CN218820768U - Multifunctional portable energy storage air conditioner - Google Patents

Abstract

The utility model discloses a multifunctional portable energy storage air conditioner, belonging to the technical field of air conditioning; comprises a box body, an air processing unit, an upper water tank component, an assembled two-way air quantity proportion adjusting device and a fan component; the air processing unit comprises a cold evaporation filter screen, an energy storage heat exchange module and a high-efficiency filter; the air processing unit, the water feeding tank assembly and the fan assembly are arranged at the upper part of the box body; the assembled two-way air quantity proportion adjusting device is arranged at the lower part of the box body. The utility model discloses a multi-functional portable energy storage air conditioner through reasonable structural design, and a tractor serves several functions such as refrigeration, dehumidification, humidification, purification. The air storage device is simple in structure, small in machine body and light in weight, can be conveniently placed in indoor or outdoor personnel movement areas, directly releases cold/heat through forced air convection, is controllable in the cold/heat release process of the energy storage medium, is convenient and quick to adjust the air supply temperature and humidity, can independently adjust the temperature and humidity of the personnel movement areas, and meets the requirement of personnel comfort.

Description

Multifunctional portable energy storage air conditioner

Technical Field

The utility model relates to a multi-functional portable energy storage air conditioner belongs to air conditioning technology field.

Background

The traditional air-conditioning terminals such as fan coil, split air-conditioning indoor unit, multi-unit indoor unit, etc. are installed on the ceiling, on the wall and under the window, and are fixed in position and far away from the personnel activity area, and the traditional air-conditioning terminals can not independently control the temperature and humidity of the personnel activity area, so that the requirement of personnel comfort can be met by adjusting the temperature and humidity of the whole indoor environment including the personnel activity area.

The mobile air conditioner is cooled by adopting the compressor and discharges heat by the fan, and needs to be arranged at a position which is close to an outer wall and is provided with a power socket and can be provided with an exhaust pipeline, so that the moving range is limited, the temperature and the humidity of a personnel moving area can not be independently adjusted, and the mobile air conditioner can not be used in occasions without power supplies, such as the field and the like, because the installed power is high, the mobile air conditioner can not be supplied with power by rechargeable power supplies such as lithium batteries and the like.

Although the temperature and the humidity of the activity area of the personnel can be independently adjusted, the air-conditioning fan and the air cooler are refrigerated through a cold evaporator of water, the cold energy stored in an ice crystal box needs to be transferred through secondary refrigerants such as water and the like, parts such as a water tank, a water pump, a water distributor and the like need to be arranged, the system is complex, the size of a case is large, the weight is large, the ice-cooling box can only move on the ground and cannot be arranged on a desktop and a table top, and the air-conditioning fan and the air cooler are inconvenient to adjust the air supply temperature and the humidity due to the fact that the cold releasing process of ice and the ice crystal box is uncontrollable, the environment is humidified when cold air is sent, and the requirement for the comfort of the personnel cannot be met.

The existing air volume regulating valve mainly comprises a frame, a wind shield or a blade and an air valve regulating mechanism, can be used for air volume regulation and closing, and is divided into a manual air volume regulating valve which is rotated by a handle or a hand wheel and used for regulating the opening and closing angle of the blade and an electric motor which passes through an electric control mechanism to be powered, so that a push rod is driven to displace, the opening and closing angle of the blade is controlled, and the purpose of regulating the air volume is achieved. The thickness of the common manual air volume adjusting valve is larger than 140 mm, and the thickness of the electric air volume adjusting valve is larger than 170 mm.

In the ventilation system, in order to realize the merging and splitting of the two air paths, the mode conversion of closing one air path, opening the other air path and the inverse proportion regulation of the air volume of the two air paths, the prior technical scheme needs to arrange two sets of electric air volume regulating valves, controls the two sets of air volume regulating valves through two sets of electric actuators respectively, and achieves the purpose of inverse proportion regulation through a control program, so that the problems of high cost, relatively complicated control and relatively large installation space are solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a multifunctional portable energy storage air conditioner which has multiple functions of refrigeration, dehumidification, humidification, purification and the like; the structure is simple, the machine body is small and exquisite, the weight is light, and the machine body can be conveniently placed in an indoor or outdoor personnel moving area; the cold/heat release is directly realized through air forced convection, the cold/heat release process of the energy storage medium is controllable, the air supply temperature and the air supply humidity are conveniently and quickly adjusted, the temperature and the humidity of the activity area of personnel can be independently adjusted, and the requirement of personnel comfort is met.

The above object of the utility model is achieved through the following technical scheme:

a multifunctional portable energy storage air conditioner is characterized by comprising a case unit, an air processing unit, a water feeding tank assembly, an assembled two-way air quantity proportion adjusting device and a fan assembly; the air processing unit, the water feeding tank assembly, the fan assembly and the fan assembly are arranged on the upper part of the case unit; the assembled two-way air quantity proportion adjusting device is arranged at the lower part of the machine box unit;

the case unit comprises a case body, an air inlet, an air outlet, a middle partition plate and a handle; the air inlet is arranged on a bottom plate of the box body, the air outlet is arranged at the upper part of the box body, the lifting handle is arranged at the top of the box body, the middle partition plate is arranged in a middle box cavity of the box body, the rear part of the middle partition plate is provided with a first air inlet opening, the front part of the middle partition plate is provided with a second air inlet opening, and the middle part of the middle partition plate is provided with a water collecting tank;

the upper water tank assembly comprises an upper water tank, a base and a water level adjusting device, the upper water tank is arranged in the upper rear cavity of the tank body and is installed in the water collecting tank through the base, and the water level adjusting device is arranged at the bottom of the upper water tank and is communicated with the water collecting tank;

the air treatment unit comprises one or more of a cold evaporation screen, an energy storage heat exchanger and a high efficiency filter; the air treatment unit divides the box cavity space at the upper part of the middle partition plate into two cavities, the box cavity space at the rear part of the air treatment unit is a first cavity, the box cavity space at the front part of the air treatment unit is a second cavity, the first cavity is positioned above the first air inlet opening on the middle partition plate, and the second cavity is positioned above the second air inlet opening of the middle partition plate;

the assembled two-way air quantity proportion adjusting device comprises an adjusting valve plate and an electric actuator; the electric actuator changes the relative positions of the first air inlet opening and the second air inlet opening on the adjusting valve plate and the middle partition plate, and the set positions of full opening of the first air inlet and full closing of the second air inlet, or partial opening of the first air inlet and partial closing of the second air inlet in proportion, or full opening of the first air inlet and full opening of the second air inlet are realized;

the fan assembly is installed in the box cavity on the upper portion of the box body and located in the second cavity, and an air outlet of the fan assembly is communicated with an air outlet on the upper portion of the front face of the box body.

Preferably, a lower water tank assembly is further included, which is provided at a lower portion of the cabinet unit.

Preferably, the lower water tank assembly comprises a lower water tank and a water outlet, the lower water tank is arranged at the lower part of the tank body, and the water outlet is communicated with the water collecting tank through a water drainage device in the water collecting tank.

Preferably, the regulating valve plate specifically comprises a valve plate body, a first guide strip, a second guide strip and a guide groove; the first guide strip and the second guide strip are respectively positioned on two sides of the valve plate body and used for controlling and adjusting the mounting position and the movement direction of the valve plate; the top of the guide groove is connected with the middle part of the valve plate body; the first guide strip and the second guide strip are respectively positioned in the grooves of the first positioning mounting strip and the second positioning mounting strip, and the first positioning mounting strip and the second positioning mounting strip are positioned below the upper partition plate and fixed on the box body; the electric actuator comprises a controller, a motor and a guide wheel; the controller is located the electric actuator rear, and the motor is located the electric actuator middle part, and the guide pulley is installed in the pivot of motor, and the controller of electric actuator accepts operation display screen operation mode instruction, and motor drive guide pulley rotates, through the meshing transmission of guide pulley and the guide slot on the adjusting valve plate, promotes adjusting valve plate seesaw.

Preferably, the cold evaporation filter screen can be placed to the water catch bowl front end, and the water catch bowl middle part is equipped with the seat of laying that is used for laying energy storage heat exchanger and/or high efficiency filter, and the header tank can be placed to the water catch bowl rear end.

Preferably, the top of the cabinet is provided with a top cover, and the components in the air handling unit can be replaced by opening the top cover.

Preferably, the electric heating air duct heater is further included, and the electric heating air duct heater is installed in the box cavity at the upper part of the box body and is positioned on the second air inlet opening on the middle partition plate.

Preferably, the electric hot air duct heater adopts a PTC air duct heater.

Preferably, the bottom plate of the box body is provided with an air inlet formed by perforation, the upper part of the front surface of the box body is provided with an air outlet, the drainage device in the water collecting tank consists of a drainage short pipe and a cock, and the water collecting tank and the upper water tank are internally provided with silver ion bars or UV-C ultraviolet lamps.

Preferably, the high efficiency filter is an activated carbon filter.

Preferably, the fan assembly is a crossflow fan assembly.

Preferably, the fan assembly and the electric actuator are powered by a direct-current power supply, a lithium battery type charging power supply and/or a USB interface.

