CN106196494A - Complete machine overload control method and device - Google Patents

Abstract

The invention discloses a complete machine overload control method and a complete machine overload control device. Wherein, the method comprises the following steps: monitoring the temperature of a condenser tube or the current of the whole machine; and adjusting the rotating speeds of the outer fan and the inner fan according to the temperature of the condenser pipe or the current of the whole machine so as to adjust the overload capacity of the whole machine. By applying the technical scheme of the invention, the problem of control over the overload capacity of the whole machine in the prior art is solved, and the aim of improving the overload capacity of the whole machine can be achieved only by adjusting the rotating speeds of the inner fan and the outer fan without increasing any cost.

Description

A kind of complete machine overload control method and device

Technical field

The present invention relates to moving machine technical field, in particular to a kind of complete machine overload control method and device.

Background technology

In the related, the capability of overload improving complete machine typically takes following methods:

1) vaporizer, condenser arrangement are strengthened.The method needs to increase cost, more likely needs to increase the body of internal-external machine Long-pending, affect the dress cabinet amount of complete machine.

2) air quantity outside increasing.The method can increase outside noise.

3) increase electromagnetic expanding valve, by regulation cold medium flux, adapt to different environmental requirements.The method needs also exist for increasing Adding cost, complete machine pipeline is more complicated simultaneously, easily brings other integrity problems.

The difficult problem controlled for complete machine overload capability in prior art, the most not yet proposes effective solution.

Summary of the invention

The embodiment of the present invention provides a kind of complete machine overload control method and device, to solve complete machine mistake in prior art The difficult problem that load capacity controls.

For solving above-mentioned technical problem, the invention provides a kind of complete machine overload control method, wherein, the method bag Include: monitoring condenser tube temperature or complete machine electric current；According to condenser tube temperature or complete machine electric current, adjust outer blower fan and inner blower Rotating speed, to adjust the capability of overload of complete machine.

Further, according to described condenser tube temperature, adjust outer blower fan and the rotating speed of inner blower, including: according to described cold Temperature range residing for condenser Guan Wen, the described outer blower fan of corresponding adjustment and the gear of described inner blower.

Further, according to the temperature range residing for described condenser tube temperature, corresponding adjust described outer blower fan and described in The gear of blower fan, including:

If it is interval that described condenser tube temperature T is in temperature below: T ＜ preset first temperature T₁, the most described outer blower fan and Described inner blower all runs according to set position；

If it is interval that described condenser tube temperature T is in temperature below: T₁＜ T ＜ preset second temperature T₂, the most described outer blower fan Being adjusted to high wind gear, described inner blower runs according to set position；

If it is interval that described condenser tube temperature T is in temperature below: T₂＜ T ＜ presets the 3rd temperature T₃, the most described outer blower fan Being adjusted to high wind gear, described inner blower is adjusted to apoplexy gear；

If it is interval that described condenser tube temperature T is in temperature below: T₃＜ T ＜ presets the 4th temperature T₄, the most described outer blower fan Being adjusted to high wind gear, described inner blower is adjusted to low wind gear；

If it is interval that described condenser tube temperature T is in temperature below: T ＞ T₄, the most described outer fan parking, described inner blower Run according to set position.

Further, described outer fan parking, before described inner blower runs according to set position, described method is also wrapped Include: by compressor operating the first duration, then shut down the second duration；Wherein, described first duration is more than described second duration.

Further, according to described complete machine electric current, adjust outer blower fan and the rotating speed of inner blower, including: according to described complete machine Electric current residing for electric current is interval, the described outer blower fan of corresponding adjustment and the gear of described inner blower.

Further, interval according to the electric current residing for described complete machine electric current, the described outer blower fan of corresponding adjustment and described endogenous wind The gear of machine, including:

If it is interval that described complete machine electric current I is in temperature below: I ＜ presets the first electric current I₁, the most described outer blower fan and institute State inner blower all to run according to set position；

If it is interval that described complete machine electric current I is in temperature below: I₁＜ I ＜ presets the second electric current I₂, the most described outer blower fan is adjusted Whole for high wind gear, described inner blower runs according to set position；

If it is interval that described complete machine electric current I is in temperature below: I₂＜ I ＜ presets the 3rd electric current I₃, the most described outer blower fan is adjusted Whole for high wind gear, described inner blower is adjusted to apoplexy gear；

If it is interval that described complete machine electric current I is in temperature below: I₃＜ I ＜ presets the 4th electric current I₄, the most described outer blower fan is adjusted Whole for high wind gear, described inner blower is adjusted to low wind gear；

If it is interval that described complete machine electric current I is in temperature below: I ＞ I₄, the most described outer fan parking, described inner blower is pressed Run according to set position.

