CN205619495U - Breather and have its air conditioner - Google Patents

Abstract

The utility model provides a breather and have its air conditioner. Wherein, breather includes: the casing has indoor interface and outdoor interface, heat -retaining portion sets up in the casing, and heat -retaining portion includes the heat -retaining core, and breather has the first state of taking a breath and a second state of taking a breath, breather be in first take a breath during the state room air through indoor interface get into heat -retaining portion and with the heat transfer of heat -retaining core after arrange outdoorly through outdoor interface, arrange indoorly through indoor interface after outdoor air got into heat -retaining portion and the heat transfer of heat -retaining core through outdoor interface when breather was in the second and takes a breath the state, the suction fan sets up in the casing to be in and be used for between indoor interface and the outdoor interface room air or outdoor air suction to the heat -retaining portion in. The technical scheme of the utility model can solve the problem of the extravagant electric energy of breather among the prior art effectively.

Description

Air interchanger and there is its air-conditioner

Technical field

The utility model relates to refrigerating field, in particular to a kind of air interchanger and the air-conditioner with it.

Background technology

The patent of Patent No. CN201210143123.1 and CN201310247167.3 discloses a kind of air interchanger and control thereof Method, this device can by the flowing respectively of inner air and outer air thus the effect reaching to update indoor fresh air, this control method Air interchanger is made can accurately to control the time of exhaust and air-breathing during ventilation, it is to avoid long-time exhaust and air-breathing cause waste. But, this control method does not accounts for indoor heat or the loss of indoor cold energy during ventilation is carried out, in order to mend Filling this loss, indoor refrigerating plant is had to strengthen power and is freezed or heat, thus causes the waste of energy of user. And, during ventilation, the water content in outside air through processing, does not fails regulation air before entrance is indoor Humidity, is easily destroyed the wetting balance in indoor bad border, causes user to feel the uncomfortable of air.

Utility model content

Main purpose of the present utility model is the air-conditioner providing a kind of air interchanger and having it, of the prior art to solve The problem of air interchanger waste electric energy.

To achieve these goals, according to an aspect of the present utility model, a kind of air interchanger is provided, comprising: housing, There is indoor interface and outdoor interface；Heat accumulation portion, is arranged in housing, and heat accumulation portion includes heat accumulation core, and air interchanger has first Ventilatory state and the second ventilatory state, when air interchanger is in the first ventilatory state, room air enters heat accumulation portion by indoor interface And it is discharged to outdoor by outdoor interface after heat accumulation core heat exchange, when air interchanger is in the second ventilatory state, outdoor air is by outdoor Interface enters heat accumulation portion and is discharged to indoor by indoor interface after heat accumulation core heat exchange；Induced-draught fan, is arranged in housing, and is in room For being sucked into room air or outdoor air in heat accumulation portion between inner joint and outdoor interface.

Further, heat accumulation portion also includes heat accumulation box, and heat accumulation core is arranged in heat accumulation box, and heat accumulation box has air inlet and air outlet, Air inlet and indoor orifice and air outlet and outdoor orifice when air interchanger is in the first ventilatory state, at air interchanger Air inlet and outdoor orifice and air outlet and indoor orifice when the second ventilatory state.

Further, air interchanger also includes: reversal valve, and reversal valve is arranged in housing, and reversal valve has separate One runner and the second runner, first flow connection air inlet and indoor interface when heat accumulation portion is in the first ventilatory state, and second Flow passage air outlet and outdoor interface, first flow connection air outlet and outdoor interface when heat accumulation portion is in the second ventilatory state, And the second flow passage air inlet and indoor interface.

Further, induced-draught fan is arranged in heat accumulation box.

Further, heat accumulation core is positioned between air inlet and induced-draught fan.

Further, heat accumulation portion also includes the temperature-sensitive bag for measuring heat accumulation core temperature.

Further, temperature-sensitive bag is arranged on the center of heat accumulation core.

According to another aspect of the present utility model, providing a kind of air-conditioner, including air interchanger, air interchanger is above-mentioned changing Device of air.

