CN103776234B - A kind of refrigerator method for controlling frequency conversion and application thereof - Google Patents

Abstract

The invention discloses a kind of refrigerator method for controlling frequency conversion and application thereof, it is characterized in that: refrigerator powers on first, compressor runs with highest frequency, after date calculating of continuous operation (N+1) individual start-stop week top n start-stop cycle compression machine Homes Using TV, according to the target Homes Using TV preset, determine start next time compressor operating frequency.The present invention can give full play to the advantage of frequency-changeable compressor variable speed, makes refrigerator reach noise reduction, energy-conservation object.

Description

A kind of refrigerator method for controlling frequency conversion and application thereof

Technical field

The present invention relates to a kind of refrigerator method for controlling frequency conversion and application thereof, belong to refrigerator control field.

Technical background

Freezer compressor is divided into invariable frequency compressor and frequency-changeable compressor.Invariable frequency compressor product type is abundant, technology maturation, and be widely used, but its frequency is immutable, under certain operating mode, refrigerating capacity is definite value; Frequency-changeable compressor can realize changing its rotating speed and then changing compressor refrigerating capacity, compressor can high-speed cruising at high load conditions, refrigerator can be lowered the temperature by fast-refrigerating, under underload or stable state, compressor can maintain slow-speed of revolution operation, refrigerant system efficiency is high, effective minimizing compressor start-stop frequency, the temperature inside the box is fluctuated little, noise is low.

At present, the mode that frequency-changeable compressor mainly adopts in rotating speed control " drawing shelves ", i.e. environmentally temperature and the temperature inside the box, compressor revolution divides different gear, compressor operating frequency is determined by current residing environment temperature and the temperature inside the box, when refrigerator compartment temperature is higher than this room certain value of starting point temperature, compressor revolution can rise to certain gear accordingly.In fact suitable compressor refrigerating capacity demand is not only relevant to environment temperature, also comprises the load variations of refrigerator own, such as refrigerator open or put into load etc., and therefore this control method is difficult to accomplish to adjust timely and effectively when being changed by casing state.As from the foregoing, existing frequency-changeable compressor FREQUENCY CONTROL technology fails to give full play to the feature of frequency-changeable compressor.

Summary of the invention

For overcoming existing technological deficiency, the object of the present invention is to provide a kind of refrigerator method for controlling frequency conversion and application thereof, the advantage of frequency-changeable compressor variable speed can be given full play to, make refrigerator reach noise reduction, energy-conservation object.

The present invention is that technical solution problem adopts following technical scheme:

The feature of a kind of refrigerator method for controlling frequency conversion of the present invention is carried out as follows:

Step one: setting target Homes Using TV η ₀, refrigerator powers on first, and compressor runs with maximum speed;

Step 2: when compressor operating is to (N+1) secondary shutdown, the average Homes Using TV η in a N continuous start-stop cycle before through type (1) acquisition refrigerator _i:

η _i=compressor accumulated running time/total time (1)

Step 3: through type (2) obtains regulation coefficient K _i:

K _i＝η _i/η ₀(2)

Step 4: through type (3) obtains the running speed S of compressor when starting shooting next time _i:

S _i＝K _i×S _(i-1)(3)

When compartment temperature arbitrary in refrigerator is higher than the starting point temperature T of room between described ₁dEG C time, the temperature difference between described compartment temperature and described starting point temperature is Δ T ₁, then through type (4) upgrades described running speed S _i, and run (N+1) individual all after dates, recalculate average Homes Using TV η by formula (1) and formula (2) _iwith regulation coefficient K _i, the running speed S of compressor when starting shooting next time to obtain _i;

S _i＝S _(i-1)+K ₁×ΔT ₁(4)

In formula (4), K ₁for constant, span is 0-1500;

If the difference that the temperature in refrigerator set by arbitrary room is lowered between front and back is Δ T ₂, then through type (5) upgrades described running speed S _i, and run (N+1) individual all after dates, recalculate average Homes Using TV η by formula (1) and formula (2) _iwith regulation coefficient K _i, the running speed S of compressor when starting shooting next time to obtain _i;

S _i＝S _(i-1)+K ₂×ΔT ₂(5)

In formula (5), K ₂for constant, span is 0-1500;

If compressor continuous operating time is more than or equal to t1 minute, then through type (6) upgrades described running speed S _i, and run (N+1) individual all after dates, recalculate average Homes Using TV η by formula (1) and formula (2) _iwith regulation coefficient K _i, the running speed S of compressor when starting shooting next time to obtain _i;

S _i＝S _(i-1)+K ₃(6)

In formula (6), K ₃for constant, span is 0-2100.