Further, described outer fan parking, before described inner blower runs according to set position, described method is also wrapped Include: by compressor operating the first duration, then shut down the second duration；Wherein, described first duration is more than described second duration.

Present invention also offers a kind of complete machine overload control apparatus, wherein, this device includes: monitoring module, is used for supervising Control condenser tube temperature or complete machine electric current；Adjusting module, for according to condenser tube temperature or complete machine electric current, adjust outer blower fan with The rotating speed of inner blower, to adjust the capability of overload of complete machine.

Further, described adjusting module includes: pipe temperature adjustment unit, for according to the temperature residing for described condenser tube temperature Degree interval, the described outer blower fan of corresponding adjustment and the gear of described inner blower.

Further, described pipe temperature adjustment unit includes:

First pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T ＜ presets the One temperature T₁, described outer blower fan and described inner blower all run according to set position；

Second pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T₁＜ T ＜ is pre- If the second temperature T₂, described outer blower fan is adjusted to high wind gear, and described inner blower runs according to set position；

3rd pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T₂＜ T ＜ is pre- If the 3rd temperature T₃, described outer blower fan is adjusted to high wind gear, and described inner blower is adjusted to apoplexy gear；

4th pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T₃＜ T ＜ is pre- If the 4th temperature T₄, described outer blower fan is adjusted to high wind gear, and described inner blower is adjusted to low wind gear；

5th pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T ＞ T₄, described Outer fan parking, described inner blower runs according to set position.

Further, described adjusting module includes: current adjustment unit, for according to the electric current residing for described complete machine electric current Interval, the described outer blower fan of corresponding adjustment and the gear of described inner blower.

Further, described current adjustment unit includes:

First electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I ＜ presets first Electric current I₁, described outer blower fan and described inner blower all run according to set position；

Second electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I₁＜ I ＜ presets Second electric current I₂, described outer blower fan is adjusted to high wind gear, and described inner blower runs according to set position；

3rd electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I₂＜ I ＜ presets 3rd electric current I₃, described outer blower fan is adjusted to high wind gear, and described inner blower is adjusted to apoplexy gear；

4th electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I₃＜ I ＜ presets 4th electric current I₄, described outer blower fan is adjusted to high wind gear, and described inner blower is adjusted to low wind gear；

5th electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I ＞ I₄, described outside Fan parking, described inner blower runs according to set position.

Application technical scheme, it is possible in the case of need not increase any cost, only by regulation The rotating speed of outer blower fan, reaches to improve the purpose of complete machine capability of overload.

Accompanying drawing explanation

Fig. 1 is the flow chart of complete machine overload control method according to embodiments of the present invention；

Fig. 2 is condenser tube temperature according to embodiments of the present invention and fan operation view；

Fig. 3 is complete machine electric current according to embodiments of the present invention and fan operation view；

Fig. 4 is the structured flowchart of complete machine overload control apparatus according to embodiments of the present invention.

Detailed description of the invention

With specific embodiment, the present invention is described in further detail below in conjunction with the accompanying drawings, but not as the limit to the present invention Fixed.

Embodiment one

Fig. 1 is the flow chart of complete machine overload control method according to embodiments of the present invention, as it is shown in figure 1, the method bag Include following steps (step S101-step S102):

Step S101, monitoring condenser tube temperature or complete machine electric current；

Step S102, according to condenser tube temperature or complete machine electric current, adjusts outer blower fan and the rotating speed of inner blower, whole to adjust The capability of overload of machine.

Below condenser tube gentleness complete machine electric current is introduced respectively.

(1) according to condenser tube temperature, outer blower fan and the rotating speed of inner blower are adjusted.