Preferably, the heat exchanger further comprises an energy storage and heat exchange module with a labyrinth type convection heat exchange cavity, wherein the energy storage and heat exchange module comprises an energy storage box and a labyrinth type convection heat exchange cavity arranged on the energy storage box; the energy storage box comprises a shell and an energy storage medium; the labyrinth convection heat exchange cavity comprises a plurality of transverse ribs and a plurality of longitudinal ribs; the transverse ribs and the longitudinal ribs are vertically and fixedly connected to the outer surface of the energy storage box shell through roots, the transverse ribs are arranged at equal intervals, the side ends of the longitudinal ribs are respectively connected to the adjacent transverse ribs in a staggered mode, a labyrinth air duct unit is formed between the two adjacent transverse ribs, and the labyrinth air duct units form a labyrinth convection heat exchange cavity.

Preferably, the labyrinth convection heat exchange cavity further comprises a condensed water drainage device and a support structure; the condensed water drainage device is arranged at the top ends of the transverse ribs, and the supporting structure is arranged at the front and back suspended top angle of the adjacent transverse ribs.

Preferably, the condensed water drainage device is a drainage groove; the supporting structure is a supporting strip.

Preferably, the number of the labyrinth convection heat exchange cavities is two, and the labyrinth convection heat exchange cavities are a left labyrinth convection heat exchange cavity and a right labyrinth convection heat exchange cavity respectively, the left labyrinth convection heat exchange cavity is located on the left side of the energy storage box shell, and the right labyrinth convection heat exchange cavity is located on the right side of the energy storage box shell.

Preferably, the energy storage medium is a cold storage medium or a heat storage medium.

Preferably, the cold accumulation medium is water or ethylene glycol solution with the volume concentration of 3% -4%.

Preferably, the heat storage medium is eutectic salt or paraffin.

Preferably, the energy storage box still is provided with one or more cavity passageways, is equipped with interior labyrinth convection heat transfer chamber in the cavity passageway, and interior labyrinth convection heat transfer chamber includes a plurality of horizontal fins and a plurality of vertical fin, horizontal fin is through the perpendicular to surface fixed connection of root with energy storage box cavity passageway, and horizontal fin equidistance is arranged, and the side of vertical fin is staggered connection respectively on adjacent horizontal fin, forms interior labyrinth wind channel unit between the two adjacent horizontal fins, and labyrinth convection heat transfer chamber in a plurality of interior labyrinth wind channel unit constitutions.

Preferably, the inner transverse ribs are provided with small holes at the central positions of the two inner longitudinal ribs, so that the condensed 5-condensed water can be drained conveniently.

Preferably, the housing, the transverse ribs, the longitudinal ribs and the support bars of the energy storage box are made of the same material or different materials; the energy storage box shell is processed and molded by adopting a metal material or organic engineering plastic; the transverse ribs, the longitudinal ribs and the supporting strips are processed and formed by metal materials or organic engineering plastics; the shell of the energy storage box and the labyrinth type convection heat exchange cavity are integrally processed and formed; or the components are processed separately and assembled into a whole.

0 compare with prior art, the utility model discloses there is following technological effect:

1. the utility model discloses a multi-functional portable energy storage air conditioner, convection cooling/heat release are forced to the accessible air, need not set up parts and pipelines such as water pump, water-locator, adopt simple structure, and assembled double-circuit amount of wind proportional control device with low costs, that occupation space is little realizes functional mode conversion and the inverse proportional control of two wind path amount of wind, and simple structure is convenient for realize the miniaturization.

5 2. The utility model discloses a multi-functional portable energy storage air conditioner can lead to according to seasonal variation, functional requirement

The combination relation of the assembly of the air handling unit is adjusted by over-adjustment, and the adjustment of the fan assembly and the assembled double-channel air quantity proportion adjusting device is simultaneously carried out, so that the utility model discloses have the cold accumulation medium phase change cold release refrigeration, cold evaporation refrigeration, cold accumulation medium phase change cold release and cold evaporation combined refrigeration, cold accumulation medium phase change cold release refrigeration dehumidification, humidification, purification and purification

Humidification, energy storage medium phase change heat release heating, simultaneous humidification and the like.

3. The utility model discloses a multi-functional portable energy storage air conditioner through the direct cold/heat release of air force convection, and energy storage medium cold/heat release process is controllable, and air supply temperature, humidity control convenient and fast can adopt lithium cell class charging source andor USB interface power supply, and the organism is small and exquisite, light in weight, and placing that can be convenient is in indoor or field personnel activity area, independent adjustment personnel activity area temperature, humidity satisfy personnel's travelling comfort demand.

5 4. The utility model discloses a multi-functional portable energy storage air conditioner, clean energy power supply peak period such as electric wire netting low ebb time section or solar energy, wind energy night put into refrigeration/heating device phase transition cold-storage/heat accumulation with energy storage heat transfer module, at electric wire netting peak period or clean energy power supply low peak period such as solar energy, wind energy daytime, the utility model discloses the energy storage medium phase transition cold/heat release that utilizes energy storage heat transfer module is direct to pass through air forced convection heat transfer cooling/heat supply, and to energy saving and emission reduction, it is significant to realize the double carbon target.

0 the following detailed description of the present invention is provided by way of the drawings and the detailed description, but is not meant to be restrictive

The utility model discloses the restriction of protection scope.

Drawings

Fig. 1 is a schematic perspective view of a multifunctional portable energy storage air conditioner according to embodiment 1 of the present invention.

Fig. 2 is a schematic view of a forward sectional structure of the multifunctional portable energy storage air conditioner in embodiment 1 of the present invention.

Fig. 3 is a schematic diagram of a longitudinal section structure of a multifunctional portable energy storage air conditioner according to embodiment 1 of the present invention.

Fig. 4 is a schematic diagram of a transverse cross-sectional structure of the multifunctional portable energy storage air conditioner in embodiment 1 of the present invention.

Fig. 5 is a schematic view of a first air flow mode of the multifunctional portable energy storage air conditioner according to embodiment 1 of the present invention.

Fig. 6 is a schematic diagram of a second air flow manner of the multifunctional portable energy storage air conditioner according to embodiment 1 of the present invention.

Fig. 7 is a schematic view of a third air flow mode of the multifunctional portable energy storage air conditioner according to embodiment 1 of the present invention.

Fig. 8 is a schematic perspective view of an energy storage and heat exchange module with a labyrinth convection heat exchange cavity in a multifunctional portable energy storage air conditioner according to embodiment 1 of the present invention.

Names of main parts:

100 case 110 air inlet

120 air outlet 130 top cover

140 base plate 150 handle

160 support 170 antiskid shock pad

180 operation display screen 190 middle partition plate

191 first air intake opening 192 second air intake opening

193 water collecting tank 194 short drain pipe

195 tap 196 seat

210 upper water tank assembly 211 upper water tank

212 upper water tank base 213 water level regulating device

220 lower water tank assembly 221 lower water tank

222 drain 223 handle

310 fan assembly 320 electric heating air duct heater

401 cold evaporation screen 402 energy storage heat exchanger

402-1 first energy storage heat exchange module 402-2 second energy storage heat exchange module

403 high efficiency filter 404 first cavity

405 second cavity 510 regulating valve plate

511 valve plate body 512 first guide strip

513 second guide bar 514 channel

520 electric actuator 521 controller

522 motor 523 guide wheel

531 first guide bar 532 second guide bar

600 primary filter screen

701 outer cover 702 hollow channel

703 sealing plug 704 energy storage medium

705 cavity 706 handle

707-1 left horizontal rib 707-2 left vertical rib

708-1 Right horizontal fin 708-2 Right vertical fin

709-1 inner horizontal rib 709-2 inner vertical rib

710-1 left water drainage tank 710-2 right water drainage tank

711-1 left support bar 711-2 right support bar

Detailed Description

The following describes in detail specific embodiments of the present invention with reference to the accompanying drawings. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

In the embodiments of the present invention, all the components are conventional components available on the market in the technical field, and all the connections between the components are conventional connections unless otherwise specified.