The feature of refrigerator method for controlling frequency conversion of the present invention is also:

The running speed S of described compressor _iupgrade after every N number of start-stop cycle, the span of N is 2-10 time.

Described running speed S _iif be more than or equal to the compressor maximum speed of regulation, then compressor runs with maximum speed, if running speed S _ibe less than or equal to the compressor minimum speed of regulation, then compressor runs with minimum speed.

Described target Homes Using TV η ₀for the desirable Homes Using TV of refrigerator, span is 40%-100%.

Described regulation coefficient K _iif meet | K _i-1|≤a, then K _ithe span of=1, a is 0-0.2.

The starting point temperature T of described room ₁span be 1-15 DEG C.

The span of described t1 minute is 20-360 minute.

The feature of a kind of refrigerator of the present invention is: described refrigerator adopts above refrigerator method for controlling frequency conversion described in arbitrary feature.

Compared with existing technology, beneficial effect of the present invention is embodied in:

The present invention is by being updated periodically the running speed of compressor; thus the refrigerating capacity of compressor can be adjusted timely and effectively according to the change of refrigerator actual load; load increases compressor frequency and increases; load reduces compressor frequency and reduces; make refrigerator be in ideal state all the time to run; and can effectively reduce compressor on-off energy loss, reduce the temperature inside the box fluctuation, reach the object that noise is low, energy consumption is little.

Accompanying drawing explanation

Fig. 1 is control flow chart of the present invention;

Fig. 2 is frequency-changeable compressor changed power tendency chart of the present invention.

Detailed description of the invention

In the present embodiment, as shown in Figure 1, a kind of refrigerator method for controlling frequency conversion, carries out as follows:

Step one: setting refrigerator target Homes Using TV η ₀, target Homes Using TV η ₀for the desirable Homes Using TV of refrigerator, span is 40%-100%; Refrigerator powers on first, and compressor runs with maximum speed;

Step 2: when compressor operating is to (N+1) secondary shutdown, the average Homes Using TV η in a N continuous start-stop cycle before through type (1) acquisition refrigerator _i:

η _i=compressor accumulated running time/total time (1)

Step 3: the average Homes Using TV η in a front N continuous start-stop cycle _iwith target Homes Using TV η ₀compare, through type (2) obtains regulation coefficient K _i:

K _i＝η _i/η ₀(2)

Step 4: through type (3) obtains the running speed S of compressor when starting shooting next time _i:

S _i＝K _i×S _(i-1)(3)

When compartment temperature arbitrary in refrigerator is higher than the starting point temperature T of this room ₁dEG C time, the temperature difference between compartment temperature and starting point temperature is Δ T ₁, then through type (4) upgrades running speed S _i, and run (N+1) individual all after dates by this rotating speed, recalculate average Homes Using TV η by formula (1) and formula (2) _iwith regulation coefficient K _i, the running speed S of compressor when starting shooting next time to obtain _i; Otherwise do not upgrade compressor rotary speed;

S _i＝S _(i-1)+K ₁×ΔT ₁(4)

In formula (4), K ₁for constant, span is 0-1500; Between the starting point temperature T of room ₁span be 1-15 DEG C.

If the difference that the temperature in refrigerator set by arbitrary room is lowered between front and back is Δ T ₂, the temperature namely set by certain room was Ta before downward, was Tb after downward, then Δ T ₂=Ta-Tb, through type (5) upgrades running speed S _i, and run (N+1) individual all after dates by this rotating speed, recalculate average Homes Using TV η by formula (1) and formula (2) _iwith regulation coefficient K _i, the running speed S of compressor when starting shooting next time to obtain _i; Otherwise do not upgrade compressor rotary speed;

S _i＝S _(i-1)+K ₂×ΔT ₂(5)

In formula (5), K ₂for constant, span is 0-1500;

If compressor continuous operating time is more than or equal to t1 minute, then through type (6) upgrades running speed S _i, and run (N+1) individual all after dates by this rotating speed, recalculate average Homes Using TV η by formula (1) and formula (2) _iwith regulation coefficient K _i, the running speed S of compressor when starting shooting next time to obtain _i; Otherwise do not upgrade compressor rotary speed;

S _i＝S _(i-1)+K ₃(6)

In formula (6), K ₃for constant, span is 0-2100; The span of t1 minute is 20-360 minute.

