CN111623422B - Air processor capable of being used as mobile air conditioner - Google Patents

Abstract

The invention discloses an air processor which can be used as a mobile air conditioner. The air handler may be selectively operated in an air conditioning mode and an air sterilizer mode. In an air conditioning mode, the mode processor controls the electric control baffle of the indoor air inlet to be opened, the first fan rotates to introduce indoor air into the high-temperature layer through the indoor air inlet, the indoor air carries heat emitted by the condenser to form hot air to be led out of the room through the ventilating pipeline, the second fan rotates to introduce indoor air into the refrigerating and sterilizing layer through the indoor air inlet, and cold air is formed after passing through the evaporator of the refrigerating and sterilizing layer and is discharged from the second fan to be fed into the room. When the air sterilizer is in a mode, the mode processor controls the first fan to reversely rotate, closes the electric control baffle plate of the indoor air inlet, fully pushes air entering the ventilating duct into the evaporation layer after being preheated by the compressor and the condenser, opens the heater to heat and sterilize the entering air, and the air enters the room through the second fan after being sterilized by the sterilizing equipment.

Description

Air processor capable of being used as mobile air conditioner

Technical Field

The invention relates to the technical field of household appliances, in particular to an air processor capable of being used as a mobile air conditioner.

Background

In recent years, air conditioning market competition is more and more intense, and requirements on air conditioning performance are also more and more high, and main controls of air conditioning include air quality, air temperature, air humidity, air speed and the like.

The existing air conditioner blows cold air, condensed water is easy to appear, and bacteria which are easy to breed in condensed water in a machine body are easy to send indoor along with the cold air, and meanwhile, when the air conditioner is opened, the indoor is in a closed state, so that the bacteria breeds and floats in the indoor air, and the human health is not facilitated. Especially, since epidemic situation of novel coronavirus pneumonia, people pay special attention to health problem of indoor ventilation, so that a single refrigeration air conditioner can not meet requirements of people on healthy life any more.

Disclosure of Invention

The invention aims to provide an air processor which can be used as a mobile air conditioner, can be used as an air conditioner for refrigerating indoor cold air and can be used as an air sterilizer for sterilizing indoor air.

Embodiments of the present invention are implemented as follows:

the present invention provides an air handler usable as a mobile air conditioner, comprising: the system comprises a main machine box and a mode processor, wherein the main machine box is sequentially divided into a high-temperature layer and a refrigeration and disinfection layer;

an indoor air inlet is arranged between the high-temperature layer and the refrigeration and sterilization layer, and an electric control baffle is arranged at the indoor air inlet;

the side wall of the high-temperature layer is provided with a ventilating duct, and the high-temperature layer is provided with a compressor, a condenser and a first fan;

the refrigerating and sterilizing layer is provided with an evaporator and sterilizing equipment, and the shell of the refrigerating and sterilizing layer is also provided with a second fan;

the mode processor is electrically connected with the first fan, the second fan and the electric control baffle plate respectively.

In the preferred embodiment of the invention, the refrigeration and sterilization layer is divided into an evaporation layer, a sterilization layer and an air guiding layer in sequence; the evaporator is arranged on the evaporation layer, and a first air guide structure is arranged between the evaporation layer and the disinfection layer; the disinfection device is arranged on the disinfection layer, and a second air guide structure is arranged between the disinfection layer and the air entraining layer; the second fan is arranged on the shell of the air entraining layer; the indoor air inlet and the first air guide structure are arranged on opposite side walls of the main case; the first air guide structure and the second air guide structure are arranged on opposite side walls of the main case.

In a preferred embodiment of the present invention, on the high temperature layer, the compressor and the condenser are disposed on a side of the first fan facing away from the indoor air inlet.

In a preferred embodiment of the present invention, the compressor and the condenser are in communication via a first refrigerant line; the condenser and the evaporator are communicated through a capillary channel; the evaporator and the compressor are in communication via a third refrigerant line.

In a preferred embodiment of the present invention, a heater is further disposed on a side of the high temperature layer near the indoor air inlet, and the heater is electrically connected to the processor.

In a preferred embodiment of the present invention, an air guide plate is further disposed between the high temperature layer bottom plate and the indoor air inlet in an inclined manner.

In a preferred embodiment of the invention, the disinfection device comprises an ultraviolet lamp, an ozone screen or a filter screen, etc.

In a preferred embodiment of the invention, the high temperature layer, the evaporation layer, the disinfection layer and the bleed air layer are arranged vertically or horizontally in this order.

The air processor which can be used as a mobile air conditioner is improved aiming at the problem that an anti-infection isolation device in the prior art does not have a disinfection function.