Example 1

As shown in fig. 1, it is a schematic view of a three-dimensional structure of a multifunctional portable energy storage air conditioner in embodiment 1 of the present invention; as shown in fig. 2, it is a schematic diagram of a forward sectional structure of a multifunctional portable energy storage air conditioner according to embodiment 1 of the present invention; as shown in fig. 3, a schematic diagram of a longitudinal sectional structure of the multifunctional portable energy storage air conditioner in embodiment 1 of the present invention is shown, as shown in fig. 4, a schematic diagram of a transverse sectional structure of the multifunctional portable energy storage air conditioner in embodiment 1 of the present invention is shown; as shown in fig. 5, it is a schematic view of a first air flowing manner of the multifunctional portable energy storage air conditioner of embodiment 1 of the present invention; as shown in fig. 6, it is a schematic diagram of a second air flowing manner of the multifunctional portable energy storage air conditioner in embodiment 1 of the present invention; as shown in fig. 7, it is a schematic view of a third air flow manner of the multifunctional portable energy storage air conditioner according to embodiment 1 of the present invention; as shown in fig. 8, it is a schematic view of a three-dimensional structure of an energy storage and heat exchange module having a labyrinth convection heat exchange cavity in a multifunctional portable energy storage air conditioner according to embodiment 1 of the present invention; wherein 100 is a box body, 110 is an air inlet, 120 is an air outlet, 130 is a top cover, 140 is a bottom plate, 150 is a handle, 160 is a support, 170 is an anti-skid shock pad, 180 is an operation display screen, 190 is a middle partition plate, 191 is a first air inlet opening, 192 is a second air inlet opening, 193 is a water collecting tank, 194 is a short drainage pipe, 195 is a cock, 196 is a placing seat, 210 is an upper water tank component, 211 is an upper water tank, 212 is an upper water tank base, 213 is a water level adjusting device, 220 is a lower water tank component, 221 is a lower water tank, 222 is a water outlet, 223 is a handle, 310 is a fan component, 320 is an electric heating air duct heater, 401 is a cold evaporation filter screen, 402 is an energy storage heat exchanger, 402-1 is a first energy storage heat exchange module, 402-2 is a second energy storage heat exchange module, 403 is a high efficiency filter, 404 is a first cavity, 405 is a second cavity, 510 is an adjusting valve plate, 511 is a valve plate body, 512 is a first guide bar, 513 is a second guide bar, 514 is a guide groove, 520 is an electric actuator, 521 is a controller, 522 is a motor, 523 is a guide wheel, 531 is a first positioning installation bar, 532 is a second positioning installation bar, 600 is a primary filter screen, 701 is a shell, 702 is a hollow channel, 703 is a sealing plug, 704 is an energy storage medium, 705 is a cavity, 706 is a handle, 707-1 is a left horizontal fin, 707-2 is a left vertical fin, 708-1 is a right horizontal fin, 708-2 is a right vertical fin, 709-1 is an inner horizontal fin, 709-2 is an inner vertical fin, 710-1 is a left drainage channel, 710-2 is a right drainage channel, 711-1 is a left support bar, and 711-2 is a right support bar;

the box body 100 comprises an air inlet 110, an air outlet 120, a top cover 130, a bottom plate 140, a handle 150, a support 160, an anti-skid shock pad 170, an operation display screen 180 and a middle partition plate 190; an air inlet 110 formed by punching is arranged on a bottom plate 140 of the box body 100, an air outlet 120 is arranged on the upper part of the front surface of the box body 100, a top cover 130, a lifting handle 150 and an operation display screen 180 are arranged on the top of the box body 100, a support 160 is arranged on the lower part of the box body 100, and an anti-skid shock pad 170 is arranged at the bottom of the support 160; the middle partition 190 is arranged in the middle lower part of the box body 100, the rear part of the middle partition 190 is provided with a first air inlet opening 191, the front part of the middle partition 190 is provided with a second air inlet opening 192, the middle partition 190 is also provided with a water collecting tank 193 for storing cooling and humidifying water and collecting air conditioner condensed water, a drainage device consisting of a drainage short pipe 194 and a cock 195 and a placing seat 196 are arranged in the water collecting tank 193, and the placing seat 196 is used for placing related components of an air processing unit;

the upper water tank assembly 210 comprises an upper water tank 211, an upper water tank base 212 and a water level adjusting device 213, the upper water tank assembly 210 is installed at the rear end of the water collecting tank 193 on the middle partition 190 through the upper water tank base 212, the bottom of the upper water tank 211 is communicated with the water collecting tank 193 through the water level adjusting device 213, and the water level adjusting device 213 controls the water level of the water collecting tank 193; the top cover 130 is opened, so that water, ice or an ice crystal box can be conveniently added into the upper water tank 211;

silver ion bars or UV-C ultraviolet lamps are arranged in the water collecting tank 193 and the upper water tank 211;

the lower water tank assembly 220 comprises a lower water tank 221, a water outlet 222 and a handle 223, the lower water tank assembly 220 is arranged at the lower part of the tank body 100, and the water outlet 222 is communicated with a water collecting tank 193 on the middle clapboard 190 through a water discharging device which is arranged on the middle clapboard 190 and consists of a water discharging short pipe 194 and a cock 195; when the water level in the water collecting tank 193 exceeds a set value, the water flows into the lower water tank 221 through the water drainage short pipe 194 and the water drainage port 222 of the water collecting tank 193, and when the lower water tank 221 is full of water, a water level alarm arranged at the top in the lower water tank 221 gives an alarm to prompt that the lower water tank 221 needs to be emptied;

the air processing unit comprises a cold evaporation filter screen 401, an energy storage heat exchanger 402 and a high-efficiency filter 403 and is arranged in a box cavity at the upper part of the box body; the energy storage heat exchanger 402 can be formed by combining a plurality of ice crystal boxes, each ice crystal box comprises a shell and a cold storage medium, the ice crystal boxes are placed through a support, a channel for air circulation is reserved between every two adjacent ice crystal boxes, the energy storage heat exchanger 402 can also be formed by combining a plurality of groups of energy storage and heat exchange modules with the same specification, and can also be formed by combining a plurality of groups of energy storage and heat exchange modules with the same height and width and different thicknesses and different specifications; the air processing unit can adopt a single component of a cold evaporation filter screen 401, an energy storage heat exchanger 402 and a high-efficiency filter 403 according to the functional requirements, and can also be formed by combining two different components of the cold evaporation filter screen 401, the energy storage heat exchanger 402, the cold evaporation filter screen 401 and the high-efficiency filter 403;

a cold evaporation filter screen 401 in the air processing unit is arranged at the front end of a water collecting tank 193 on the middle partition plate 190, the bottom of the cold evaporation filter screen is arranged in the water collecting tank 193, and an energy storage heat exchanger 402 and a high-efficiency filter 403 are arranged on a placing seat 196 in the water collecting tank 193; the air processing unit divides the box cavity space at the upper part of the middle partition plate 190 into two cavities, the box cavity space at the rear part of the air processing unit is a first cavity 404, the box cavity space at the front part of the air processing unit is a second cavity 405, the first cavity 404 is positioned above the first air inlet opening 191 of the middle partition plate 190, and the second cavity 405 is positioned above the second air inlet opening 192 of the middle partition plate 190; the cold evaporation filter screen 401, the energy storage heat exchanger 402 and the high-efficiency filter 403 can be conveniently installed, cleaned and replaced through the top cover 130;

in a preferable mode, the energy storage heat exchanger 402 of this embodiment 1 includes a first energy storage heat exchange module 402-1 and a second energy storage heat exchange module 402-2 with the same specification, both of which are energy storage heat exchange modules having a left labyrinth-type convective heat exchange cavity and a right labyrinth-type convective heat exchange cavity and an inner labyrinth-type convective heat exchange cavity, and include an energy storage box, a left labyrinth-type convective heat exchange cavity disposed on the left side of the energy storage box, a right labyrinth-type convective heat exchange cavity disposed on the right side of the energy storage box, and an inner labyrinth-type convective heat exchange cavity disposed in a hollow channel 702 of the energy storage box, and the specific structure is as shown in fig. 8; the energy storage device specifically comprises a shell 701, a hollow channel 702, a sealing plug 703, an energy storage medium 704, a cavity 705, a handle 706, a left horizontal rib 707-1, a left vertical rib 707-2, a right horizontal rib 708-1, a right vertical rib 708-2, an inner horizontal rib 709-1, an inner vertical rib 709-2, a left drainage groove 710-1, a right drainage groove 710-2, a left support bar 711-1 and a right support bar 710-2;

the housing 701 is in a cuboid shape, and the material of the housing 701 is a metal material or organic engineering plastic; the sealing plug 703 is positioned at the upper part of the energy storage box shell 701 and is used for sealing an injection port of the energy storage medium 704 at the top of the shell 701, the sealing plug 3 can be sealed by adopting a bottle cap type, and the sealing plug 703 is opened, so that the energy storage medium 704 can be conveniently replaced and added; the inner closed space of the shell 701 is an inner cavity of the energy storage box, the energy storage medium 4 is stored in the inner cavity of the energy storage box, the volume of the energy storage medium 704 changes due to phase change and temperature change of the energy storage medium 4, the inner cavity of the energy storage box cannot be filled with the energy storage medium 704, a cavity 705 needs to be reserved at the upper part of the inner cavity of the energy storage box, and the volume of the cavity 705 is about 10% of the volume of the inner cavity of the energy storage box; the energy storage medium 704 is a medium for storing cold or heat in sensible heat or latent heat form, water or ethylene glycol solution with volume concentration of 3% -4% can be used for cold storage, and eutectic salt or paraffin wax can be used for heat storage;

roots of a left transverse rib 707-1 and a left longitudinal rib 707-2 of the left labyrinth type convection heat exchange cavity are vertically and fixedly connected to the outer surface of the left side of the shell 701, the left transverse ribs 707-1 are arranged at equal intervals, the left longitudinal rib 707-2 is arranged between the adjacent left transverse ribs 707-1 at equal intervals in a staggered mode, and the side end of the left longitudinal rib 707-2 is connected to the adjacent left transverse rib 707-1, so that a left labyrinth type air duct unit is formed between the two adjacent left transverse ribs 707-1, and all the left labyrinth type air duct units form the left labyrinth type convection heat exchange cavity; the top end of the left transverse rib 707-1 is uniformly provided with a left drainage groove 710-1, and the suspended top angle of the left transverse rib 707-1 is connected and supported by a left support bar 711-1;

