption, thus substantially increases convertible frequency air-conditioner
Energy Efficiency Ratio.When air-conditioning enters middle refrigeration, by adjusting the aperture of electric expansion valve to obtain optimal refrigerating efficiency.
Wherein, the operation principle of nozzle check valve 6 is:
When 6 forward conduction of nozzle check valve, refrigerant enters 6 intracavitary of nozzle check valve, first from mobile spool 13
Throttle orifice 15 enters the through hole 14 of fixed valve base by diversion trench, and during this, refrigerant is gaseous state by liquid umklappen;
When 6 reverse-conducting of nozzle check valve, refrigerant enters nozzle check valve intracavitary from the other end, first from through hole 14
Into at this time due to the effect of fluid force, refrigerant is by the mobile spool 13 being connected on fixed valve base 12 along 11 axis of valve body
To the side away from fixed valve base 12 is rushed at, mobile valve 13 is set to come off.At this time, be equivalent to nozzle check valve 6 it is full opening of,
Refrigerant is not depressured by moment, therefore is still flowed out with liquid.
Embodiment 2
As shown in figure 3, remaining is same as Example 1, difference is, using 3 nozzle check valves being arranged in parallel 6
Variable flow restriction device is used as three tunnels refrigeration check valve apparatus and electric expansion valve 5.Realize that unexpected APF values significantly carry
Rise.
Here is to being used as three tunnels refrigeration check valve apparatus and all the way electronics using 3 nozzle check valves 6 by national standard
Expansion valve 5 carries out annual Energy Efficiency Ratio as the convertible frequency air-conditioner of variable flow restriction device and tests on year-on-year basis, and it is as follows that form is made in experimental data:
From experimental data above, the transducer air conditioning APF values of the prior art are used as 4.797, and use the present invention
The APF values that technical solution obtains are respectively 5.841, are obviously improved.
Embodiment 3
As shown in figure 4, remaining is same as Example 1, difference is, using the check valve 8 and capillary being arranged in parallel
Pipe 9 is used as variable flow restriction device as refrigeration check valve apparatus and electric expansion valve 5 all the way.
Embodiment 4
As shown in figure 5, remaining is same as Example 3, difference is, the check valve 8 and hair being arranged in parallel using 3 tunnels
Tubule 9 is used as variable flow restriction device as three tunnels refrigeration check valve apparatus and electric expansion valve 5.
Embodiment 5
As shown in fig. 6, remaining is same as Example 1, difference is, using the check valve 8 and capillary being arranged in parallel
Pipe 9 is used as variable flow restriction device as refrigeration check valve apparatus all the way and using the solenoid valve 10 and capillary 9 being arranged in parallel.
Embodiment 6
As shown in fig. 7, remaining is same as Example 5, difference is, the check valve 8 and hair being arranged in parallel using 3 tunnels
Tubule 9 is used as variable flow restriction device as three tunnels refrigeration check valve apparatus and using the solenoid valve 10 and capillary 9 being arranged in parallel.
Realize that unexpected APF values are obviously improved.
Embodiment 7
As shown in figure 8, remaining is same as Example 1, difference is, is used as using 1 nozzle check valve 8 and made all the way
The solenoid valve 10 and capillary 9 that cold check valve apparatus and use are arranged in parallel are used as variable flow restriction device.
Rated cooling capacity is to be throttled in the case of solenoid valve 10 is opened completely by nozzle check valve 6;The shifting of nozzle check valve 6
The aperture of movable valve plug 13 is the optimal adaptation of the rated cooling capacity of convertible frequency air-conditioner after solenoid valve 10 is opened completely, works as convertible frequency air-conditioner
Compressor suction low temperature low pressure gas refrigerant, through compressor output high temperature and high pressure gas enter condenser, with the external world into
Row heat exchange obtains middle pressure medium temperature refrigerant liquid, when refrigerant flows out condenser, due to the spray mounted in evaporator inlet end
The aperture of mouth check valve is set(That is flow set)It is to reach frequency conversion sky when the solenoid valve equipped with condensator outlet is opened completely
The optimal adaptation of rated cooling capacity is adjusted, so compared with existing convertible frequency air-conditioner, on the pipeline between condenser and evaporator
The refrigerant of conveying is changed into liquid from gaseous state, so set the advantages of be:(1) since nozzle check valve is located at entering for evaporator
Mouth end, reduces heat exchange of the refrigerant with the external world in conveying, so as under equal conditions have more preferable system than conventional throttle
Cold effect;In addition, nozzle check valve has the function that moment reducing pressure by regulating flow and refrigerant does not have two phase flow motion process, so,
Two phase flow noise can be completely eliminated.(2) due in intake line refrigerant by gaseous state be changed to liquid input, phase homogenous quantities
Gaseous state is bigger than the space that liquid occupies, therefore liquid conveying increases condensation space, therefore reduces compressor delivery pressure, from
And reduce the power consumption of compressor.In conclusion compared with traditional frequency conversion air-conditioning, refrigerating of convertible frequency air conditioner amount is not only increased, together
When also reduce compressor power consumption, thus substantially increase air-conditioning Energy Efficiency Ratio.When convertible frequency air-conditioner enters middle refrigeration, electricity is closed
Magnet valve, forces refrigerant to be flowed through from capillary, and refrigerating capacity among 9 pipe of capillary, closes solenoid valve 10 at this time, force refrigerant from
Capillary 9 flows through, and reaches unsteady flow purpose, and the aperture of capillary 9 and length are the optimal adaptations of low frequency refrigeration effect.
