CN103256667B - energy storage air conditioner - Google Patents

Abstract

The present invention discloses a kind of energy storage air conditioner, and energy storage air conditioner comprises a main body, at least one blower fan module and at least one energy storage module, and main body is provided with air intake vent and air outlet, and between air intake vent and air outlet, form multiple tanks of mutual conduction; The fan that each blower fan module comprises the first drawer and is arranged in the first drawer, the first drawer is inserted in a tank wherein; The Storage Unit that each energy storage module comprises the second drawer and is arranged in the second drawer, the second drawer is inserted in another tank, the first drawer and the second drawer mutual conduction.By this, by fan and Storage Unit modularization, to facilitate blower fan module and energy storage module to carry out quantity expansion and position change, facilitate the replacing of Storage Unit simultaneously, make energy storage air conditioner maintain good temperature control and regulate efficiency.

Description

Energy storage air conditioner

Technical field

The present invention relates to a kind of energy storage equipment, particularly relate to a kind of energy storage air conditioner.

Background technology

Generally when summer or daytime temperature high indoor, or refrigerating chamber etc. needs the place reducing temperature, air-conditioning system can be used to reduce temperature, and when winter or lower indoor of temperature at night, or drying chamber etc. needs the place promoting temperature, also can use air-conditioning system to promote temperature.No matter but its startup of the aircondition of cold air or heating installation and running, all necessary power drain energy in a large number, could produce thermoregulator effect.

But in today that the energy lacks, Long-Time Service air-conditioning system has the anxiety expending the energy to consider, and using air-condition system still has destruction and the impact of continuation for environment simultaneously.Therefore, develop an energy-storage type blower fan on the market, this energy-storage type blower fan mainly comprises a pedestal and Storage Unit, pedestal is provided with the first air port and the second air port, the first fan and the second fan is provided with in first air port and the second air port, Storage Unit is inserted in pedestal, establishes into there being phase change heat accumulating in Storage Unit; By this, after closing air-conditioning system, Storage Unit still can be utilized to continue to carry out freezing or heat-production functions.

But the above-mentioned fan of energy-storage type blower fan and the position of Storage Unit are all fixed, therefore the relative position of fan and Storage Unit also cannot freely be changed or configure; In addition, also cannot look environment needs, and increases or reduce the quantity of fan or Storage Unit, to adjust the energy storage efficiency of energy-storage type blower fan; Moreover when part Storage Unit loses the ability of storage temperature, the situation that namely thermal storage unit is not warm or cold-storage unit is not cold, the also inconvenient Storage Unit more renewed, cause the refrigeration of energy-storage type blower fan or heating capacity to reduce.

Summary of the invention

An object of the present invention, be to provide a kind of energy storage air conditioner, it utilizes fan and Storage Unit modularization, carries out quantity expansion and position change to facilitate blower fan module and energy storage module, facilitate the replacing of Storage Unit simultaneously, make energy storage air conditioner maintain good temperature control and regulate efficiency.

For reaching above-mentioned purpose, the invention provides a kind of energy storage air conditioner, comprising:

One main body, is provided with an air intake vent and an air outlet, and forms multiple tanks of mutual conduction between this air intake vent and this air outlet;

At least one blower fan module, the fan that each this blower fan module comprises one first drawer and is arranged in this first drawer, this first drawer is inserted in this tank wherein;

And at least one energy storage module, the Storage Unit that each this energy storage module comprises one second drawer and is arranged in this second drawer, this second drawer is inserted in another this tank, this first drawer and this second drawer mutual conduction.

Above-mentioned energy storage air conditioner, wherein, this main body comprises a framework, and this framework is provided with multiple opening and relatively each this opening is formed with this tank, this framework up and down or left and right form this air intake vent and this air outlet.

Above-mentioned energy storage air conditioner, wherein, this main body comprises multiple framework, and the plurality of framework stack manner combines or combines with juxtaposition, each this framework is provided with an opening and relatively this opening is formed with this tank, the plurality of framework up and down or left and right form this air intake vent and this air outlet.

Above-mentioned energy storage air conditioner, wherein, also comprise an air inlet module, the filter element that this air inlet module comprises one the 3rd drawer and is arranged in the 3rd drawer, 3rd drawer is inserted in this tank another, 3rd drawer bottom or left and right are netted or cellular ventilating structure, this netted or cellular ventilating structure to should air intake vent configuration, this first drawer, this second drawer and the 3rd drawer mutual conduction.