Application the technical solution of the utility model, is provided with heat accumulation portion in the housing of air interchanger, heat accumulation portion includes heat accumulation core, changes Device of air has the first ventilatory state and the second ventilatory state, and when air interchanger is in the first ventilatory state, room air is in air draught Enter heat accumulation portion by indoor interface under the effect of machine and carry out heat exchange with heat accumulation core, now room air by himself heat energy or Cold storage, in heat accumulation core, is then discharged to outdoor by outdoor interface.When air interchanger is in the second ventilatory state, outdoor Air enters heat accumulation portion by outdoor interface under the effect of induced-draught fan and carries out heat exchange with heat accumulation core, by stored by heat accumulation core before Heat energy or cold energy pass to the outdoor air after heat accumulation core, be then discharged to indoor by indoor interface.Said structure considers Arrive indoor heat or indoor cold loss of energy, carried out freezing or making so that the refrigerating plant of indoor need not strengthen power Heat, and then save electric energy, the problem finally solving air interchanger of the prior art waste electric energy.Other above-mentioned heat exchange core The effect that can not only play storage energy can also play the effect storing moisture, when air interchanger is in the first ventilatory state, Moisture in room air is received by heat accumulation wicking, and when air interchanger is in the second ventilatory state, outdoor air is through heat accumulation core After humidity regulation, its water content is improved, thus ensure that the wetting balance in indoor bad border, and then improves the comfortable of user Degree.

Brief description

A part of Figure of description constituting the application is used for providing being further appreciated by of the present utility model, of the present utility model Schematic description and description is used for explaining the utility model, is not intended that to improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the perspective diagram of the structure of the embodiment according to air interchanger of the present utility model；

Fig. 2 shows that the air interchanger of Fig. 1 is in the flow chart of the first ventilatory state；

Fig. 3 shows that the air interchanger of Fig. 1 is in the flow chart of the second ventilatory state；

Fig. 4 shows the flow chart that the air interchanger of Fig. 1 is under refrigerating state；

Fig. 5 shows the flow chart that the air interchanger of Fig. 1 is under the state of heating；

Fig. 6 shows the flow chart that the air interchanger of Fig. 1 is under moist environment；And

Fig. 7 shows the flow chart that the air interchanger of Fig. 1 is under dry environment.

Wherein, above-mentioned accompanying drawing includes that the following drawings marks:

10th, housing；11st, indoor interface；12nd, outdoor interface；21st, heat accumulation core；22nd, heat accumulation box；30th, induced-draught fan；40、 Reversal valve.

Detailed description of the invention

It should be noted that in the case of not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined. Describe the utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

As it is shown in figure 1, the air interchanger of the present embodiment includes housing the 10th, heat accumulation portion and induced-draught fan 30.Wherein, housing 10 There is indoor interface 11 and outdoor interface 12；Heat accumulation portion is arranged in housing 10, and heat accumulation portion includes heat accumulation core 21, air interchanger Having the first ventilatory state and the second ventilatory state, when air interchanger is in the first ventilatory state, room air is by indoor interface 11 Enter heat accumulation portion and be discharged to outdoor by outdoor interface 12 after heat accumulation core 21 heat exchange, when air interchanger is in the second ventilatory state Outdoor air enters heat accumulation portion by outdoor interface 12 and is discharged to indoor by indoor interface 11 after heat accumulation core 21 heat exchange；Induced-draught fan 30, it is arranged in housing 10, and be between indoor interface 11 and outdoor interface 12 for by room air or outdoor air It is sucked in heat accumulation portion.

The technical scheme of application the present embodiment, is provided with heat accumulation portion in the housing 10 of air interchanger, heat accumulation portion includes heat accumulation core 21, Air interchanger has the first ventilatory state and the second ventilatory state, and when air interchanger is in the first ventilatory state, room air is being inhaled Entering heat accumulation portion by indoor interface 11 under the effect of blower fan 30 and carrying out heat exchange with heat accumulation core 21, now room air is by it certainly The heat energy of body or cold storage, in heat accumulation core 21, are then discharged to outdoor by outdoor interface 12.When air interchanger is in second During ventilatory state, outdoor air is entered heat accumulation portion by outdoor interface 12 and is carried out with heat accumulation core 21 under the effect of induced-draught fan 30 Heat energy stored by heat accumulation core 21 before or cold energy are passed to the outdoor air after heat accumulation core 21, then pass through by heat exchange Indoor interface is discharged to indoor.Said structure take into account indoor heat or indoor cold loss of energy, so that the refrigeration of indoor Device need not strengthen power and freezes or heat, and then saves electric energy, finally solves air interchanger of the prior art The problem of waste electric energy.The effect that other above-mentioned heat accumulation core 21 can not only play storage energy can also play the work storing moisture With when air interchanger is in the first ventilatory state, the moisture in room air is absorbed by heat accumulation core 21, when air interchanger is in During the second ventilatory state, outdoor air is after the humidity regulation of heat accumulation core 21, and its water content is improved, thus ensure that The wetting balance in indoor bad border, and then improve the comfort level of user.