Specifically, according to the temperature range residing for condenser tube temperature, the outer blower fan of corresponding adjustment and the gear of inner blower.Below Respectively the gear how adjusting outer blower fan and inner blower under each temperature range is introduced.

1) if to be in temperature below interval for condenser tube temperature T: T ＜ preset first temperature T₁, outer blower fan and inner blower All run according to set position；

2) if condenser tube temperature T is in temperature below interval: T₁＜ T ＜ preset second temperature T₂, outer blower fan is adjusted to High wind gear, inner blower runs according to set position；

3) if condenser tube temperature T is in temperature below interval: T₂＜ T ＜ presets the 3rd temperature T₃, outer blower fan is adjusted to High wind gear, inner blower is adjusted to apoplexy gear；

4) if condenser tube temperature T is in temperature below interval: T₃＜ T ＜ presets the 4th temperature T₄, outer blower fan is adjusted to High wind gear, inner blower is adjusted to low wind gear；

5) if to be in temperature below interval for condenser tube temperature T: T ＞ T₄, then by compressor operating the first duration, then stop Machine the second duration；Wherein, the first duration is more than the second duration.Outer fan parking, inner blower runs according to set position.

(2) according to complete machine electric current, outer blower fan and the rotating speed of inner blower are adjusted.

Specifically, according to the temperature range residing for complete machine electric current, the outer blower fan of corresponding adjustment and the gear of inner blower.Divide below The other gear to how adjusting outer blower fan and inner blower under each temperature range is introduced.

1) if complete machine electric current I is in temperature below interval: I ＜ presets the first electric current I₁, outer blower fan and inner blower are equal Run according to set position；

2) if complete machine electric current I is in temperature below interval: I₁＜ I ＜ presets the second electric current I₂, outer blower fan is adjusted to high Wind gear, inner blower runs according to set position；

3) if complete machine electric current I is in temperature below interval: I₂＜ I ＜ presets the 3rd electric current I₃, outer blower fan is adjusted to high Wind gear, inner blower is adjusted to apoplexy gear；

4) if complete machine electric current I is in temperature below interval: I₃＜ I ＜ presets the 4th electric current I₄, outer blower fan is adjusted to high Wind gear, inner blower is adjusted to low wind gear；

5) if to be in temperature below interval for complete machine electric current I: I ＞ I₄, then by compressor operating the first duration, then shut down Second duration；Wherein, the first duration is more than the second duration.Outer fan parking, inner blower runs according to set position.

Based on this, apply the technical scheme of the present embodiment, exogenous wind can be adjusted according to condenser tube temperature or complete machine electric current Machine and the rotating speed of inner blower, thus improve the capability of overload of complete machine, it is ensured that complete machine is properly functioning.

Embodiment two

Separately below by two schemes and accompanying drawing, concrete introduction adjusts outer blower fan and inner blower according to condenser tube temperature Rotating speed, and adjust outer blower fan and the rotating speed of inner blower according to complete machine electric current.

Scheme 1:

Mobile air conditioner is when start refrigeration, and along with the rising of use ambient temperature, condenser temperature can constantly raise, compression Machine running current can increase, and after temperature and electric current are increased to certain degree, compressor can overload shutdown.This technical side The Main Function of case is to utilize condenser tube temperature T and complete machine electric current I to control the gear of outer blower fan and the gear conversion of inner blower, Reduce condensation temperature and running current, it is to avoid overload of compressor is shut down, improve the capability of overload of complete machine, improve the use of complete machine Scope.

The mobile air conditioner of indication includes at least: compressor, vaporizer, condenser, inner blower, outer blower fan, condenser temperature-sensitive Bag, current transformer.Wherein, outer blower fan, inner blower respectively comprise high, medium and low three gears.

Shown in table 1 is condenser tube temperature when being in different temperatures interval, the operation shape of outer blower fan, inner blower and compressor State.

Table 1

When mobile air conditioner refrigerating operaton, when condenser tube temperature T is less than temperature X DEG C preset, outer blower fan and inner blower The gear set by user runs: user is set as top grade, and outer blower fan operates in top grade, and inner blower operates in top grade；User Being set as middle-grade, outer blower fan operates in middle-grade, and inner blower operates in middle-grade；User is set as low grade, outer blower fan and endogenous wind Machine operates in low grade.