The invention discloses an air processor which can be used as a mobile air conditioner. The air handler may be selectively operable in two different modes, an air conditioning mode and an air sterilizer mode, by a mode processor. When the air conditioner is in an air conditioning mode, the mode processor controls the electric control baffle of the indoor air inlet to be opened, the first fan rotates to introduce indoor air into the high-temperature layer through the indoor air inlet, the indoor air carries heat emitted by the condenser to form hot air to be led out of the room through the ventilating pipeline, the second fan rotates to introduce indoor air into the refrigerating and sterilizing layer through the indoor air inlet, and the indoor air forms cold air after passing through the evaporator of the refrigerating and sterilizing layer and is discharged from the second fan to be fed into the room. When the air sterilizer is in the air sterilizer mode, the mode processor controls the first fan to reversely rotate, closes the electric control baffle plate of the indoor air inlet, fully pushes air entering the ventilating duct into the evaporation layer after being preheated by the compressor and the condenser, opens the heater to heat and sterilize the entering air, and the air enters the room through the second fan after being sterilized by equipment such as an ultraviolet lamp and the like.

In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an air handler usable as a mobile air conditioner according to an embodiment of the present invention.

Fig. 2 is a schematic view of the internal structure of the air handler shown in fig. 1.

Fig. 3 is a schematic air flow diagram of the air handler shown in fig. 1 operating in an air conditioning mode.

Fig. 4 is a schematic air flow diagram of the air handler shown in fig. 1 operating in an air sterilizer mode.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

As shown in fig. 1, the present invention provides an air handler 100 usable as a mobile air conditioner, comprising: mainframe box 101 and a mode processor (not shown in the figure), mainframe box 101 is divided into high temperature layer 102 and refrigerating and sterilizing layer 104150 in this order.

An indoor air inlet 109 is arranged between the high temperature layer 102 and the refrigeration and sterilization layer 104150, and the indoor air inlet 109 is provided with an electric control baffle (not shown in the figure).

Referring to fig. 2, a ventilation duct (not shown) is provided at a sidewall of the high temperature layer 102, and a compressor 106, a condenser 107, and a first fan 108 are provided on the high temperature layer 102; the evaporator 110 and the sterilizing device 112 are arranged on the refrigerating and sterilizing layer 104150, and the second fan 114 is also arranged on the outer shell of the refrigerating and sterilizing layer 104150. The mode processor is electrically connected to the first fan 108, the second fan 114, and the electrically controlled barrier, respectively. The mode processor may control the rotational direction and switching of the first fan 108 and the second fan 114, and control the switching of the heater 130.

It will be appreciated that the air handler 100 may be selectively operable in two different modes, an air conditioning mode and an air sterilizer mode, by a mode processor.

As shown in fig. 3, fig. 3 is a schematic airflow diagram of the air handler shown in fig. 1 operating in an air conditioning mode, wherein the arrow direction represents the air flow direction. When in the air conditioning mode, the mode processor controls the electric control baffle of the indoor air inlet 109 to be opened, the first fan 108 rotates to introduce indoor air into the high-temperature layer 102 through the indoor air inlet 109, and the indoor air carries heat emitted by the condenser 107 to form hot air to be led out of the room through the ventilating duct, as shown by a dotted arrow in the figure; the second fan 114 rotates to introduce indoor air into the refrigerating and sterilizing layer 104150 through the indoor air inlet 109, and the indoor air is cooled by the evaporator 110 of the refrigerating and sterilizing layer 104150, and is discharged from the second fan 114 and is sent into the room, as shown by solid arrows in the figure.

As shown in fig. 4, fig. 4 is a schematic air flow diagram of the air handler shown in fig. 1 operating in an air sterilizer mode. When the air sterilizer is in the air sterilizer mode, the mode processor controls the first fan 108 to reversely rotate, closes the electric control baffle of the indoor air inlet 109, and pushes all air entering the ventilating duct into the cold sterilization layer 104150 after preheating the air by the compressor 106 and the condenser 107, so as to heat and sterilize the entering air, and the air enters the room through the second fan 114 after being sterilized by the sterilizing equipment 112 such as an ultraviolet lamp.

As shown in fig. 1, in the preferred embodiment of the present invention, the refrigerating and sterilizing layer 104150 is divided into an evaporating layer 103, a sterilizing layer 104 and a bleed air layer 105 in this order; an evaporator 110 is arranged on the evaporation layer 103, and a first air guide structure 111 is arranged between the evaporation layer 103 and the disinfection layer 104; a disinfection device 112 is arranged on the disinfection layer 104, and a second air guide structure 113 is arranged between the disinfection layer 104 and the air entraining layer 105; a second fan 114 is arranged on the outer shell of the air guiding layer 105; the indoor air inlet 109 and the first air guide structure 111 are arranged on opposite side walls of the main case 101; the first air guide structure 111 and the second air guide structure 113 are disposed on opposite sidewalls of the main chassis 101.

In the preferred embodiment of the present invention, on the high temperature layer 102, a compressor 106 and a condenser 107 are disposed on a side of the first fan 108 facing away from the indoor air intake 109.

In a preferred embodiment of the present invention, the compressor 106 and the condenser 107 are in communication via a first refrigerant line; the condenser 107 and the evaporator 110 are communicated by capillary channels; the evaporator 110 and the compressor 106 are in communication via a third refrigerant line.