Heat and moisture can be by the material of air, heat accumulation can be absorbed it should be noted that heat accumulation core 21 is any one Core 21 is not unique in this application, as long as meeting any one material that can absorb heat and moisture and can pass through air Can.

Specifically, as in figure 2 it is shown, when air interchanger is in the first ventilatory state, indoor air is introduced into indoor interface 11, Enter back into heat accumulation core 21, be stored in himself energy and moisture in heat accumulation core 21, then enter outdoor by induced-draught fan 30 Outside the final discharge chamber of interface 12.As it is shown on figure 3, when air interchanger is in the second ventilatory state, outdoor air advanced person enters the room External tapping 12, enters back into heat accumulation core 21, absorbs the energy in heat accumulation core 21 and moisture, then enters indoor by induced-draught fan 30 Interface 11 is ultimately discharged into indoor.

As shown in Figure 4, when indoor are refrigeration and when being in the first ventilatory state, cold air inside is through the higher heat accumulation of excess temperature After core 21, the heat energy of heat accumulation core 21 is delivered in cold air, and heat accumulation core 21 temperature now declines, and the temperature of air rises shape Becoming hot blast, then above-mentioned hot blast will be expelled to outdoor, mixes with outdoor hot-air.When air interchanger switches to the second ventilation During state, the heat in air, after the relatively low heat accumulation core 21 of excess temperature, will be delivered to temperature relatively low by outdoor hot-air Go above heat accumulation core 21, take away the just inspiration of the cold air after heat indoor.Above-mentioned first ventilatory state and the second ventilatory state are back and forth Switching, forms working cycles.

As it is shown in figure 5, when indoor are to heat and when being in the first ventilatory state, Indoor Thermal air is through the relatively low heat accumulation of excess temperature After core 21, the heat energy in air is delivered in heat accumulation core 21, and heat accumulation core 21 temperature now rises, and the temperature of air declines shape Becoming cold wind, then above-mentioned cold wind will be expelled to outdoor, mixes with outdoor cold air.When air interchanger switches to the second ventilation During state, outdoor cold air is after the higher heat accumulation core 21 of excess temperature, and cold air will absorb the energy of heat accumulation core 21, storage The temperature of hot core 21 declines, and the temperature of air rises and forms hot blast, then blows into indoor.Above-mentioned first ventilatory state and second changes Gaseity toggles, and forms working cycles.

As shown in Figure 6, when indoor air is relatively outdoor relatively moisten when and when being in the first ventilatory state, indoor moistening sky When gas runs into dry heat accumulation core 21, the moisture in air will be attached to above, and the air discharging is through being predominantly absorbed water Become relatively dry after Fen, at this moment, the air for relatively dry that discharges.When air interchanger switches to the second ventilatory state, The air of open-air seasoning forms moistening air inspiration room through the heat accumulation core 21 containing adequate water, the moisture that will take away the inside In.Above-mentioned first ventilatory state and the second ventilatory state toggle, and form working cycles.

As it is shown in fig. 7, when indoor air relatively outdoor relatively dry when, when being in the first ventilatory state, the sky of indoor seasoning Gas runs into the heat accumulation core 21 containing adequate water, will take away moisture therein outside discharge chamber.When air interchanger switches to second During ventilatory state, when extraneous wet air runs into the heat accumulation core of relatively dry, the moisture in air will be attached to heat accumulation core On 21, what at this moment inspiration was indoor is the air of relatively dry.Above-mentioned first ventilatory state and the second ventilatory state toggle, Form working cycles.