Fig. 2 is condenser tube temperature according to embodiments of the present invention and fan operation view, as shown in Figure 2:

When condenser tube temperature T is higher than temperature X DEG C preset, outer blower fan turns high wind shelves and runs；Inner blower is set by user Wind shelves run；

When condenser tube temperature T continues to rise, and condenser tube temperature T is higher than X+a DEG C, and outer blower fan turns high wind shelves；During inner blower turns Wind shelves；

When condenser tube temperature T continues to rise, and condenser tube temperature T is higher than X+a+b DEG C, and outer blower fan turns high wind shelves；Inner blower turns Low wind shelves；

When condenser tube temperature T continues to rise, and condensing tube temperature T is higher than X+a+b+C DEG C, and compressor is opened T minute, stops t minute, interior Blower fan turns set position and runs, and outer blower fan stops.

In the present embodiment, 65 >=X >=55,2 >=a >=5,2 >=b >=5,2 >=c >=5, the cold pipe of 100 >=T >=-30,6 >=T >= 15,5 >=t >=3.It should be noted that could again turn wind shelves after must running N minute after the conversion of wind shelves.Wherein, 5 >=N >=3. Certainly these numerical value simply schematically illustrate, and concrete numerical value needs to determine according to practical situation.

Scheme 2:

Shown in table 2 is complete machine electric current when being in different temperatures interval, the operation shape of outer blower fan, inner blower and compressor State.

Table 2

Fig. 3 is complete machine electric current according to embodiments of the present invention and fan operation view, as shown in Figure 3:

When complete machine electric current I is less than the electric current Y preset, outer blower fan, inner blower set wind shelves by user and run；

When complete machine electric current I is higher than the electric current Y preset, outer blower fan turns high wind shelves；Inner blower sets wind shelves by user and runs；

When complete machine electric current continues to rise, and complete machine electric current I is higher than the electric current Y+a1 preset, and outer blower fan turns high wind shelves；Inner blower Turn middle-grade；

When complete machine electric current continues to rise, and complete machine electric current I is higher than the electric current Y+a1+b1 preset, and outer blower fan turns high wind shelves；Endogenous wind Machine turns low-grade；

When complete machine electric current continues to rise, and complete machine electric current I is higher than the electric current Y+a1+b1+C1 preset, and compressor is opened T minute, stopped T minute, inner blower turned setting, and outer blower fan stops.

In the present embodiment, 50A >=I >=0A, 15A >=Y >=3A, 3A >=a1 >=0.5A, 3A >=b1 >=0.5A, 3A >=c1 >= 0.5A, 6 >=T >=15,5 >=t >=3.It should be noted that could again turn wind shelves after must running N minute after the conversion of wind shelves.Its In, 5 >=N >=3.Certainly these numerical value simply schematically illustrate, and concrete numerical value needs to determine according to practical situation.

Embodiment three

The complete machine overload control method introduced corresponding to Fig. 1, present embodiments provides a kind of air-conditioning self diagnosis debugging dress Putting, the structured flowchart of complete machine overload control apparatus as shown in Figure 4, this device includes:

Monitoring module 10, is used for monitoring condenser tube temperature or complete machine electric current；

Adjusting module 20, is connected to monitoring module 10, for according to condenser tube temperature or complete machine electric current, adjusts outer blower fan With the rotating speed of inner blower, to adjust the capability of overload of complete machine.

In the present embodiment, above-mentioned adjusting module 20 may include that pipe temperature adjustment unit, for according to condenser tube temperature institute The temperature range at place, the outer blower fan of corresponding adjustment and the gear of inner blower；And, current adjustment unit, for according to complete machine electric current Residing electric current is interval, the outer blower fan of corresponding adjustment and the gear of inner blower.Based on this, it is possible to adjust outer blower fan and interior targetedly The rotating speed of blower fan, reaches to improve the purpose of complete machine capability of overload.