Above-mentioned energy storage air conditioner, wherein, this first drawer and this second drawer bottom or left and right are netted or cellular ventilating structure.

Above-mentioned energy storage air conditioner, wherein, also comprise a underframe, this underframe is arranged on this bottom part body, and this underframe is provided with an air channel, and this air channel is to configuring by air intake vent.

Above-mentioned energy storage air conditioner, wherein, also comprise a fan housing, this fan housing is arranged on the side of this main body, and this fan housing is provided with an air-flow guide groove, and this air-flow guide groove is to configuring by air outlet.

Above-mentioned energy storage air conditioner, wherein, this Storage Unit comprises multiple energy-accumulating element, and each this energy-accumulating element inside is filled with phase change energy storage material.

Above-mentioned energy storage air conditioner, wherein, the profile of each energy-accumulating element in the form of sheets, spherical or triangular shape.

For reaching above-mentioned purpose, the present invention also provides a kind of energy storage air conditioner, comprising:

At least one blower fan module, each this blower fan module comprises a first noumenon and is arranged on the fan in this first noumenon; And

At least one energy storage module, each this energy storage module comprises one second body and is arranged on this second intrinsic Storage Unit, this the first noumenon and this second body are interconnected and conducting, and in formation up and down one air intake vent of this first noumenon and this second body and an air outlet.

Above-mentioned energy storage air conditioner, wherein, this first noumenon and this second body combine in a stacked.

Above-mentioned energy storage air conditioner, wherein, this first noumenon and this second body are respectively equipped with a mutually corresponding netted or cellular ventilating structure.

Above-mentioned energy storage air conditioner, wherein, also comprise an air inlet module, this air inlet module comprises one the 3rd body and is arranged on a 3rd intrinsic filter element, 3rd body is provided with a netted or cellular ventilating structure, this netted or cellular ventilating structure to should air intake vent configuration, this first noumenon, this second body and the 3rd body mutual conduction.

Above-mentioned energy storage air conditioner, wherein, also comprises a underframe, and this underframe is arranged on the 3rd body bottom portion, and this underframe is provided with an air channel, and this air channel is to should the configuration of netted or cellular ventilating structure.

Above-mentioned energy storage air conditioner, wherein, also comprise a fan housing, this fan housing is arranged on the side of this first noumenon and this second body, and this fan housing is provided with an air-flow guide groove, and this air-flow guide groove is to configuring by air outlet.

Above-mentioned energy storage air conditioner, Qi Zhongyu, this Storage Unit comprises multiple energy-accumulating element, and each this energy-accumulating element inside is filled with phase change energy storage material.

Above-mentioned energy storage air conditioner, wherein, the profile of each energy-accumulating element in the form of sheets, spherical or triangular shape.

The present invention also has following effect:

Storage Unit modularization, to facilitate the replacing of Storage Unit, when namely Storage Unit loses the effect freezed or heat, only need substitute the Storage Unit in energy storage module, to allow energy storage air conditioner recover refrigeration or heating capacity, and reach the temperature control adjustment efficiency remaining good.

In addition, the quantity of heat storage of phase change energy storage material is large, therefore under it can maintain certain melting temperature state for a long time, the carrying out continued is lowered the temperature or heat up, and without the need to being reduced or increase heat energy more in addition, therefore effect of the saving energy can be reached.

Again, energy storage air conditioner of the present invention comprises air inlet module, to be filtered by the air of air intake vent, to provide better air quality; Moreover energy storage air conditioner of the present invention also comprises underframe, there is a segment distance on underframe support main body (or the 3rd body) and ground, take out draw outside air with convenient air intake vent; Further, energy storage air conditioner of the present invention comprises fan housing, makes air-flow guide groove guide cold air or the hot-air extremely required place of air outlet discharge, to improve the service efficiency of energy storage air conditioner.