The running speed S of compressor _iupgrade after every N number of start-stop cycle, the span of N is 2-10 time.Regulation coefficient K _iif meet | K _i-1|≤a, then compressor rotary speed can not upgrade, i.e. K _ithe span of=1, a is 0-0.2.

Running speed S _iif be more than or equal to the compressor maximum speed of regulation, then compressor runs with maximum speed, if running speed S _ibe less than or equal to the compressor minimum speed of regulation, then compressor runs with minimum speed.

Adopt a refrigerator for above refrigerator method for controlling frequency conversion, as shown in Figure 2, can reach the object of energy saving in running: refrigerator powers on first, compressor runs with maximum speed, every N number of start-stop cycle, and compressor upgrades rotating speed.As time goes on, casing load reduces, and now compressor rotary speed reduces, refrigerator power reduction, and when compartment temperature trend is stablized, compressor is with the stable operation of the slow-speed of revolution high operation ratio.

Claims (8)

1. a refrigerator method for controlling frequency conversion, is characterized in that carrying out as follows:

Step one: setting target Homes Using TV η ₀, refrigerator powers on first, and compressor runs with maximum speed;

Step 2: when compressor operating is to (N+1) secondary shutdown, the average Homes Using TV η in a N continuous start-stop cycle before through type (1) acquisition refrigerator _i:

η _i=compressor accumulated running time/total time (1)

Step 3: through type (2) obtains regulation coefficient K _i:

K _i＝η _i/η ₀(2)

Step 4: through type (3) obtains the running speed S of compressor when starting shooting next time _i:

S _i＝K _i×S _(i-1)(3)

When compartment temperature arbitrary in refrigerator is higher than the starting point temperature T of room between described ₁dEG C time, the temperature difference between described compartment temperature and described starting point temperature is Δ T ₁, then through type (4) upgrades described running speed S _i, and run (N+1) individual all after dates, recalculate average Homes Using TV η by formula (1) and formula (2) _iwith regulation coefficient K _i, the running speed S of compressor when starting shooting next time to obtain _i;

S _i＝S _(i-1)+K ₁×ΔT ₁(4)

In formula (4), K ₁for constant, span is 0-1500;

If the difference that the temperature in refrigerator set by arbitrary room is lowered between front and back is Δ T ₂, then through type (5) upgrades described running speed S _i, and run (N+1) individual all after dates, recalculate average Homes Using TV η by formula (1) and formula (2) _iwith regulation coefficient K _i, the running speed S of compressor when starting shooting next time to obtain _i;

S _i＝S _(i-1)+K ₂×ΔT ₂(5)

In formula (5), K ₂for constant, span is 0-1500;

If compressor continuous operating time is more than or equal to t1 minute, then through type (6) upgrades described running speed S _i, and run (N+1) individual all after dates, recalculate average Homes Using TV η by formula (1) and formula (2) _iwith regulation coefficient K _i, the running speed S of compressor when starting shooting next time to obtain _i;

S _i＝S _(i-1)+K ₃(6)

In formula (6), K ₃for constant, span is 0-2100.

2. refrigerator method for controlling frequency conversion according to claim 1, is characterized in that: the running speed S of described compressor _iupgrade after every N number of start-stop cycle, the span of N is 2-10 time.

3. refrigerator method for controlling frequency conversion according to claim 1, is characterized in that: described running speed S _iif be more than or equal to the compressor maximum speed of regulation, then compressor runs with maximum speed, if running speed S _ibe less than or equal to the compressor minimum speed of regulation, then compressor runs with minimum speed.

4. refrigerator method for controlling frequency conversion according to claim 1, is characterized in that: described target Homes Using TV η ₀for the desirable Homes Using TV of refrigerator, span is 40%-100%.

5. refrigerator method for controlling frequency conversion according to claim 1, is characterized in that: described regulation coefficient K _iif meet | K _i-1|≤a, then K _ithe span of=1, a is 0-0.2.

6. refrigerator method for controlling frequency conversion according to claim 1, is characterized in that: the starting point temperature T of room between described ₁span be 1-15 DEG C.

7. refrigerator method for controlling frequency conversion according to claim 1, is characterized in that: the span of described t1 minute is 20-360 minute.

8. a refrigerator, is characterized in that: described refrigerator adopts the refrigerator method for controlling frequency conversion in claim 1-7 described in arbitrary claim.