Specifically, pipe temperature adjustment unit may include that

First pipe temperature adjusts subelement, for when condenser tube temperature T is in temperature below interval: T ＜ presets the first temperature Degree T₁, outer blower fan and inner blower all run according to set position；

Second pipe temperature adjusts subelement, for when condenser tube temperature T is in temperature below interval: T₁＜ T ＜ presets Two temperature T₂, outer blower fan is adjusted to high wind gear, and inner blower runs according to set position；

3rd pipe temperature adjusts subelement, for when condenser tube temperature T is in temperature below interval: T₂＜ T ＜ presets Three temperature T₃, outer blower fan is adjusted to high wind gear, and inner blower is adjusted to apoplexy gear；

4th pipe temperature adjusts subelement, for when condenser tube temperature T is in temperature below interval: T₃＜ T ＜ presets Four temperature T₄, outer blower fan is adjusted to high wind gear, and inner blower is adjusted to low wind gear；

5th pipe temperature adjusts subelement, for when condenser tube temperature T is in temperature below interval: T ＞ T₄, outer blower fan stops Machine, inner blower runs according to set position.

Specifically, current adjustment unit may include that

First electric current adjusts subelement, for when complete machine electric current I is in temperature below interval: I ＜ presets the first electric current I₁, outer blower fan and inner blower all run according to set position；

Second electric current adjusts subelement, for when complete machine electric current I is in temperature below interval: I₁＜ I ＜ presets second Electric current I₂, outer blower fan is adjusted to high wind gear, and inner blower runs according to set position；

3rd electric current adjusts subelement, for when complete machine electric current I is in temperature below interval: I₂＜ I ＜ presets the 3rd Electric current I₃, outer blower fan is adjusted to high wind gear, and inner blower is adjusted to apoplexy gear；

4th electric current adjusts subelement, for when complete machine electric current I is in temperature below interval: I₃＜ I ＜ presets the 4th Electric current I₄, outer blower fan is adjusted to high wind gear, and inner blower is adjusted to low wind gear；

5th electric current adjusts subelement, for when complete machine electric current I is in temperature below interval: I ＞ I₄, outer blower fan stops Machine, inner blower runs according to set position.

Understand from above description, apply technical scheme, can be according to condenser tube temperature or complete machine electricity Stream, adjusts outer blower fan and the rotating speed of inner blower, thus improves the capability of overload of complete machine, ensures on the premise of not increasing cost Complete machine is properly functioning.

Certainly, it is above the preferred embodiment of the present invention.It should be pointed out that, for those skilled in the art For, on the premise of without departing from its general principles, it is also possible to make some improvements and modifications, these improvements and modifications are also It is considered as protection scope of the present invention.

Claims (12)

1. a complete machine overload control method, it is characterised in that described method includes:

Monitoring condenser tube temperature or complete machine electric current；

According to condenser tube temperature or complete machine electric current, adjust outer blower fan and the rotating speed of inner blower, to adjust the overload energy of complete machine Power.

Method the most according to claim 1, it is characterised in that according to described condenser tube temperature, adjusts outer blower fan and endogenous wind The rotating speed of machine, including:

According to the temperature range residing for described condenser tube temperature, the described outer blower fan of corresponding adjustment and the gear of described inner blower.

Method the most according to claim 2, it is characterised in that according to the temperature range residing for described condenser tube temperature, right Described outer blower fan and the gear of described inner blower should be adjusted, including:

If it is interval that described condenser tube temperature T is in temperature below: T ＜ preset first temperature T₁, the most described outer blower fan and described in Blower fan all runs according to set position；

If it is interval that described condenser tube temperature T is in temperature below: T₁＜ T ＜ preset second temperature T₂, the most described outer blower fan adjusts For high wind gear, described inner blower runs according to set position；

If it is interval that described condenser tube temperature T is in temperature below: T₂＜ T ＜ presets the 3rd temperature T₃, the most described outer blower fan adjusts For high wind gear, described inner blower is adjusted to apoplexy gear；

If it is interval that described condenser tube temperature T is in temperature below: T₃＜ T ＜ presets the 4th temperature T₄, the most described outer blower fan adjusts For high wind gear, described inner blower is adjusted to low wind gear；

If it is interval that described condenser tube temperature T is in temperature below: T ＞ T₄, the most described outer fan parking, described inner blower according to Set position runs.

Method the most according to claim 3, it is characterised in that described outer fan parking, described inner blower is according to setting shelves Before position is run, described method also includes:

By compressor operating the first duration, then shut down the second duration；Wherein, described first duration is more than described second duration.