Embodiment 8
As shown in figure 9, remaining is same as Example 7, difference is, three tunnel systems are used as using 3 nozzle check valves 6
Cold check valve apparatus and 10 capillary 9 of solenoid valve that use is arranged in parallel all the way are used as variable flow restriction device.
Here is to being used as three tunnels refrigeration check valve apparatus using 3 nozzle check valves 6 and using all the way by national standard
The solenoid valve 10 and capillary 9 being arranged in parallel carry out annual Energy Efficiency Ratio experiment, experiment as the convertible frequency air-conditioner of variable flow restriction device
It is as follows that form is made in data:
From experimental data above, the transducer air conditioning APF values of the prior art are used as 4.797, and use the present invention
The APF values that technical solution obtains are respectively 5.665, are obviously improved.
Embodiment 9
As shown in Figure 10, remaining is same as Example 1, and difference is, using 1 nozzle check valve 6 as all the way
The solenoid valve 10 and nozzle 7 that refrigeration check valve apparatus and use are arranged in parallel are used as variable flow restriction device.
Rated cooling capacity is to be throttled in the case of solenoid valve 10 is opened completely by nozzle check valve 6;The shifting of nozzle check valve 6
The aperture of movable valve plug 13 is the optimal adaptation of the rated cooling capacity of convertible frequency air-conditioner after solenoid valve 10 is opened completely, works as convertible frequency air-conditioner
Compressor suction low temperature low pressure gas refrigerant, through compressor output high temperature and high pressure gas enter condenser, with the external world into
Row heat exchange obtains middle pressure medium temperature refrigerant liquid, when refrigerant flows out condenser, due to the spray mounted in evaporator inlet end
The aperture of mouth check valve is set(That is flow set)It is to reach frequency conversion sky when the solenoid valve equipped with condensator outlet is opened completely
The optimal adaptation of rated cooling capacity is adjusted, so compared with existing convertible frequency air-conditioner, on the pipeline between condenser and evaporator
The refrigerant of conveying is changed into liquid from gaseous state, so set the advantages of be:(1) since nozzle check valve is located at entering for evaporator
Mouth end, reduces heat exchange of the refrigerant with the external world in conveying, so as under equal conditions have more preferable system than conventional throttle
Cold effect;In addition, nozzle check valve has the function that moment reducing pressure by regulating flow and refrigerant does not have two phase flow motion process, so,
Two phase flow noise can be completely eliminated.(2) due in intake line refrigerant by gaseous state be changed to liquid input, phase homogenous quantities
Gaseous state is bigger than the space that liquid occupies, therefore liquid conveying increases condensation space, therefore reduces compressor delivery pressure, from
And reduce the power consumption of compressor.In conclusion compared with traditional frequency conversion air-conditioning, refrigerating of convertible frequency air conditioner amount is not only increased, together
When also reduce compressor power consumption, thus substantially increase convertible frequency air-conditioner Energy Efficiency Ratio.When convertible frequency air-conditioner enters middle refrigeration, close
Solenoid valve is closed, forces refrigerant to be flowed through from nozzle 7, the aperture of nozzle and length are that the optimal of low frequency refrigeration effect is adapted to.
Embodiment 10
As shown in figure 9, remaining is same as Example 9, difference is, three tunnel systems are used as using 3 nozzle check valves 6
The solenoid valve 10 and nozzle 7 that cold check valve apparatus and use are arranged in parallel all the way are used as variable flow restriction device.
Here is to being used as three tunnels refrigeration check valve apparatus using 3 nozzle check valves 6 and using all the way by national standard
The solenoid valve 10 and nozzle 7 being arranged in parallel carry out annual Energy Efficiency Ratio experiment as the convertible frequency air-conditioner of variable flow restriction device, test number
It is as follows according to form is made:
From experimental data above, the transducer air conditioning APF values of the prior art are used as 4.797, and use the present invention
The APF values that technical solution obtains are respectively 5.682, are obviously improved.
Embodiment 11
As shown in figure 12, remaining is same as Example 1, and difference is, 8 He of check valve being arranged in parallel using 1 tunnel
Capillary 9 is used as variable flow restriction device as refrigeration check valve apparatus all the way and using the solenoid valve 10 and nozzle 7 being arranged in parallel.
