CN203823924U - Mult-element dehumidifying air conditioner - Google Patents

Abstract

The utility model relates to a multi-element dehumidifying air conditioner, and belongs to the technical field of indoor dehumidifying air conditioners. The dehumidifying air conditioner comprises a dehumidifying air conditioning system A and a dehumidifying air conditioning system B, and a shell, wherein the dehumidifying air conditioning system A comprises a compressor A, a heat exchanger A, an air duct A, a motor A and a wind wheel A; the dehumidifying air conditioning system B comprises a compressor B, a heat exchanger B, an air duct B, a motor B and a wind wheel B; the heat exchanger A comprises an evaporator A and a condenser A; the heat exchanger B comprises an evaporator B and a condenser B; the air duct A, the condenser A and the evaporator B are arranged in central symmetry with the air duct B, the condenser B and the evaporator A; the motor A and the wind wheel A are arranged in the air duct A; the motor B and the wind wheel B are arranged in the air duct B; the compressor A and the compressor B are arranged at the right front part and the left rear part inside the shell respectively. The dehumidifying air conditioner can be used for separate cooling, separate dehumidifying and separate heating, as well as dual cooling, dual dehumidifying or dual heating; the dehumidifying air conditioner has the benefits of being powerful in dehumidifying function, good in heat exchanging effect and capability of dehumidifying and cooling a plurality of rooms with different areas.

Description

Polynary dehumidifying air-conditioner

Technical field

The utility model is a kind of dehumidifying air-conditioner, and particularly polynary dehumidifying air-conditioner belongs to indoor dehumidification air conditioner technical field.

Background technology

Air conditioner is the household appliances that people know, and dehumidifying air-conditioner is the new high-tech product that leads dehumidification air conditioner machine technology new trend.In China the south of the lower reaches of the Yangtze River, and the regional airborne humiture such as Northern Europe, Northeast Asia, South Asia is larger in the world, generally all can be 70 DEG C of 30 DEG C of Wen Du more than humidity, especially plum rain season, malaria is also startling to the physically and mentally healthy adverse effect of people.In the time of hot weather high humidity, it is sultry that people can feel, in the time that humidity reaches 80%～100%, air seldom can absorb moisture human sweat again and be difficult for discharging, and is difficult for being evaporated, thereby can makes people's agitation, tired, poor appetite after perspiration.Moist environment the most easily produces mould, and mould sucks lung, easily causes pneumonia or lung mycosis.So in damp-heat area in summer, people expect dehumidifying air-conditioner very much.

But conventional dehumidifying air-conditioner only has a dehumidifier/air-conditioning system, be the combination in each compressor, heat exchanger, air channel, dehumidification function is little, heat transfer effect is low, cannot meet the requirement of the desiccant cooling in multiple different areas room.If there are multiple rooms in a family family, just need many dehumidifiers and Duo Tai air conditioner, can occupy so many spaces.

Utility model content

The purpose of this utility model is in the prior art for above-mentioned dehumidifying air-conditioner, only has a dehumidifier/air-conditioning system, dehumidification function is little, heat transfer effect is low, cannot meet the defect that the desiccant cooling in multiple different areas room requires, a kind of polynary dehumidifying air-conditioner is provided, can reach that dehumidification function is large, heat transfer effect is high, can meet the object that the desiccant cooling in multiple different areas room requires.