Method the most according to claim 1, it is characterised in that according to described complete machine electric current, adjusts outer blower fan and inner blower Rotating speed, including:

Interval according to the electric current residing for described complete machine electric current, the described outer blower fan of corresponding adjustment and the gear of described inner blower.

Method the most according to claim 5, it is characterised in that interval according to the electric current residing for described complete machine electric current, corresponding Adjust described outer blower fan and the gear of described inner blower, including:

If it is interval that described complete machine electric current I is in temperature below: I ＜ presets the first electric current I₁, the most described outer blower fan and described endogenous wind Machine all runs according to set position；

If it is interval that described complete machine electric current I is in temperature below: I₁＜ I ＜ presets the second electric current I₂, the most described outer blower fan is adjusted to High wind gear, described inner blower runs according to set position；

If it is interval that described complete machine electric current I is in temperature below: I₂＜ I ＜ presets the 3rd electric current I₃, the most described outer blower fan is adjusted to High wind gear, described inner blower is adjusted to apoplexy gear；

If it is interval that described complete machine electric current I is in temperature below: I₃＜ I ＜ presets the 4th electric current I₄, the most described outer blower fan is adjusted to High wind gear, described inner blower is adjusted to low wind gear；

If it is interval that described complete machine electric current I is in temperature below: I ＞ I₄, the most described outer fan parking, described inner blower is according to setting Determine gear to run.

Method the most according to claim 6, it is characterised in that described outer fan parking, described inner blower is according to setting shelves Before position is run, described method also includes:

By compressor operating the first duration, then shut down the second duration；Wherein, described first duration is more than described second duration.

8. a complete machine overload control apparatus, it is characterised in that described device includes:

Monitoring module, is used for monitoring condenser tube temperature or complete machine electric current；

Adjusting module, for according to condenser tube temperature or complete machine electric current, adjusts outer blower fan and the rotating speed of inner blower, whole to adjust The capability of overload of machine.

Device the most according to claim 8, it is characterised in that described adjusting module includes:

Pipe temperature adjustment unit, for according to the temperature range residing for described condenser tube temperature, correspondence adjusts described outer blower fan and institute State the gear of inner blower.

Device the most according to claim 9, it is characterised in that described pipe temperature adjustment unit includes:

First pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T ＜ presets the first temperature Degree T₁, described outer blower fan and described inner blower all run according to set position；

Second pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T₁＜ T ＜ presets second Temperature T₂, described outer blower fan is adjusted to high wind gear, and described inner blower runs according to set position；

3rd pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T₂＜ T ＜ presets the 3rd Temperature T₃, described outer blower fan is adjusted to high wind gear, and described inner blower is adjusted to apoplexy gear；

4th pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T₃＜ T ＜ presets the 4th Temperature T₄, described outer blower fan is adjusted to high wind gear, and described inner blower is adjusted to low wind gear；

5th pipe temperature adjusts subelement, for when described condenser tube temperature T is in temperature below interval: T ＞ T₄, described exogenous wind Machine is shut down, and described inner blower runs according to set position.

11. devices according to claim 8, it is characterised in that described adjusting module includes:

Current adjustment unit, for interval according to the electric current residing for described complete machine electric current, the corresponding described outer blower fan and described of adjusting The gear of inner blower.

12. devices according to claim 11, it is characterised in that described current adjustment unit includes:

First electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I ＜ presets the first electric current I₁, described outer blower fan and described inner blower all run according to set position；

Second electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I₁＜ I ＜ presets the second electricity Stream I₂, described outer blower fan is adjusted to high wind gear, and described inner blower runs according to set position；

3rd electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I₂＜ I ＜ presets the 3rd electricity Stream I₃, described outer blower fan is adjusted to high wind gear, and described inner blower is adjusted to apoplexy gear；

4th electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I₃＜ I ＜ presets the 4th electricity Stream I₄, described outer blower fan is adjusted to high wind gear, and described inner blower is adjusted to low wind gear；

5th electric current adjusts subelement, for when described complete machine electric current I is in temperature below interval: I ＞ I₄, described outer blower fan Shutting down, described inner blower runs according to set position.