In addition, fan and Storage Unit modularization, quantity expansion and position change is carried out to facilitate blower fan module and energy storage module, even if blower fan module and the visual service condition of energy storage module increase or reduce quantity, the relative position up and down of blower fan module and energy storage module can adjust mutually, to promote the ease of use of energy storage air conditioner.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Accompanying drawing explanation

The three-dimensional exploded view of Fig. 1 energy storage air conditioner first of the present invention embodiment;

The combination schematic diagram of Fig. 2 energy storage air conditioner first of the present invention embodiment;

The using state schematic diagram of Fig. 3 energy storage air conditioner first of the present invention embodiment;

Another using state schematic diagram of Fig. 4 energy storage air conditioner first of the present invention embodiment;

The another using state schematic diagram of Fig. 5 energy storage air conditioner of the present invention first embodiment;

The three-dimensional exploded view of Fig. 6 energy storage air conditioner second of the present invention embodiment;

The three-dimensional exploded view of Fig. 7 energy storage air conditioner of the present invention 3rd embodiment;

The three-dimensional exploded view of Fig. 8 energy storage air conditioner of the present invention 4th embodiment;

The three-dimensional exploded view of Fig. 9 energy storage air conditioner of the present invention 5th embodiment;

The three-dimensional exploded view of Figure 10 energy storage air conditioner of the present invention 6th embodiment.

Wherein, Reference numeral

1 ... main body

11 ... framework

111 ... opening

112 ... tank

12 ... air intake vent

13 ... air outlet

2 ... blower fan module

21 ... first drawer

21 ' ... the first noumenon

211 ... netted or cellular ventilating structure

22 ... fan

3 ... energy storage module

31 ... second drawer

31 ' ... second body

311 ... netted or cellular ventilating structure

32 ... Storage Unit

321 ... energy-accumulating element

4 ... air inlet module

41 ... 3rd drawer

41 ' ... 3rd body

411 ... netted or cellular ventilating structure

42 ... filter element

5 ... underframe

51 ... air channel

6 ... fan housing

61 ... air-flow guide groove

7 ... air intake vent

8 ... air outlet

Detailed description of the invention

Detailed description for the present invention and technology contents, be described as follows cooperation accompanying drawing, but appended accompanying drawing is only as illustrative purposes, not for limiting to the present invention.

Please refer to shown in Fig. 1 to Fig. 5, the invention provides a kind of energy storage air conditioner, this energy storage air conditioner mainly comprises a main body 1, at least one blower fan module 2 and at least one energy storage module 3.

The both sides up and down of main body 1 are provided with air intake vent 12 and an air outlet 13, and between air intake vent 12 and air outlet 13, form multiple tanks 112 of mutual conduction; Be described in detail as follows, main body 1 comprises multiple framework 11, the plurality of framework 11 combines in a stacked, each framework 11 is provided with an opening 111 and opposed open 111 is formed with a tank 112, the relatively the plurality of tank 112 of the plurality of framework 11 be port up and down, with self-assembling formation air intake vent 12 and air outlet 13.

Each blower fan module 2 comprises one first drawer 21 and fan 22, first drawer 21 be arranged in the first drawer 21 is inserted in a tank 112 wherein; The bottom of the first drawer 21 is a netted or cellular ventilating structure 211.

Each energy storage module 3 comprises one second drawer 31 and is arranged on the Storage Unit 32 in the second drawer 31, second drawer 31 is inserted in another tank 112, second drawer 31 is also provided with a netted or cellular ventilating structure 311 of corresponding first drawer 21, namely for the first embodiment, the bottom of the first drawer 21 is netted or cellular ventilating structure 211, the bottom of the second drawer 31 is also a netted or cellular ventilating structure 311, makes the first drawer 21 and the second drawer 31 mutual conduction; In addition, Storage Unit 32 comprises multiple energy-accumulating element 321, each energy-accumulating element 321 inside is filled with phase change energy storage material, this phase change energy storage material is the wherein a kind of of salt phase-transition material or paraffin, again each energy-accumulating element 321 for increase its profile of contact area can in the form of sheets, spherical or triangular shape.

Energy storage air conditioner of the present invention also comprises an air inlet module 4, the filter element 42 that air inlet module 4 comprises one the 3rd drawer 41 and is arranged in the 3rd drawer 41,3rd drawer 41 is inserted in another tank 112, the bottom of the 3rd drawer 41 is a netted or cellular ventilating structure 411, this netted or corresponding air intake vent 12 of cellular ventilating structure 411 configures, and the first drawer 21, second drawer 31 and the 3rd drawer 41 mutual conduction.Wherein, as shown in Figures 1 to 5, netted or cellular ventilating structure 411 configures in order to corresponding air intake vent 12, thus make the bottom of the 3rd drawer 41 be provided with netted or cellular ventilating structure 411, therefore position that is netted or cellular ventilating structure 411 can optionally be adjusted, be not restriction with the present embodiment.