roots of right transverse ribs 708-1 and right longitudinal ribs 708-2 of the right labyrinth convection heat exchange cavity are vertically and fixedly connected to the outer surface of the right side of the shell 701, the right transverse ribs 708-1 are arranged at equal intervals, the right longitudinal ribs 708-2 are arranged at equal intervals between the adjacent right transverse ribs 708-1 in a staggered mode, and side ends of the right longitudinal ribs 708-2 are connected to the adjacent right transverse ribs 708-1, so that right labyrinth air duct units are formed between the adjacent right transverse ribs 708-1, and all right labyrinth air duct units form the right labyrinth convection heat exchange cavity; the top ends of the right transverse ribs 708-1 are uniformly provided with right water drainage grooves 710-2, and suspended top corners of the right transverse ribs 708-1 are connected and supported by a right support bar 711-2;

the heights of the horizontal fins and the vertical fins in the left labyrinth convection heat exchange cavity and the right labyrinth convection heat exchange cavity are 1/3-1/2 of the width of the energy storage box shell 701; the left labyrinth convection heat exchange cavity and the right labyrinth convection heat exchange cavity can be integrally processed with the shell 701 or independently processed, and are assembled into a whole by adopting methods such as welding, bonding, mould pressing and the like; when the left labyrinth convection heat exchange cavity and the right labyrinth convection heat exchange cavity are separately processed from the shell 701, the left labyrinth convection heat exchange cavity and the right labyrinth convection heat exchange cavity can be made of materials different from the shell 701;

inner transverse ribs 709-1 of the inner labyrinth type convection heat exchange cavity are vertically and fixedly connected to the outer surfaces of the left side and the right side of the hollow channel 702, the inner transverse ribs 709-1 are arranged at equal intervals, inner longitudinal ribs 709-2 are arranged between the adjacent inner transverse ribs 709-1 at equal intervals in a staggered mode, and the side ends of the inner longitudinal ribs 709-2 are connected to the adjacent inner transverse ribs 709-1, so that inner labyrinth type air channel units are formed between the adjacent inner transverse ribs 709-1, and all the inner labyrinth type air channel units form the inner labyrinth type convection heat exchange cavity; the inner transverse ribs are provided with small holes at the central positions of the two inner longitudinal ribs 709-2, so that condensed water can be drained conveniently.

The first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2 can not automatically store cold/heat, and the cold/heat storage is finished in a special refrigerating/heating device; in the off-peak period of a power grid at night or in the peak period of power supply of clean energy such as solar energy, wind energy and the like, the first energy storage and heat exchange module 402-1 and the second energy storage and heat exchange module 402-2 are placed in the refrigerating/heating device, cold/heat generated by the refrigerating/heating device is conducted to the fins, the hollow channel 702 and the shell 701 through air or cold/heat carrying agent by convection heat exchange, and then is conducted to the cold/heat storage medium 704 through the fins, the hollow channel 702 and the shell 701 by heat conduction, and the cold/heat storage medium 704 absorbs the cold/heat and then undergoes phase change to store the cold/heat.

The first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2 can be combined into an energy storage heat exchanger 402 in this embodiment 1, and cool/heat is released by forced convection of air, after the fan assembly 310 operates, the air flows through the labyrinth type convection heat exchange cavities of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2, the air forms forced convection in the convection heat exchange cavities, the cold/heat stored in the energy storage medium 704 is firstly conducted to the fins, the hollow channel 702 and the housing 701 by heat conduction, and then the outer surfaces of the fins, the hollow channel 702 and the housing 701 release the cold/heat to the air flowing through the convection heat exchange cavities of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2 by forced convection heat exchange, so as to cool/heat the air, thereby achieving the purpose of cooling/heating; by varying the air flow rate or flow through the convective heat transfer cavities of the first energy storing heat transfer module 402-1 and the second energy storing heat transfer module 402-2, the cold/heat release rate of the first energy storing heat transfer module 402-1 and the second energy storing heat transfer module 402-2 can be adjusted.

The assembled two-way air quantity proportion adjusting device comprises an adjusting valve plate 510, an electric actuator 520, a first positioning mounting bar 531 and a second positioning mounting bar 532; the regulating valve plate 510 comprises a valve plate body 511, a first guide strip 512, a second guide strip 513 and a guide groove 514, wherein the first guide strip 512 and the second guide strip 513 are respectively positioned at two sides of the valve plate body 511, and the top of the guide groove 514 is connected with the middle part of the valve plate body 511; the electric actuator 520 comprises a controller 521, a motor 522 and a guide wheel 523, wherein the controller 521 is positioned behind the electric actuator 520, the motor 522 is positioned in the middle of the electric actuator 520, and the guide wheel 523 is arranged on a rotating shaft of the motor 522; the first guide bar 512 and the second guide bar 513 control and adjust the installation position and the movement direction of the valve plate 510; the controller 521 of the electric actuator 520 receives an operation mode instruction of the operation display screen 108, the motor 522 drives the guide wheel 523 to rotate, and the guide wheel 522 is in meshing transmission with the guide groove 514 on the adjusting valve plate 510 to push the adjusting valve plate 510 to move forwards and backwards;

the assembled two-way air quantity proportion adjusting device is arranged in a box cavity at the lower part of the box body 100 and is positioned above the bottom plate 104 and below the middle partition plate 190; during the equipment of assembled double-circuit amount of wind proportional control device, laminate the plain noodles of valve plate body 511 and median septum 190 bottom surface earlier, first location mounting bar 531 is arranged in to first guide bar 512 in the recess of first location mounting bar 531, second location mounting bar 532 is arranged in to second guide bar 513 in the recess of second location mounting bar 532, fix first location mounting bar 531 and second location mounting bar 532 on box 100, then with electric actuator 520's guide pulley 522 and regulation valve plate 510 guide slot 514 meshing, finally, fix electric actuator 520 on box 100.

The operation process of the assembled two-way air quantity proportion adjusting device is as follows: after receiving the operation mode command of the operation display screen 108 and the electric signals of the temperature and humidity sensors, the electric actuator 520 controls the rotation direction and rotation amount of the motor 523, and the guide wheel 522 and the guide groove 514 are in meshing transmission, so that the forward/backward rotation motion of the motor 523 is converted into the forward/backward linear motion of the adjusting valve plate 510, and due to the change of the position of the adjusting valve plate 510, the first air inlet 191 and the second air inlet 192 on the middle partition plate 190 are in the states of fully opening the first air inlet opening 191 and fully closing the second air inlet opening 192, the first air inlet opening 191 is partially opened and partially closed, the second air inlet opening 192 is partially closed and partially opened in proportion, the first air inlet opening 191 is fully closed and the second air inlet opening 192 is fully opened, and the operation mode conversion and the inverse proportion adjustment of the air flow of the first air inlet opening 191 and the second air inlet opening 192 are realized.

The assembled two-way air quantity proportion regulating device of the embodiment comprises a regulating valve plate 510, a set of electric actuator 520 and two positioning mounting bars, the relative positions of the regulating valve plate 510 and a first air inlet opening 191 and a second air inlet opening 192 on the middle partition plate 190 are changed through the electric actuator 520, so that one air passage is closed, the other air passage is opened and the air quantity of the two air passages is inversely proportional regulated by shunting the two air passages through the first air inlet opening 191 and the second air inlet opening 192, and the assembled two-way air quantity proportion regulating device is simple in structure, low in cost and convenient to mount; the thickness of the regulating valve plate 510 is less than 20 mm, and a required installation space is small.

The electric heating air duct heater is arranged in the upper box cavity of the box body 100 and is positioned above the second air inlet 192 on the middle partition plate 190, and the electric heating air duct heater can adopt a PTC air duct heater 320; the electric hot air duct heater belongs to an optional part and can not be installed when the electric heating function is not needed.

The fan assembly 310 is arranged in the upper box cavity of the box body 100 and is positioned in the second cavity 405, and the air outlet of the fan assembly 310 is communicated with the air supply outlet 120 on the upper front side of the box body 100; the fan assembly 310 provides the power for air flow, and the fan assembly 310 in this embodiment 1 is a cross-flow fan, and other fans such as an axial flow fan and a centrifugal fan may also be used.

As shown in fig. 5, 6 and 7, indoor return air passing through the inside of the present embodiment 1 can be switched in three different flow modes by the regulation of the fan assembly 310 and the assembled two-way air quantity proportional regulating device; the first air flow mode is (as shown in fig. 5), the electric actuator 520 acts to move the position of the adjusting valve plate 510, so that the first air inlet opening 191 on the middle partition 190 is completely opened, the second air inlet opening 192 on the middle partition 190 is completely closed, the fan assembly 310 operates, return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box 100 through the air inlet 110 arranged on the bottom plate 140 of the box 100, enters the first cavity 404 through the first air inlet opening 191 on the middle partition 190, is processed by the combined air processing unit, passes through the second cavity 405, is pressurized by the fan assembly 310, and is sent out through the air supply outlet 120 on the upper part of the box 100.