In the present embodiment, as it is shown in figure 1, heat accumulation portion also includes heat accumulation box 22, heat accumulation core 21 is arranged in heat accumulation box 22, Heat accumulation box 22 has air inlet and air outlet, and when air interchanger is in the first ventilatory state, air inlet connects with indoor interface 11 and goes out Air port connects with outdoor interface 12, and when air interchanger is in the second ventilatory state, air inlet connects and air outlet with outdoor interface 12 Connect with indoor interface 11.Specifically, when air interchanger is in the first ventilatory state, indoor air is introduced into indoor interface 11, then enter heat accumulation core 21 by air inlet, it is stored in himself energy and moisture in heat accumulation core 21, then by mutually Outside the air outlet of connection and the outdoor final discharge chamber of interface 12.When air interchanger is in the second ventilatory state, outdoor air is first Enter outdoor interface 12, then enter heat accumulation core 21 by air inlet, absorb the energy in heat accumulation core 21 and moisture, then pass through The air outlet being interconnected and indoor interface 11 are ultimately discharged into indoor.Said structure is simple, be easily achieved.

In the present embodiment, as it is shown in figure 1, air interchanger also includes: reversal valve 40, reversal valve 40 is arranged in housing 10, Reversal valve 40 has separate first flow and the second runner, when heat accumulation portion is in the first ventilatory state first flow connect into Air port and indoor interface 11, and the second flow passage air outlet and outdoor interface 12, when heat accumulation portion is in the second ventilatory state the One flow passage air outlet and outdoor interface 12, and the second flow passage air inlet and indoor interface 11.Said structure is by changing To Vavle switching the first ventilatory state and the second ventilatory state, the structure on the one hand making whole product is simpler, on the other hand makes The production obtaining product becomes to be more prone to, and reduces the production cost of product.

In the present embodiment, as it is shown in figure 1, induced-draught fan 30 is arranged in heat accumulation box 22.Specifically, induced-draught fan 30 has suction Blower fan air entry and induced-draught fan gas outlet, above-mentioned induced-draught fan air entry is connected with the air inlet of heat accumulation box 22, and above-mentioned induced-draught fan goes out Gas port is connected with the air outlet of heat accumulation box 22.Said structure is simple, reduces product in induced-draught fan 30 is arranged on heat accumulation box 22 The volume of product.

In the present embodiment, as it is shown in figure 1, heat accumulation core 21 is positioned between air inlet and induced-draught fan 30.Said structure make by The gas that induced-draught fan 30 sucks can enter heat accumulation portion from air inlet, and as much as possible by heat accumulation core 21.Said structure makes The energy of the gas being inhaled into can pass to heat accumulation core 21 as much as possible or make the energy of heat accumulation core 21 can be as far as possible How to pass to air.Said structure create a further reduction indoor heat or indoor cold loss of energy, so that indoor Refrigerating plant need not strengthen power and freezes or heat, and then saves electric energy, finally solves ventilation of the prior art The problem of device waste electric energy.

In the present embodiment, heat accumulation portion also includes the temperature-sensitive bag for measuring heat accumulation core temperature.Said structure can measure storage in real time The temperature of hot core 21, controls the switching between the first ventilatory state and the second ventilatory state by the temperature measuring heat accumulation core 21. Therefore, said structure makes the switching time between the first ventilatory state and the second ventilatory state more reasonable, thus further Reduce indoor heat or indoor cold loss of energy so that the refrigerating plant of indoor need not strengthen power carry out freezing or Heat, and then save electric energy.

It should be noted that alternatively, above-mentioned temperature-sensitive plates the centre at heat accumulation core 21.

Specifically, when indoor are refrigeration and when being in the first ventilatory state, cold air inside is through the higher heat accumulation core 21 of excess temperature After, the heat energy of heat accumulation core 21 is delivered in cold air, and heat accumulation core 21 temperature now declines, and the temperature of air rises and forms heat Wind, then above-mentioned hot blast will be expelled to outdoor.When the temperature that temperature-sensitive bag detects not at continuous decrease after, reversal valve 40 will change Device of air switches to the second ventilatory state from the first ventilatory state, when air interchanger switches to the second ventilatory state, and outdoor heat Heat in air, after the relatively low heat accumulation core 21 of excess temperature, will be delivered to go above the relatively low heat accumulation core 21 of temperature by air, Take away the just inspiration of the cold air after heat indoor.The temperature detecting when temperature-sensitive bag is not when persistently rising, and reversal valve 40 will be taken a breath Device switches to the first ventilatory state from the second ventilatory state, and so circulation is gone down.