Energy storage air conditioner of the present invention also comprises a underframe 5, and underframe 5 is arranged on bottom main body 1, and this underframe 5 has multiple leg or multiple roller, has a segment distance with supportive body 1 and ground, and by roller to make overall energy storage air conditioner convenient mobile; Again, the top of underframe 5 is provided with an air channel 51, and the corresponding air intake vent 12 of this air channel 51 configures; Wherein, air channel 51 can be netted or cellular ventilating structure or a port, and it can optionally be adjusted.

Energy storage air conditioner of the present invention also comprises a fan housing 6, and fan housing 6 is arranged on the side of main body 1, and fan housing 6 is provided with an air-flow guide groove 61, and the corresponding air outlet 13 of air-flow guide groove 61 configures.Wherein, as shown in Figures 1 to 5, air-flow guide groove 61 configures in order to corresponding air outlet 13, thus makes fan housing 6 be arranged on the top of main body 1, therefore fan housing 6 can optionally be adjusted with the relative position of main body 1, is not restriction with the present embodiment.

The combination of energy storage air conditioner of the present invention, it utilizes main body 1 to be provided with air intake vent 12 and air outlet 13, and form each tank 112 of mutual conduction between air intake vent 12 and air outlet 13; Each blower fan module 2 comprises the first drawer 21 and fan 22, first drawer 21 be arranged in the first drawer 21 is inserted in a tank 112 wherein; Each energy storage module 3 comprises one second drawer 31 and Storage Unit 32, second drawer 31 be arranged in the second drawer 31 is inserted in another tank 112, first drawer 21 and the second drawer 31 mutual conduction.

By this, as shown in Figure 3, energy storage module 3 is installed in the second drawer 31, make Storage Unit 32 modularization, to facilitate the replacing of Storage Unit 3, when namely Storage Unit 3 loses the effect freezed or heat, only need substitute the Storage Unit 32 in energy storage module 3, to allow energy storage air conditioner recover refrigeration or heating capacity, and reach the temperature control adjustment efficiency remaining good.

In addition, as shown in Figure 4, wherein, Storage Unit 3 can be divided into melting temperature to be cold-storage unit between 5 DEG C ~ 26 DEG C and melting temperature being the thermal storage unit between 30 DEG C ~ 68 DEG C; Cold-storage unit is cooled storage in advance in electricity charge offpeak period (as night), again in time needing the place reducing temperature to use, utilize fan 22 by outside air by air intake vent 12 suction first drawer 21, and because outside air temperature is higher than the fusing point of cold-storage unit, then cold-storage unit starts to absorb heat energy and melts, the air that air outlet 13 is discharged has effect of cooling, and reaches the effect of cold-room or refrigeration; In like manner, by thermal storage unit in electricity charge offpeak period (as night) heated storage in advance, again in time needing the place promoting temperature to use, utilize fan 22 by outside air by air intake vent 12 suction first drawer 21, and because outside air temperature is lower than the fusing point of thermal storage unit, then thermal storage unit starts to discharge heat energy and solidifies, and the air that air outlet 13 is discharged has effect of intensification, and reaches the effect of greenhouse or oven dry.Again, because the quantity of heat storage of phase change energy storage material is large, therefore under it can maintain certain melting temperature state for a long time, the carrying out continued is lowered the temperature or heats up, and without the need to being reduced or increase heat energy more in addition, therefore effect of the saving energy can be reached.

Again, energy storage air conditioner of the present invention comprises air inlet module 4, to be filtered by the air of air intake vent 12, to provide better air quality; Moreover energy storage air conditioner of the present invention also comprises underframe 5, there is a segment distance on underframe 5 supportive body 1 and ground, take out draw outside air with convenient air intake vent 12; Further, energy storage air conditioner of the present invention comprises fan housing 6, makes air-flow guide groove 61 guide cold air or the hot-air extremely required place of air outlet 13 discharge, to improve the service efficiency of energy storage air conditioner.

In addition, as shown in Figure 5, energy storage module 3 is installed in the second drawer 31, fan 22 is installed in the first drawer 21, make fan 22 and Storage Unit 32 modularization, carry out quantity expansion and position change to facilitate blower fan module 2 and energy storage module 3 to utilize each tank 112, even if blower fan module 2 and the visual service condition of energy storage module 3 increase or reduce quantity, the relative position up and down of blower fan module 2 and energy storage module 3 can adjust mutually, to promote the ease of use of energy storage air conditioner.