The second air flow mode is (as shown in fig. 6), the electric actuator 520 acts to move the position of the adjusting valve plate 510, so that the second air inlet opening 192 on the middle partition plate 190 is completely opened, the first air inlet opening 191 is completely closed, the fan assembly 310 operates, return air filtered by the primary filter screen 600 is sucked into the lower chamber of the box 100 through the air inlet 110 arranged on the bottom plate 140 of the box 100, enters the second chamber 404 through the second air inlet opening 192 of the middle partition plate 190, or enters the second chamber 404 through the electric heating air duct heater 320, is pressurized by the fan assembly 310, and is sent out through the air supply outlet 120 on the upper part of the box 100;

the third air flow mode is (as shown in fig. 7), the electric actuator 520 acts to move the position of the adjusting valve plate 510, so that the first air inlet opening 191 of the middle partition plate is partially closed, the second air inlet opening 192 is partially opened in proportion, the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box 100 through the air inlet 110 arranged on the bottom plate 140 of the box 100, and then is divided into two paths, one path enters the first cavity 404 through the first air inlet opening 191 on the middle partition plate 190, and flows into the second cavity 405 after being processed by the air processing unit; the other path enters the second cavity 405 through the second air inlet 192 on the middle partition 190, or enters the second cavity 404 through the electric heating air duct heater; the two indoor air paths are mixed in the second chamber 405, pressurized by the blower assembly 310, and then discharged through the air outlet 120 in the upper portion of the casing 100.

The multifunctional portable energy storage air conditioner of the embodiment can realize rapid conversion of air flow in the air box in three different flow modes by adjusting the combination relation of components of the air processing unit and adjusting the fan component 310 and the assembled two-way air quantity proportion adjusting device according to seasonal changes and functional requirements, so that the embodiment 1 has various different working modes such as refrigeration, heating, dehumidification, humidification, purification, fans and the like; the air flow velocity or flow rate passing through the energy storage heat exchanger 402 is adjusted through the assembled two-way air volume proportion adjusting device, the cold release/heat release rate can be adjusted, and the refrigerating/heating quantity, the air outlet temperature and the humidity of the embodiment 1 can be conveniently and quickly adjusted by combining the change of the flow rate ratio of the air passing through the first air inlet opening 191 and processed by the air processing unit and the air passing through the second air inlet opening 192, so that the temperature and the humidity of a personnel activity area are controlled to meet the requirement of human body comfort.

Various specific operation modes of this embodiment 1 are described as follows:

the cold storage medium phase change cold release refrigeration operation condition of the multifunctional portable energy storage air conditioner of the embodiment is as follows: when the indoor temperature and humidity of the personnel activity area in summer are high, the energy storage heat exchange module is adopted to release cold for refrigeration and dehumidify at the same time, the top cover 130 is opened, and the first energy storage heat exchanger module 402-1 and the second energy storage heat exchange module 402-2 which finish cold storage are placed on the placing seat 196 in the water collecting tank 193; double-clicking a refrigeration button on the operation display screen 180, switching on the power supply of the electric actuator 520 and the fan assembly 310, and after receiving a refrigeration operation mode instruction of the operation display screen 180, operating the adjusting valve plate 510 to a preset position where a first air inlet opening is fully opened and a second air inlet opening is fully closed by the electric actuator 520; clicking a temperature button, setting return air temperature, clicking a wind speed button, and selecting high-speed, medium-speed, low-speed and mute operation modes of the fan; after the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box body 100 through the air inlet 110 arranged on the bottom plate 140 of the box body 100, the first air inlet opening 191 on the middle partition plate 190 enters the first cavity 404, the return air flows through the labyrinth convection heat exchange cavities of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2, part of water vapor of the air is condensed into condensed water at the same time of reducing the temperature, the condensed water is changed into dry cold air, and the dry cold air is pressurized by the fan assembly 310 through the second cavity 405 and then is sent out through the air supply outlet 120 on the upper part of the box body 100; the air conditioner condensed water collected into the water collecting tank 193 flows into the lower water tank 221 through the short drain pipe 194 of the water collecting tank 193, and when the lower water tank 221 is full of water, a water level alarm provided in the lower water tank 221 gives an alarm to prompt that the lower water tank 221 needs to be emptied;

when the temperature of the return air is lower than the set temperature, the electric actuator 520 adjusts the position of the adjusting valve plate 510 to close the first air inlet opening 191 and open the second air inlet opening 192 in proportion, at this time, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box body 100 by the air inlet 110 arranged on the bottom plate 140 of the box body 100 and then is divided into two paths, the first path of return air enters the first cavity 404 through the first air inlet opening 191 on the middle partition plate 190 and flows through the labyrinth convection heat exchange cavities of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2, the temperature is reduced, and part of water vapor of the air is condensed into condensed water and becomes dry cold air which enters the second cavity 405; the second path of return air directly enters the second cavity 405 through the second air inlet opening 192 on the middle partition 190, and the cooled first path of return air and the uncooled second path of return air are mixed in the second cavity 405, pressurized by the fan assembly 310 and then sent out through the air supply outlet 120 at the upper part of the box body 100; due to the shunting of the second air inlet opening 192, the flow of the first return air is reduced, the air speed of a labyrinth convection heat exchange cavity flowing through the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2 is reduced, the forced convection heat exchange strength is weakened, the cold release rate and the cold release quantity of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2 are reduced, and the return air temperature is gradually increased to the set temperature;

or when the environmental temperature of the region where people move reaches the appropriate temperature, the electric actuator 520 adjusts the position of the regulating valve plate 510, the first air inlet opening 191 is closed, the second air inlet opening 192 is fully opened, the first air path is closed, the second air path is fully opened, and at this time, the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2 stop releasing cold. Through the manner, the cooling rate and the cooling capacity of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2 can be adjusted, and the service time of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2 is prolonged.

The multifunctional portable energy storage air conditioner of the embodiment has the working modes of cold evaporation and refrigeration: when the temperature of a personnel activity area in summer is high and the humidity is low, the top cover 130 is opened, the cold evaporation filter screen 401 is installed at the front end of the water collecting tank 193 on the middle partition plate 190, a proper amount of water is added into the upper water tank 221, a proper amount of ice or ice crystal boxes are placed, the cold air button on the operation display screen 180 is pressed by double click, the electric actuator 520 and the fan assembly 310 are powered on, and after the electric actuator 520 receives a cold air operation mode instruction of the operation display screen 180, the adjusting valve plate 510 is operated to a preset position where the first air inlet opening 191 is fully opened and the second air inlet 4192 is fully closed; clicking a wind speed button, and selecting a high-speed, medium-speed, low-speed and mute operation mode of the fan; the cold water in the upper water tank 211 flows into the water collecting tank 193 through the water level adjusting device 213 at the bottom of the upper water tank assembly 210, when the water level in the water collecting tank 193 reaches a set water level, the water level adjusting device 213 is closed, and a cold water film is formed on the surface of the cold evaporation screen 401 with the bottom immersed in the cold water in the water collecting tank 193; when indoor air flows through the cold evaporation filter screen 401, a small part of cold water on a cold water film of the cold evaporation filter screen 401 is quickly evaporated from a liquid state to a gas state to absorb heat in the air, and a large part of cold water which is not evaporated simultaneously absorbs heat in the air; after the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box 100 through the air inlet 110 arranged on the bottom plate 140 of the box 100, enters the first cavity 404 through the first air inlet 191 of the middle partition 190, is cooled by the cold evaporation filter screen 401, passes through the second cavity 405, is pressurized by the fan assembly 310, and is sent out through the air supply outlet 102 on the upper part of the box 100. When the computer is shut down, the shutdown button on the display screen 180 is operated in a single click mode, the power supply of the fan assembly 310 is disconnected, and the fan assembly 310 stops running.