Embodiment 12
As shown in figure 13, remaining is identical with embodiment 11, and difference is, 8 He of check valve being arranged in parallel using 3 tunnels
Capillary 9 is used as variable flow restriction device as three tunnels refrigeration check valve apparatus and using the solenoid valve 10 and nozzle 7 being arranged in parallel.
Embodiment 13
Remaining is same as Example 1, and difference is, refrigeration check valve is installed on apart from evaporator refrigeration direction entrance
Hold 1cm.
Embodiment 14
Remaining is same as Example 1, and difference is, refrigeration check valve is installed on apart from evaporator refrigeration direction entrance
Hold 40cm.
Embodiment 15
Remaining is same as Example 1, and difference is, 15 aperture size of throttle orifice of mobile spool 13 is 2mm.
Embodiment 16
Remaining is same as Example 1, and difference is, the aperture size of the throttle orifice 15 of mobile spool 13 is 1.2mm.
Embodiment 17
Remaining is same as Example 1, and difference is, the length of the throttle orifice 15 of mobile spool 13 is 20mm.
Embodiment 18
Remaining is same as Example 1, and difference is, the length of the throttle orifice 15 of mobile spool 13 is 12mm.
Wherein, 15 aperture size of throttle orifice of mobile spool 13, length can make related adjustment according to being actually needed, and be not limited to
In above example.
The operation principle of the present apparatus is described below:
Process of refrigerastion, first, when the low temperature low pressure gas refrigerant of frequency converting air-conditioner compressor suction, exports high through compressor
Warm gases at high pressure enter condenser 3, are carrying out pressing medium temperature refrigerant liquid during heat exchange obtains with the external world, when refrigerant outflow is cold
During condenser, opened completely by variable flow restriction device, into conveyance conduit.At this time, variable flow restriction device is opened completely, liquid system
Cryogen is again by the refrigeration check valve apparatus with throttling function close to evaporator inlet end, refrigeration check valve apparatus conducting side
To condenser is directed toward, at this time, by freezing, check valve apparatus is sprayed by unsteady flow lasing, moment decompression so that refrigerant is rapid
Vaporization, enter back into evaporator, so setting the advantages of be:(1) since the check valve apparatus that will freeze is located at close to the defeated of evaporator
Send on pipeline, reduce heat exchange of the refrigerant with the external world in conveying, so as under equal conditions have more preferably than conventional throttle
Refrigeration effect;(2) due in intake line refrigerant liquid input is changed to by gaseous state, the gaseous state of phase homogenous quantities accounts for than liquid
According to space it is big, therefore liquid conveying increases condensation space, therefore compressor delivery pressure is reduced, so as to reduce compression
The power consumption of machine.In conclusion compared with traditional frequency conversion air-conditioning, refrigerating of convertible frequency air conditioner amount is not only increased, while also reduces pressure
Contracting machine power consumption.When convertible frequency air-conditioner enters middle refrigeration, imitated by adjusting the aperture of electric expansion valve with obtaining optimal refrigeration
Rate.This process improves Energy Efficiency Ratio during refrigerating of convertible frequency air conditioner.
Heating operations, heating operations can regard the inverse circulation of process of refrigerastion as.
Compressor 1 exports high temperature and high pressure gaseous refrigerant first, through four-way Vavle switching, into evaporator, with indoor environment
Heat exchange is carried out, is cooled to below critical-temperature in high temperature and high pressure gaseous refrigerant, refrigerant is changed into liquid from gaseous state, and discharges
Thermal energy, realizes heating, when evaporator 4 exports high temperature and pressure liquid refrigerant, is turned on by the opposite direction of the check valve that freezes, still with
Liquid flows out.Liquid refrigerant vaporizes after variable flow restriction device throttles into condenser 3, exists into 3 refrigerant of condenser
Continue to vaporize in the space of bigger, while absorb heat, heat exchange is carried out by condenser 3 and outdoor environment, after heat exchange
Cryogenic gaseous refrigerant, then switch by four-way valve 2, sucked by compressor 1, complete heating operations, and carry out it is next with
This circulation analogized.In heating operations, it can prevent the high pressure liquid refrigerant rapid vaporization by evaporator output from reducing heating
Amount, therefore the heating energy efficiency ratio of convertible frequency air-conditioner can be effectively improved.
In summary, the refrigeration efficiency ratio of convertible frequency air-conditioner and heating energy efficiency ratio all substantially increase, it is therefore apparent that meaning
The annual Energy Efficiency Ratio for convertible frequency air-conditioner carries significantly, brings unexpected effect.
Above-described is only the preferred embodiment of the present invention, it is noted that for those of ordinary skill in the art
For, without departing from the concept of the premise of the invention, various modifications and improvements can be made, these belong to the present invention
Protection domain.