Please refer to shown in Fig. 6, energy storage air conditioner second embodiment of the present invention, wherein, main body 1 comprises a framework 11, framework 11 be provided with longitudinal arrangement multiple openings 111 and relatively each opening 111 be formed with tank 112, framework 11 be port up and down, with self-assembling formation air intake vent 12 and air outlet 13.By this, above-mentioned function and effect is same as to reach.

Please refer to shown in Fig. 7 to Fig. 8, energy storage air conditioner of the present invention 3rd embodiment and the 4th embodiment, wherein, each blower fan module 2 comprises a first noumenon 21 ' and is arranged on the fan 22 in the first noumenon 21 ', and the top of the first noumenon 21 ' is port and bottom is a netted or cellular ventilating structure 211.

The Storage Unit 32 that each energy storage module 3 comprises one second body 31 ' and is arranged in this second body 31 ', the top of the second body 31 ' is port and bottom is a netted or cellular ventilating structure 311, and the first noumenon 21 ' and the second body 31 ' are interconnected and conducting, to make a self-assembling formation up and down air intake vent 7 and an air outlet 8 of the first noumenon 21 ' and the second body 31 '; Wherein, the first noumenon 21 ' and the second body 31 ' combine with levels stack manner.

Again, the filter element 42 that air inlet module 4 comprises one the 3rd body 41 ' and is arranged in the 3rd body 41 ', the bottom of the 3rd body 41 ' is netted or cellular ventilating structure 411, this netted or corresponding air intake vent 7 of cellular ventilating structure 411 configures, and the first noumenon 21 ', the second body 31 ' and the 3rd body 41 ' mutual conduction.

Moreover, underframe 5 is arranged on the 3rd body 41 ' bottom, the top of underframe 5 is provided with an air channel 51, the corresponding netted or cellular ventilating structure 411 of air channel 51 configures, and this underframe 5 has multiple leg or multiple roller, a segment distance is had with ground to support the first noumenon 21 ', the second body 31 ' and the 3rd body 41 ', and by roller to make overall energy storage air conditioner convenient mobile; Fan housing 6 is arranged on the first noumenon 21 ' and the second body 31 ' top, and the corresponding air outlet 8 of air-flow guide groove 61 configures.

Wherein, air channel 51 can be netted or cellular ventilating structure or a port, and it can optionally be adjusted; Separately, the shape of the first noumenon 21 ', the second body 31 ' and the 3rd body 41 ' can be the geometries such as square tube shape or cylindrical shape, and it is not as limit.

By this, the first noumenon 21 ' and the second body 31 ' are combined in a stacked, and fan 22 is installed in the first noumenon 21 ', Storage Unit 32 is installed in the second body 31 ', make fan 22 and Storage Unit 32 modularization, to facilitate blower fan module 2 and energy storage module 3 to carry out quantity expansion and position change, reach simultaneously and be same as above-mentioned function and effect.

Please refer to shown in Fig. 9 to Figure 10, energy storage air conditioner of the present invention 5th embodiment and the 6th embodiment, the left and right sides of main body 1 is provided with air intake vent 12 and air outlet 13, and forms multiple tanks 112 of mutual conduction between air intake vent 12 and air outlet 13.

Wherein, 5th embodiment is described as follows, main body 1 comprises multiple framework 11, the plurality of framework 11 combines with juxtaposition, each framework 11 is provided with opening 111 and opposed open 111 is formed with tank 112, and the left and right sides of the relatively the plurality of tank 112 of the plurality of framework 11 is provided with air intake vent 12 and air outlet 13.Again, each framework 11 has multiple leg or multiple roller, and to make framework 11 and ground have a segment distance, and to allow, each framework 11 is convenient to be moved, replace and combine by roller.

In addition, the 6th embodiment is described as follows, and main body 1 comprises a framework 11, and framework 11 is provided with transversely arranged multiple openings 111 and each opening 111 is formed with tank 112 relatively, and the left and right sides of framework 11 is provided with air intake vent 12 and air outlet 13.Again, framework 11 has multiple leg or multiple roller, to make framework 11 and ground have a segment distance, and by roller to make overall energy storage air conditioner convenient mobile.

Moreover, first drawer 21 is provided with netted or cellular ventilating structure 211, second drawer 31 is also provided with the netted or cellular ventilating structure 311 of corresponding first drawer 21, namely for the 5th embodiment and the 6th embodiment, the left and right sides of the first drawer 21 is netted or cellular ventilating structure 211, the left and right sides of the second drawer 31 is also netted or cellular ventilating structure 311, makes the first drawer 21 and the second drawer 31 mutual conduction.By this, above-mentioned function and effect is same as to reach.