The cold storage medium phase change of the multifunctional portable energy storage air conditioner of the embodiment releases the cold and the cold evaporation refrigerates the working condition at the same time: when the temperature of a personnel activity area in summer is high and the humidity is low, the top cover 130 is opened, the first energy storage heat exchanger module 402-1 and the second energy storage heat exchange module 402-2 which finish cold storage are placed on the placing seat 196 in the water collecting tank 193, the cold evaporation filter screen 401 is installed at the front end of the water collecting tank 193 on the middle partition plate 190, a proper amount of water is added into the upper water tank 221, and a proper amount of ice or ice crystal boxes are placed; the refrigeration button of the operation display screen 180 is pressed in a double-click mode, the electric actuator 520 and the fan assembly 300 are powered on, and after the electric actuator 520 receives a dehumidification operation mode instruction of the operation display screen 180, the adjusting valve plate 510 is operated to a preset position where the first air inlet opening 191 is fully opened and the second air inlet opening 192 is fully closed; clicking a temperature button, setting return air temperature, clicking a wind speed button, and selecting high-speed, medium-speed, low-speed and mute operation modes of the fan; cold water in the upper water tank 211 flows into the water collecting tank 193 through the water level adjusting device 213 at the bottom of the upper water tank 211, and a cold water film is formed on the surface of the cold evaporation screen 401, the bottom of which is immersed in the cold water in the water collecting tank 193; after the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box 100 through the air inlet 110 arranged on the bottom plate 140 of the box 100, enters the first cavity 404 through the first air inlet opening 191 on the middle partition plate 190, firstly flows through the labyrinth convection heat exchange cavities of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2, then flows through the cold evaporation filter screen 401, enters the second cavity 405, is pressurized by the fan assembly 310, and is sent out through the air supply outlet 120 on the upper part of the box 100. When the return air passes through the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2, the cold accumulation medium 4 changes phase and releases cold, so that the temperature of the indoor air is reduced, and simultaneously, partial steam of the indoor air is condensed into condensed water to become dry cold air; when the dry cold air flows through the cold evaporation filter screen 401, a small part of cold water is quickly evaporated from a liquid state to a gaseous state to absorb the heat of the dry cold air, and most of cold water which is not evaporated simultaneously absorbs the heat of the dry cold air, so that the return air flowing through the cold evaporation filter screen 401 is further cooled; condensed water generated during the cooling process flows into the water collecting tank 193, and when the water level in the water collecting tank 193 exceeds a set water level, the water level adjusting device 213 on the upper water tank 211 is closed; the cold water in the upper water tank 211 stops flowing into the water collecting tank 193, and at the same time, the cold water exceeding the set water level flows into the lower water tank 221 through the water discharging short pipe 194 of the water discharging device of the water collecting tank 193, and when the lower water tank 221 is full of water, the water level alarm arranged in the lower water tank 221 gives an alarm to prompt that the lower water tank 221 needs to be emptied; when the return air temperature is lower than the set temperature, the electric actuator 520 adjusts the position of the adjusting valve plate 510 to close the first air inlet opening 191 and open the second air inlet opening in proportion until the return air temperature reaches the set temperature; when the air conditioner is shut down, the shutdown button on the display screen 180 is operated by clicking, the power supply of the fan 310 is disconnected, and the fan 300 stops running.

The cold storage medium phase change cold release condensation dehumidification operation condition of the multifunctional portable energy storage air conditioner of the embodiment is as follows: when the humidity of the personnel activity area in summer is high, the top cover 130 is opened, and the first energy storage heat exchanger module 402-1 and the second energy storage heat exchange module 402-2 which finish cold storage are placed on the placing seat 196 in the water collecting tank 193; the dehumidification button of the operation display screen 180 is pressed in a double-click mode, the electric actuator 520 and the fan assembly 300 are powered on, and after the electric actuator 520 receives a dehumidification operation mode instruction of the operation display screen 180, the adjusting valve plate 510 is operated to a preset position where the first air inlet opening 191 is fully opened and the second air inlet opening 192 is fully closed; clicking a wind speed button, selecting a high-speed, medium-speed, low-speed and mute operation mode of the fan, operating the fan assembly 300, sucking return air filtered by the primary filter screen 600 into a lower box cavity of the box body 100 through an air inlet 110 arranged on a bottom plate 140 of the box body 100, enabling a first air inlet opening 191 on the middle partition plate 190 to enter a first cavity 404, enabling the return air to flow through a labyrinth convection heat exchange cavity of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2, reducing the temperature, condensing partial moisture of the wet air into condensed water to become dry cold air, pressurizing the air through the fan assembly 310 through a second cavity 405, and sending the dry cold air out through an air supply outlet 120 on the upper part of the box body 100; the air conditioner condensed water gathered into the water collection tank 193 flows into the lower water tank 221 through the short drain pipe 194 of the water collection tank 193, and when the lower water tank 221 is full of water, a water level alarm arranged in the lower water tank 221 gives an alarm to prompt that the lower water tank 221 needs to be emptied; upon shutdown, the fan assembly 310 stops operating by clicking a shutdown button on the display screen 108.

The fan operation condition of the multifunctional portable energy storage air conditioner of the embodiment is as follows: when the temperature of the active area of people in summer is slightly high, the fan button of the display screen 180 is operated in a double-click mode, the power supply of the electric actuator 520 and the fan assembly 310 is switched on, and after the electric actuator 520 receives the operation mode instruction of the fan of the display screen 180, the adjusting valve plate 510 is operated to the preset positions of full-closed first air inlet opening 191 and full-open second air inlet opening 192; clicking a wind speed button, selecting a high-speed, medium-speed, low-speed and mute operation mode of the fan, operating the fan assembly 310, sucking return air filtered by the primary filter screen 600 into a lower box cavity of the box 100 through an air inlet 110 arranged on a bottom plate 140 of the box 100, enabling a second air inlet 192 on the middle partition plate 190 to enter a second cavity 404, pressurizing through the fan unit 310, sending the return air out through an air supply outlet 120 on the upper part of the box 100, clicking a shutdown button on the operation display screen 180 during shutdown, and stopping the operation of the fan assembly 310.

The humidifying operation condition of the multifunctional portable energy storage air conditioner of the embodiment is as follows: when the humidity of the personnel activity area is low and the indoor air quality is good in winter and spring, the top cover 130 is opened, the cold evaporation filter screen 401 is installed at the front end of the water collecting tank 193 on the middle partition plate 190, and a proper amount of purified water is added into the upper water tank 221; the humidifying button on the operation display screen 180 is clicked, the power supply of the electric actuator 520 and the fan assembly 310 is switched on, the wind speed button is clicked, the high-speed, medium-speed, low-speed and mute operation modes of the fan are selected, and after the electric actuator 520 receives the instruction of the humidifying operation mode of the operation display screen 180, the adjusting valve plate 510 is operated to the preset positions of the first air inlet opening 191 being fully opened and the second air inlet 4192 being fully closed; purified water in the upper water tank 211 flows into the water collecting tank 193 through the water level adjusting device 213 at the bottom of the upper water tank assembly 210, and when the water level of the water collecting tank 193 reaches a set water level, the water level adjusting device 213 is closed; a water film is formed on the surface of the cold evaporation screen 401 with the bottom immersed in the purified water of the water collection tank 193; when air flows through the cold evaporation filter screen 401, a small part of purified water on the water film absorbs the heat of the air and is quickly evaporated from a liquid state into a gas state to humidify the air; after the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box 100 through the air inlet 110 arranged on the bottom plate 140 of the box 100, enters the first cavity 404 through the first air inlet opening 191 of the middle partition plate 190, is humidified by the cold evaporation filter screen 401, enters the second cavity 405, and is pressurized by the fan assembly 310 and then is sent out through the air supply outlet 120 on the upper part of the box 100; when the computer is shut down, the shutdown button on the display screen 180 is operated in a single click mode, the power supply of the fan assembly 310 is disconnected, and the fan assembly 310 stops running;

the purification operation condition of the multifunctional portable energy storage air conditioner of the embodiment is as follows: when the humidity of the personnel activity area is proper and the indoor air is poor in winter and spring, the top cover 130 is opened, and the purification component 403 is placed on the placing seat 196 in the water collecting tank 193; the purification button on the operation display screen 108 is double-clicked, the electric actuator 520 and the fan assembly 310 are powered on, and after the electric actuator 520 receives the instruction of the purification operation mode of the operation display screen 180, the adjusting valve plate 510 is operated to the preset positions of full opening of the first air inlet opening 191 and full closing of the second air inlet opening 192; clicking a wind speed button, selecting a high-speed, medium-speed, low-speed and mute operation mode of the fan, sucking return air filtered by a primary filter screen 600 into a lower box cavity of the box 100 through an air inlet 110 formed in a bottom plate 140 of the box 100 after the fan assembly 310 operates, entering a first cavity 404 through a first air inlet opening 191 in a middle partition plate 190, purifying through a purifying assembly 403, pressurizing through a second cavity 405 and the fan assembly 310, and then sending out through an air supply outlet 120 in the upper part of the box 100; when the computer is shut down, the shutdown button on the display screen 180 is operated in a single click mode, and the fan assembly 310 stops running.

The multi-functional portable energy storage air conditioner of this embodiment's purification humidification operating mode: when the humidity of the personnel activity area is low and the indoor air quality is poor in winter and spring, the top cover 130 is opened, the cold evaporation filter screen 401 is installed at the front end of the water collecting tank 193 on the middle partition plate 190, the purification component 403 is placed on the placing seat 196 in the water collecting tank 193, and a proper amount of purified water is added into the upper water tank 211; the humidifying button on the operation display screen 180 is clicked in a double mode, the power supply of the electric actuator 520 and the fan assembly 310 is switched on, the wind speed button is clicked, the high-speed, medium-speed, low-speed and mute operation modes of the fan are selected, and after the electric actuator 520 receives the instruction of the humidifying operation mode of the operation display screen 180, the adjusting valve plate 510 is operated to the preset positions of the first air inlet opening 191 which is fully opened and the second air inlet 192 which is fully closed; the purified water in the upper water tank 211 flows into the water collecting tank 193 through the water level adjusting device 213 at the bottom of the upper water tank assembly 210, when the water level of the water collecting tank 193 reaches a set water level, the water level adjusting device 213 is closed, and a cold water film is formed on the surface of the cold evaporation filter 401 immersed at the bottom in the purified water in the water collecting tank 193; when the air flows through the evaporation filter 401, a small part of purified water on the water film absorbs the heat of the air and is rapidly evaporated from a liquid state to a gas state to humidify the air. The fan assembly 310 operates, return air is filtered by the primary filter screen 600, the return air is sucked into the lower box cavity of the box body 100 through the air inlet 110 formed in the bottom plate 140 of the box body 100, enters the first cavity 404 through the first air inlet opening 191 in the middle partition plate 190, is purified through the purification assembly 403, is humidified through the cold evaporation filter screen 401, passes through the second cavity 405, is pressurized by the fan assembly 310, and is sent out through the air supply outlet 102 in the upper part of the box body 100, and when the air conditioner is stopped, a shutdown button on the display screen 180 is operated in a clicking mode, and the fan assembly 310 stops operating.