When indoor are to heat and when being in the first ventilatory state, Indoor Thermal air after the relatively low heat accumulation core 21 of excess temperature, air In heat energy be delivered in heat accumulation core 21, heat accumulation core 21 temperature now rises, and the temperature of air declines and forms cold wind, then Above-mentioned cold wind will be expelled to outdoor.When the temperature that temperature-sensitive bag detects not persistently rise after, reversal valve 40 by air interchanger from First ventilatory state switches to the second ventilatory state, and when air interchanger switches to the second ventilatory state, outdoor cold air passes through After the higher heat accumulation core 21 of temperature, cold air will absorb the energy of heat accumulation core 21, and the temperature of heat accumulation core 21 declines, air Temperature rises and forms hot blast, then blows into indoor.When the temperature that temperature-sensitive bag detects does not declines on persistently, reversal valve 40 will Air interchanger switches to the first ventilatory state from the second ventilatory state, and so circulation is gone down.

In the present embodiment, temperature-sensitive bag is arranged on the center of heat accumulation core.Said structure makes the temperature detection of heat accumulation core more accurate Really, make the switching time between the first ventilatory state and the second ventilatory state more reasonable further, thus drop further Low indoor heat or indoor cold loss of energy, carry out freezing or making so that the refrigerating plant of indoor need not strengthen power Heat, and then save electric energy.

In this application, additionally provide a kind of air-conditioner (not shown), include air interchanger according to the air-conditioner of the application, Air interchanger is above-mentioned air interchanger.There is due to above-mentioned air interchanger the advantages such as saving electric energy, therefore there is above-mentioned ventilation The air-conditioner of device also has above-mentioned advantage.

In this application, additionally provide the control method of a kind of air interchanger, control method for control above-mentioned air interchanger or Person's air-conditioner, control method includes:

Obtain initial temperature T of heat accumulation core 21₀；

After induced-draught fan 30 ran for first scheduled time, obtain the Current Temperatures of heat accumulation core 21, according to initial temperature T₀With current temperature Degree T obtains initial temperature T₀And the absolute value of the first difference between Current Temperatures T, and whether judge the absolute value of the first difference Less than or equal to the first predetermined value,

When the absolute value of the first difference is less than or equal to the first predetermined value, perform handover operation until the absolute value of the first difference is more than First predetermined value, wherein, handover operation includes that induced-draught fan 30 ran for second scheduled time, performs ventilatory state switching.

When the absolute value of the first difference is more than the first predetermined value, the rate temperature change V of the current ventilatory state of detection in real time,

When rate temperature change V is less than or equal to the second predetermined value, performs ventilatory state and switch until average exhaust temperature being detected And when the absolute value of the second difference between air-breathing mean temperature is less than or equal to three predetermined values, perform handover operation.

It should be noted that above-mentioned ventilatory state switches to switches to the second ventilatory state from the first ventilatory state, or from second Ventilatory state switches to the first ventilatory state.The switching of above-mentioned ventilatory state is realized by control reversal valve 40.Certainly, ability Field technique personnel are it is to be understood that the switching of above-mentioned ventilatory state also can be realized by other equipment with commutation function.

Also, it should be noted above-mentioned average exhaust temperature refer to total moisture content under the first ventilatory state for the air interchanger divided by First ventilatory state duration.Above-mentioned air-breathing mean temperature refers at stagnation temperature under the second ventilatory state for the air interchanger Degree is divided by the second ventilatory state duration, when the second difference detecting between average exhaust temperature and air-breathing mean temperature Absolute value less than or equal to three predetermined values when, then illustrate that air interchanger is no longer on refrigeration or heats environment, need to perform ventilation State switches so that air interchanger reenters refrigeration or heats environment.