In this embodiment, when in the air conditioning mode, the compressor 106 in the high temperature layer 102 converts a gaseous refrigerant (such as freon) into a high temperature and high pressure gaseous refrigerant, and transmits the high temperature and high pressure gaseous refrigerant to the condenser 107 through the first refrigerant pipe, the condenser 107 converts the high temperature and high pressure gaseous refrigerant into a normal temperature and high pressure liquid refrigerant, the normal temperature and high pressure liquid refrigerant enters the evaporator 110 through the capillary pipe, and the normal temperature and high pressure liquid refrigerant returns to the compressor 106 through the third refrigerant pipe after being converted into a gaseous low temperature refrigerant through the evaporator 110 for continuous recycling.

In the preferred embodiment of the present invention, as shown in fig. 2, a heater 130 is further disposed on the side of the high temperature layer 102 near the indoor air inlet 109, and the heater 130 is electrically connected to the processor.

It will be appreciated that when in the air sterilizer mode, the mode processor controls the heater 130 to be turned on, and the air entering the ventilation duct is preheated by the compressor 106 and the condenser 107, then heated again by the heater 130, enters the refrigerating and sterilizing layer 150, and then enters the room through the second fan 114 after being sterilized by the sterilizing device 112 such as an ultraviolet lamp.

In the preferred embodiment of the present invention, an air guide plate is also provided between the bottom plate of the high temperature layer 102 and the indoor air inlet 109 in an inclined manner. It will be appreciated that the provision of the air guide plate 120 facilitates air communication between the air in the condensing layer high temperature layer 102 and the indoor air intake 109 and the evaporating layer 103.

In a preferred embodiment of the present invention, the disinfection device 112 comprises an ultraviolet lamp, an ozone screen, a filter screen, or the like.

In a preferred embodiment of the invention, the high temperature layer 102, the evaporation layer 103, the disinfection layer 104 and the bleed layer 105 are arranged vertically or horizontally in this order.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An air handler usable as a mobile air conditioner, comprising: the system comprises a main machine box and a mode processor, wherein the main machine box is sequentially divided into a high-temperature layer and a refrigeration and disinfection layer;

an indoor air inlet is arranged between the high-temperature layer and the refrigeration and sterilization layer, and an electric control baffle is arranged at the indoor air inlet;

the side wall of the high-temperature layer is provided with a ventilating duct, and the high-temperature layer is provided with a compressor, a condenser and a first fan;

the refrigerating and sterilizing layer is provided with an evaporator and sterilizing equipment, and the shell of the refrigerating and sterilizing layer is also provided with a second fan;

the mode processor is respectively and electrically connected with the first fan, the second fan and the electric control baffle, and controls the rotation direction and the switch of the first fan and the second fan;

the air treatment machine is provided with two working modes, namely an air conditioning mode and an air sterilizer mode, in the air conditioning mode, the first fan rotates to introduce indoor air into the high-temperature layer through the indoor air inlet, the indoor air carries heat emitted by the condenser to form hot air to be led out of the room through the ventilating duct, the second fan rotates to introduce the indoor air into the refrigerating and sterilizing layer through the indoor air inlet, and cold air is formed after the indoor air passes through the evaporator of the refrigerating and sterilizing layer and is discharged from the second fan to be fed into the room; in the air sterilizer mode, the first fan reversely rotates to close the electric control baffle of the indoor air inlet, air entering the ventilating duct is pushed into the refrigerating and sterilizing layer completely, and the air enters the room through the second fan after being sterilized.

2. The air handler of claim 1, wherein the refrigerating and sterilizing layer is divided into an evaporating layer, a sterilizing layer and an air guiding layer in sequence;

the evaporator is arranged on the evaporation layer, and a first air guide structure is arranged between the evaporation layer and the disinfection layer;

the disinfection device is arranged on the disinfection layer, and a second air guide structure is arranged between the disinfection layer and the air entraining layer;

the second fan is arranged on the shell of the air entraining layer;

the indoor air inlet and the first air guide structure are arranged on opposite side walls of the main case; the first air guide structure and the second air guide structure are arranged on opposite side walls of the main case.

3. An air handler according to claim 2, wherein,

on the high-temperature layer, the compressor and the condenser are arranged on one side of the first fan, which is away from the indoor air inlet.

4. An air handler according to claim 2, wherein,

the compressor and the condenser are communicated through a first refrigerant pipeline;

the condenser and the evaporator are communicated through a capillary channel;

the evaporator and the compressor are in communication via a third refrigerant line.

5. An air handler according to claim 2, wherein,

and a heater is further arranged on one side of the high-temperature layer, which is close to the indoor air inlet, and the heater is electrically connected with the processor.

6. An air handler according to claim 2, wherein,

and an air guide plate is obliquely arranged between the high-temperature layer bottom plate and the indoor air inlet.

7. An air handler according to any one of claims 1 to 6 wherein the disinfection apparatus comprises an ultraviolet lamp or an ozone screen.

8. An air handler according to any one of claims 2 to 6,

the high temperature layer, the evaporation layer, the disinfection layer and the air entraining layer are vertically arranged or horizontally arranged in sequence.