The electric heating operation condition of the multifunctional portable energy storage air conditioner of the embodiment: when the temperature of a person activity area in winter is low, the humidity is proper and the indoor air quality is good, the electric heating button of the display screen 180 is operated in a double-click mode, the power supply of the electric actuator 520, the fan assembly 310 and the electric heating air duct heater is switched on, and after the electric actuator 520 receives a heating operation mode instruction of the operation display screen 180, the adjusting valve plate 510 is operated to a preset position where the first air inlet opening 191 is fully closed and the second air inlet opening 192 is fully opened; clicking a wind speed button, selecting a high-speed, medium-speed, low-speed and mute operation mode of the fan, clicking a temperature button, setting a return air temperature, operating a fan assembly 310, sucking return air filtered by a primary filter screen 600 into a lower box cavity of the box body 100 through an air inlet 110 arranged on a bottom plate 140 of the box body 100, heating the return air by an electric heating air duct heater through a second air inlet opening 192 on a middle partition plate 190, entering a second cavity 405, pressurizing through the fan assembly 310, and sending the return air out through an air outlet 120 on the upper part of the box body 100; when the return air temperature is higher than the set temperature, the power supply of the electric heating air duct heater is switched off, the heating is stopped, and when the return air temperature is lower than the set temperature, the power supply of the electric heating air duct heater is switched on, and the heating is restarted; when the machine is shut down, the shutdown button on the display screen 180 is clicked, the power supply of the electric heating air duct heater is disconnected, and the fan 310 stops running.

The electric heating of the multi-functional portable energy storage air conditioner of this embodiment heats and purifies and carries out the operating mode simultaneously: when the temperature of the personnel activity area is low, the humidity is proper and the indoor air quality is poor in winter, the top cover 130 is opened, and the purification assembly 403 is placed on the placing seat 196 in the water collecting tank 193; the electric heating and purifying button of the operation display screen 180 is clicked in a double mode, the electric actuator 520, the fan assembly 310 and the electric heating air duct heater are powered on, and after the electric actuator 520 receives an electric heating and purifying operation mode instruction of the operation display screen 180, the electric actuator moves the adjusting valve plate 510 to a preset position where the first air inlet opening 191 is partially opened and partially closed, and the second air inlet opening 192 is partially closed and partially opened in proportion; clicking a wind speed button, selecting a high-speed, medium-speed, low-speed and mute operation mode of the fan, clicking a temperature button, and setting a return air temperature; after the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box body 100 through the air inlet 110 arranged on the bottom plate 140 of the box body 100, one path of the return air passes through the second air inlet opening 192 on the middle partition plate 191, is heated by the electric heating air duct heater and then enters the second cavity 405, the other path of the return air passes through the first air inlet opening 191 on the middle partition plate 190 and enters the first cavity 404, is purified by the purifying assembly 403, is mixed with the heated return air through the second cavity 405, is pressurized through the fan assembly 310 and is sent out through the air supply outlet 120 on the upper part of the box body 100, when the return air temperature is higher than the set temperature, the electric heating air duct heater is powered off to stop heating, and when the return air temperature is lower than the set temperature, the electric heating air duct heater is powered on to restart heating; when the machine is shut down, the shutdown button on the display screen 180 is operated by clicking, the power supply of the electric heating air duct heater is disconnected, and the fan assembly 310 stops running.

The electric heating and humidifying of the multifunctional portable energy storage air conditioner of the embodiment simultaneously operates the working conditions: when the temperature of the personnel activity area in winter is lower, the humidity is lower and the indoor air quality is good, the top cover 130 is opened, the cold evaporation filter screen 401 is installed at the front end of the water collecting tank 193 on the middle partition plate 190, a proper amount of purified water is added into the upper water tank 211, the purified water in the upper water tank 211 flows into the water collecting tank 193 through the water level adjusting device 213 at the bottom of the upper water tank assembly 210, when the water level of the water collecting tank 193 reaches a set water level, the water level adjusting device 213 is closed, and a water film is formed on the surface of the cold evaporation filter screen 401 immersed in the purified water at the bottom of the water collecting tank 193; when the air flows through the evaporation filter 401, a small part of purified water on the water film absorbs the heat of the air and is rapidly evaporated from a liquid state to a gas state to humidify the air. Double-click operation of the display screen 180 is performed by switching on the heating and humidifying buttons, switching on the power supply of the electric actuator 520, the fan assembly 310 and the electric heating air duct heater, clicking the air speed button, selecting the high-speed, medium-speed, low-speed and mute operation modes of the fan, clicking the temperature button, and setting the return air temperature; after receiving the instructions of the operation display screen 180 for the electrical heating and humidifying operation mode, the electric actuator 520 operates the adjusting valve plate 510 to a preset position where the first air inlet opening 191 is partially opened and partially closed, and the second air inlet opening 192 is partially closed and partially opened in proportion; after the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box body 100 through the air inlet 110 arranged on the bottom plate 140 of the box body 100, one path of the return air passes through the second air inlet opening 192 on the middle partition plate 191, is heated by the electric heating air duct heater and then enters the second cavity 405, the other path of the return air passes through the first air inlet opening 191 on the middle partition plate 190 and enters the first cavity 404, is humidified by the cold evaporation filter screen 401, is mixed with the heated return air through the second cavity 405, is pressurized by the fan assembly 310 and is sent out through the air supply outlet 120 on the upper part of the box body 100, when the return air temperature is higher than the set temperature, the electric heating air duct heater is powered off to stop heating, and when the return air temperature is lower than the set temperature, the electric heating air duct heater is powered on to restart heating; when the machine is shut down, the shutdown button on the display screen 180 is operated by clicking, the power supply of the electric heating air duct heater is disconnected, and the fan assembly 310 stops running.

The electric heating of the multi-functional portable energy storage air conditioner of this embodiment heats, humidification, purifies the operating mode simultaneously: when the temperature of the personnel activity area in winter is low, the humidity is low and the indoor air quality is poor, the top cover 130 is opened, the cold evaporation filter screen 401 is installed at the front end of the water collecting tank 193 on the middle partition plate 190, the purification component 403 is placed on the placing seat 196 in the water collecting tank 193, and a proper amount of purified water is added into the upper water tank 211; the purified water in the upper water tank 211 flows into the water collecting tank 193 through the water level adjusting device 213 at the bottom of the upper water tank assembly 210, and when the water level of the water collecting tank 193 reaches a set water level, the water level adjusting device 213 is closed; the surface of the cold evaporation screen 401 with the bottom immersed in the purified water in the water collection tank 193 forms a water film; when the air flows through the cold evaporation filter 401, a small part of purified water on the water film absorbs the heat of the air and is rapidly evaporated from liquid state to gas state to humidify the air. Double-clicking the electric heating, humidifying and purifying button on the operation display screen 180, switching on the power supply of the electric actuator 520, the fan assembly 310 and the electric heating air duct heater, clicking the air speed button, selecting the high-speed, medium-speed, low-speed and mute operation modes of the fan, clicking the temperature button, and setting the return air temperature; after receiving the instructions of the electric heating, humidifying and purifying operation modes of the operation display screen 180, the electric actuator 520 operates the regulating valve plate 510 to a preset position where the first air inlet opening 191 is partially opened and partially closed, and the second air inlet opening 192 is partially closed and partially opened in proportion; after the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box body 100 through the air inlet 110 arranged on the bottom plate 140 of the box body 100, one path of return air enters the second cavity 405 after being heated by the electric heating air duct heater through the second air inlet opening 192 on the middle partition plate 191, the other path of return air enters the first cavity 404 through the first air inlet opening 191 on the middle partition plate 190, is purified by the purifying assembly 403, is humidified by the cold evaporation filter screen 401, is mixed with the heated return air through the second cavity 405, is pressurized by the fan assembly 310, and is sent out through the air supply outlet 120 on the upper part of the box body 100; when the return air temperature is higher than the set temperature, the power supply of the electric heating air duct heater is disconnected, the heating is stopped, and when the return air temperature is lower than the set temperature, the power supply of the electric heating air duct heater is connected, and the heating is restarted; when the machine is shut down, the shutdown button on the display screen 180 is clicked, the power supply of the electric heating air duct heater is disconnected, and the fan assembly 310 stops running.