Certainly; the present invention also can have other various embodiments; when not deviating from the present invention's spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the present invention, but these change accordingly and are out of shape the protection domain that all should belong to the claim appended by the present invention.

Claims (15)

1. an energy storage air conditioner, is characterized in that, comprising:

One main body, is provided with an air intake vent and an air outlet, and forms multiple tanks of mutual conduction between this air intake vent and this air outlet;

At least one blower fan module, the fan that each this blower fan module comprises one first drawer and is arranged in this first drawer, this first drawer is inserted in this tank wherein;

And at least one energy storage module, the Storage Unit that each this energy storage module comprises one second drawer and is arranged in this second drawer, this second drawer is inserted in another this tank, this first drawer and this second drawer mutual conduction.

2. energy storage air conditioner according to claim 1, is characterized in that, this main body comprises a framework, and this framework is provided with multiple opening and relatively each this opening is formed with this tank, this framework up and down or left and right form this air intake vent and this air outlet.

3. energy storage air conditioner according to claim 1, it is characterized in that, this main body comprises multiple framework, the plurality of framework combines in a stacked or combines with juxtaposition, each this framework is provided with an opening and relatively this opening is formed with this tank, the plurality of framework up and down or left and right form this air intake vent and this air outlet.

4. energy storage air conditioner according to claim 1, it is characterized in that, also comprise an air inlet module, the filter element that this air inlet module comprises one the 3rd drawer and is arranged in the 3rd drawer, 3rd drawer is inserted in this tank another, 3rd drawer bottom or left and right are netted or cellular ventilating structure, this netted or cellular ventilating structure to should air intake vent configuration, this first drawer, this second drawer and the 3rd drawer mutual conduction.

5. energy storage air conditioner according to claim 1, is characterized in that, this first drawer and this second drawer bottom or left and right are netted or cellular ventilating structure.

6. energy storage air conditioner according to claim 1, is characterized in that, also comprises a underframe, and this underframe is arranged on this bottom part body, and this underframe is provided with an air channel, and this air channel is to configuring by air intake vent.

7. energy storage air conditioner according to claim 1, is characterized in that, also comprises a fan housing, and this fan housing is arranged on the side of this main body, and this fan housing is provided with an air-flow guide groove, and this air-flow guide groove is to configuring by air outlet.

8. energy storage air conditioner according to claim 1, is characterized in that, this Storage Unit comprises multiple energy-accumulating element, and each this energy-accumulating element inside is filled with phase-changing energy storage material.

9. energy storage air conditioner according to claim 8, is characterized in that, the profile of each energy-accumulating element in the form of sheets, spherical or triangular shape.

10. an energy storage air conditioner, is characterized in that, comprising:

At least one blower fan module, each this blower fan module comprises a first noumenon and is arranged on the fan in this first noumenon; And

At least one energy storage module, each this energy storage module comprises one second body and is arranged on this second intrinsic Storage Unit, this the first noumenon and this second body combine in a stacked, this the first noumenon and this second body be respectively equipped with mutually a corresponding netted or cellular ventilating structure with mutual conduction, and in formation up and down one air intake vent of this first noumenon and this second body and an air outlet.

11. energy storage air conditioners according to claim 10, it is characterized in that, also comprise an air inlet module, this air inlet module comprises one the 3rd body and is arranged on a 3rd intrinsic filter element, 3rd body is provided with a netted or cellular ventilating structure, this netted or cellular ventilating structure to should air intake vent configuration, this first noumenon, this second body and the 3rd body mutual conduction.

12. energy storage air conditioners according to claim 11, is characterized in that, also comprise a underframe, and this underframe is arranged on the 3rd body bottom portion, and this underframe is provided with an air channel, and this air channel is to should the configuration of netted or cellular ventilating structure.

13. energy storage air conditioners according to claim 10, is characterized in that, also comprise a fan housing, and this fan housing is arranged on the side of this first noumenon and this second body, and this fan housing is provided with an air-flow guide groove, and this air-flow guide groove is to configuring by air outlet.

14. energy storage air conditioners according to claim 10, is characterized in that, this Storage Unit comprises multiple energy-accumulating element, and each this energy-accumulating element inside is filled with phase change energy storage material.

15. energy storage air conditioners according to claim 14, is characterized in that, the profile of each energy-accumulating element in the form of sheets, spherical or triangular shape.