Above-mentioned control method actually goes to judge initial temperature T₀And the absolute value of the first difference between Current Temperatures T, when When the absolute value of one difference is less than or equal to the first predetermined value, illustrates that air interchanger is not in refrigeration or heats environment, now need The ventilatory state switching of timing to be performed, till the absolute value of the first difference is more than or equal to the first predetermined value, i.e. until taking a breath Till device is in refrigeration or heats environment.When air interchanger is in refrigeration or heats environment, begin to by temperature change speed Rate controls ventilatory state switching.When rate temperature change is less than the second predetermined value, then illustrate that heat accumulation core 21 is saturated, also That is heat accumulation core 21 is difficult to re-absorption or releases energy, now switch ventilatory state so that heat accumulation core 21 can be corresponding Ground release or energy absorption, so that the switching time between the first ventilatory state and the second ventilatory state is more reasonable, fall Low indoor heat or indoor cold loss of energy so that indoor refrigerating plant need not strengthen power and freezes or heat, And then save electric energy, the problem finally solving air interchanger of the prior art waste electric energy.

In the present embodiment, rate temperature change V is obtained by below equation:

$V=\frac{T_n-T_{n-1}}{t}$

Wherein, T_nThe temperature of the heat accumulation core 21 that expression n-th detects, T_n-1It is the temperature of the heat accumulation core 21 detecting for (n-1)th time Degree, detects T_nTime and T detected_n-1Time between be spaced apart t.Above-mentioned formula can relatively accurately judge storage The rate temperature change of hot core 21 reality, so that the more adduction of the switching time between the first ventilatory state and the second ventilatory state Reason.

In the present embodiment, the time interval of ventilatory state switching is more than the 4th scheduled time.Above-mentioned steps makes ventilatory state Switching is less frequent, on the one hand reduces noise produced by equipment, on the other hand ensure that the life-span of air interchanger.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for this area For technical staff, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, institute Any modification, equivalent substitution and improvement etc. made, should be included within protection domain of the present utility model.

Claims (8)

1. an air interchanger, it is characterised in that include:

Housing (10), has indoor interface (11) and outdoor interface (12)；

Heat accumulation portion, is arranged in described housing (10), and described heat accumulation portion includes heat accumulation core (21), and described air interchanger has Having the first ventilatory state and the second ventilatory state, when described air interchanger is in described first ventilatory state, room air passes through Described indoor interface (11) enters described heat accumulation portion and passes through described outdoor interface (12) after the heat exchange of described heat accumulation core (21) Being discharged to outdoor, when described air interchanger is in described second ventilatory state, outdoor air is entered by described outdoor interface (12) Enter described heat accumulation portion and be discharged to indoor by described indoor interface (11) after the heat exchange of described heat accumulation core (21)；

Induced-draught fan (30), in being arranged on described housing (10), and is in described indoor interface (11) and described outdoor connects For being sucked into described room air or described outdoor air in described heat accumulation portion between mouth (12).

2. air interchanger according to claim 1, it is characterised in that described heat accumulation portion also includes heat accumulation box (22), described storage Hot core (21) is arranged in described heat accumulation box (22), and described heat accumulation box (22) has air inlet and air outlet, described Air interchanger when being in described first ventilatory state described air inlet connect with described indoor interface (11) and described air outlet and Described outdoor interface (12) connection, described air interchanger is in described air inlet and described room during described second ventilatory state External tapping (12) connection and described air outlet connect with described indoor interface (11).

3. air interchanger according to claim 2, it is characterised in that described air interchanger also includes: reversal valve (40), institute Stating reversal valve (40) to be arranged in described housing (10), described reversal valve (40) has separate first flow With the second runner, described heat accumulation portion be in during described first ventilatory state the described air inlet of described first flow connection with described Indoor interface (11), and air outlet described in described second flow passage and described outdoor interface (12), at described heat accumulation portion The described air outlet of described first flow connection and described outdoor interface (12) when described second ventilatory state, and described the Air inlet described in two flow passage and described indoor interface (11).

4. air interchanger according to claim 2, it is characterised in that described induced-draught fan (30) is arranged on described heat accumulation box (22) In.

5. air interchanger according to claim 2, it is characterised in that described heat accumulation core (21) is positioned at described air inlet and institute State between induced-draught fan (30).

6. air interchanger according to claim 1, it is characterised in that described heat accumulation portion also includes for measuring described heat accumulation core (21) the temperature-sensitive bag of temperature.

7. air interchanger according to claim 6, it is characterised in that described temperature-sensitive bag is arranged on described heat accumulation core (21) Center.

8. an air-conditioner, including air interchanger, it is characterised in that described air interchanger is described in any one of claim 1 to 7 Air interchanger.