The energy storage medium phase-change heat release heating operation condition of the multifunctional portable energy storage air conditioner of the embodiment is as follows: when the temperature of the personnel activity area is low, the humidity is proper and the indoor air quality is good in winter, the top cover 130 is opened, and the first energy storage heat exchanger module 402-1 and the second energy storage heat exchange module 402-2 which finish heat storage are placed on the placing seat 196 in the water collecting tank 193; the heating button on the operation display screen 180 is double-clicked, the electric actuator 520 and the fan assembly 310 are powered on, and after the electric actuator 520 receives a heating operation mode instruction of the operation display screen 180, the adjusting valve plate 510 is operated to the preset positions of the first air inlet opening being fully opened and the second air inlet opening being fully closed; clicking a temperature button to set the return air temperature; after the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box 100 through the air inlet 110 arranged on the bottom plate 140 of the box 100, enters the first cavity 404 through the first air inlet opening 191 on the middle partition plate 190, enters the second cavity 405 after being heated by phase change heat release of the energy storage medium 4 through the labyrinth type convective heat exchange cavities of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2, is pressurized by the fan assembly 310 and is sent out through the air supply outlet 120 on the upper part of the box 100; when the return air temperature is higher than the set temperature, the electric actuator 520 adjusts the position of the regulating valve plate 510 to close the first air inlet opening 191 partially and open the second air inlet opening 192 partially in proportion until the return air temperature reaches the set temperature; when the air conditioner is shut down, the shutdown button on the display screen 180 is operated in a single click mode, the power supply of the fan 310 is disconnected, and the fan 310 stops running.

The energy storage medium phase-change heat release heating and humidifying simultaneous operation working condition of the multifunctional portable energy storage air conditioner of the embodiment is as follows: when the temperature and the humidity of a personnel activity area in winter are low, the top cover 130 is opened, and the first energy storage heat exchanger module 402-1 and the second energy storage heat exchange module 402-2 which finish heat storage are placed on the placing seat 196 in the water collecting tank 193; the cold evaporation filter screen 401 is installed at the front end of the water collecting tank 193 on the middle partition 190, and a proper amount of purified water is added into the upper water tank 211; the purified water in the upper water tank 211 flows into the water collecting tank 193 through the water level adjusting device 213 at the bottom of the upper water tank assembly 210, when the water level of the water collecting tank 193 reaches a set water level, the water level adjusting device 213 is closed, and a water film is formed on the surface of the cold evaporation filter 401 immersed at the bottom in the purified water in the water collecting tank 193; when the air flows through the cold evaporation filter screen 401, a small part of purified water on the water film absorbs the heat of the air and is quickly evaporated from a liquid state into a gas state to humidify the air; the heating and humidifying buttons on the operation display screen 180 are double clicked, the electric actuator 520 and the fan assembly 310 are powered on, and after the electric actuator 520 receives the heating and humidifying operation mode instructions of the operation display screen 180, the adjusting valve plate 510 is operated to the preset positions of the first air inlet opening full-open and the second air inlet opening full-closed; clicking a temperature button to set the return air temperature; after the fan assembly 310 operates, the return air filtered by the primary filter screen 600 is sucked into the lower box cavity of the box body 100 through the air inlet 110 arranged on the bottom plate 140 of the box body 100, enters the first cavity 404 through the first air inlet opening 191 on the middle partition plate 190, passes through the labyrinth convection heat exchange cavities of the first energy storage heat exchange module 402-1 and the second energy storage heat exchange module 402-2, is heated by phase change heat release of an energy storage medium 4, is humidified by the cold evaporation filter screen 401, enters the second cavity 405, is pressurized by the fan assembly 310, and is sent out through the air supply outlet 120 on the upper part of the box body 100; when the return air temperature is higher than the set temperature, the electric actuator 520 adjusts the position of the adjusting valve plate 510 to close the first air inlet opening 191 and open the second air inlet opening 192 in proportion until the return air temperature reaches the set temperature; when the air conditioner is shut down, the shutdown button on the display screen 180 is operated in a single click mode, the power supply of the fan 310 is disconnected, and the fan 310 stops running.

The above description is only a preferred embodiment of the present invention and should not be construed as limiting the present invention, and any modifications, equivalent replacements, improvements and the like made within the principle of the invention should be included in the protection scope of the present invention.

Claims (10)

1. A multifunctional portable energy storage air conditioner is characterized by comprising a case unit, an air processing unit, a water feeding tank assembly, an assembled two-way air quantity proportion adjusting device and a fan assembly; the air processing unit, the water feeding tank assembly and the fan assembly are arranged on the upper part of the case unit; the assembled two-way air quantity proportion adjusting device is arranged at the lower part of the case unit;

the case unit comprises a case body, an air inlet, an air outlet, a middle partition plate and a handle; the air inlet is arranged on a bottom plate of the box body, the air outlet is arranged at the upper part of the box body, the handle is arranged at the top of the box body, the middle partition plate is arranged in a box cavity at the middle lower part of the box body, the rear part of the middle partition plate is provided with a first air inlet opening, the front part of the middle partition plate is provided with a second air inlet opening, and the middle partition plate is provided with a water collecting tank;

the upper water tank assembly comprises an upper water tank, a base and a water level adjusting device, the upper water tank is arranged in the upper rear cavity of the tank body and is installed in the water collecting tank through the base, and the water level adjusting device is arranged at the bottom of the upper water tank and is communicated with the water collecting tank;

the air treatment unit comprises one or more of a cold evaporation screen, an energy storage heat exchanger and a high efficiency filter; the air treatment unit divides the box cavity space at the upper part of the middle partition plate into two cavities, the box cavity space at the rear part of the air treatment unit is a first cavity, the box cavity space at the front part of the air treatment unit is a second cavity, the first cavity is positioned above the first air inlet opening on the middle partition plate, and the second cavity is positioned above the second air inlet opening of the middle partition plate;

the assembled two-way air quantity proportion adjusting device comprises an adjusting valve plate and an electric actuator; the electric actuator changes the relative positions of the first air inlet opening and the second air inlet opening on the adjusting valve plate and the upper partition plate, so that the first air inlet is fully opened and the second air inlet is fully closed, or the first air inlet is partially opened and the second air inlet is partially closed in proportion, or the first air inlet is fully closed and the second air inlet is fully opened;

the fan subassembly is installed at box upper portion case intracavity, is located the second cavity, and the air outlet of fan subassembly and the air outlet UNICOM on the positive upper portion of box.

2. The multi-functional portable stored energy air conditioner of claim 1 further comprising a lower tank assembly disposed at a lower portion of the cabinet unit.

3. The multi-functional portable stored energy air conditioner of claim 2 wherein the lower header assembly includes a lower header disposed at a lower portion of the housing and a drain opening communicating with the sump through a drain fitting in the sump.

4. The multi-functional portable energy-storing air conditioner according to claim 1, wherein the regulating valve plate specifically comprises a valve plate body, a first guide strip, a second guide strip, and a guide groove; the first guide strip and the second guide strip are respectively positioned on two sides of the valve plate body and used for controlling and adjusting the mounting position and the movement direction of the valve plate; the top of the guide groove is connected with the middle part of the valve plate body; the first guide strip and the second guide strip are respectively positioned in the grooves of the first positioning mounting strip and the second positioning mounting strip, and the first positioning mounting strip and the second positioning mounting strip are positioned below the middle partition plate and fixed on the box body; the electric actuator comprises a controller, a motor and a guide wheel; the controller is located the electric actuator rear, and the motor is located the electric actuator middle part, and the guide pulley is installed in the pivot of motor, and the controller of electric actuator accepts operation display screen operation mode instruction, and motor drive guide pulley rotates, through the meshing transmission of guide pulley and the guide slot on the adjusting valve plate, promotes adjusting valve plate seesaw.

5. The multifunctional portable energy-storage air conditioner as claimed in claim 1, wherein the front end of the water collecting tank can be placed with a cold evaporation filter screen, and the rear end of the water collecting tank is provided with a placing seat for placing the energy-storage heat exchanger and/or the high-efficiency filter; the top of the box body is provided with a top cover, and the air processing unit can be replaced by opening the top cover.

6. The multi-functional portable energy-storing air conditioner according to claim 1, further comprising an electric hot air duct heater installed in the upper chamber of the cabinet at the second air inlet opening of the middle partition.

7. The multifunctional portable energy-storage air conditioner as claimed in claim 1, wherein the bottom plate of the case is provided with an air inlet formed by punching, and the upper part of the front surface of the case is provided with an air outlet.

8. The multifunctional portable energy-accumulating air conditioner as claimed in claim 1, wherein the water draining device in the water collecting tank consists of short water draining pipe and cock, and silver ion rod or UV-C ultraviolet lamp is set in the water collecting tank and the upper water tank.

9. The multi-functional portable energy-storing air conditioner according to claim 1, wherein said high efficiency filter is an activated carbon filter.

10. The multi-functional portable energy-storing air conditioner according to claim 1, wherein said fan assembly is a cross-flow fan assembly; the fan assembly and the electric actuator are powered by a direct-current power supply, a lithium battery type charging power supply or a USB interface.

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