The technical scheme that the utility model is taked is to achieve these goals: polynary dehumidifying air-conditioner, comprise dehumidifier/air-conditioning system, power line winding system, housing and support system, described housing is rectangular build, comprise chassis, front coaming plate, squab panel and top cover, described support system comprises 2 universal wheels and 2 horn rings, dehumidifier/air-conditioning system is fixedly installed on chassis, and support system is fixedly installed under chassis, and chassis can ponding;

Described dehumidifier/air-conditioning system comprises dehumidifier/air-conditioning system A, dehumidifier/air-conditioning system B, air-duct clapboard, pendulum leaf bar linkage structure, fixed frame; Described dehumidifier/air-conditioning system A comprises compressor A, cross valve A, heat exchanger A, capillary A, air channel A, motor A, wind wheel A, air-supply joint A and water tank A, and described heat exchanger A comprises evaporimeter A and condenser A; Described dehumidifier/air-conditioning system B comprises compressor B, cross valve B, heat exchanger B, capillary B, air channel B, motor B, wind wheel B, air-supply joint B and water tank B; Described heat exchanger B comprises evaporimeter B and condenser B, and evaporimeter A, condenser A, evaporimeter B are identical with the structure of condenser B, and being cover has the pipe group of fin, but size can be different;

Described air-duct clapboard is fixedly installed on medium position in housing with front and rear direction; From air-duct clapboard left side to left outside air channel A, condenser A, the evaporimeter B of being disposed with, from air-duct clapboard right side to right outside air channel B, condenser B, the evaporimeter A of being disposed with; Described air channel A, condenser A, evaporimeter B are symmetrical arranged centered by air-duct clapboard with air channel B, condenser B, evaporimeter A respectively; Condenser A is connected by capillary A with evaporimeter A, and condenser B is connected by capillary B with evaporimeter B; Condenser A, evaporimeter B communicate with air channel A respectively, and condenser B, evaporimeter A communicate with air channel B respectively; Described motor A, wind wheel A are arranged in the A of air channel, and described motor B, wind wheel B are arranged in the B of air channel; Described cross valve A is connected with compressor A, and compressor A and cross valve A are arranged on right front position in housing, and described cross valve B is connected with compressor B, and compressor B and cross valve B are arranged on left back position in housing; Described cross valve A is provided with interface a, b, c, d, and described cross valve B is provided with interface e, f, g, h;

Described top cover middle part, air channel A and air channel B top are provided with wind pushing hole, described pendulum leaf bar linkage structure is fixed in wind pushing hole by fixed frame, described air-supply joint A, air-supply joint B are separately positioned on wind pushing hole top, and air-supply joint A, air-supply joint B communicate with air channel A, air channel B respectively by wind pushing hole; Air-supply joint A communicates with outdoor by connecting duct, and air-supply joint B communicates with indoor by connecting duct; Certainly air-supply joint A also can be designed as by connecting duct and communicates with indoor, and air-supply joint B communicates with outdoor by connecting duct, just dehumidifier/air-conditioning system A, and dehumidifier/air-conditioning system B role is exchanged;

Described water tank A, water tank B are separately positioned on left front, right back position in housing, and water tank A and water tank B play water storage effect;

In the time that dehumidifier/air-conditioning system A or B work independently, can play separate refrigeration and the effect of dehumidifying separately; In the time that dehumidifier/air-conditioning system A and B work simultaneously, can play the effects of two refrigeration and two dehumidifying;

In the time adjusting cross valve A or B interface, dehumidifier/air-conditioning system A or B and work independently, can play independent heating effect; In the time that dehumidifier/air-conditioning system A and B work simultaneously, can play the effect of two heatings.

Operation principle: when air-conditioning is in refrigerating state, refrigerant changes the gas of HTHP into by compressor compresses, enter outdoor heat converter (condenser) by cross valve, after condenser is inhaled cold heat release, become the liquid of middle temperature high pressure, after expansion valve, become the liquid of low-temp low-pressure, through indoor heat converter (evaporimeter), heat absorption lets cool after effect, become the gas of low-temp low-pressure, get back to compressor through cross valve, then continue circulation.When air-conditioning is in heating state, refrigerant changes the gas of HTHP into by compressor compresses, enter indoor heat converter (condenser) by cross valve, after inhaling cold heat release, condenser becomes the liquid of middle temperature high pressure, after expansion valve, become the liquid of low-temp low-pressure, through outdoor heat converter (evaporimeter), heat absorption lets cool after effect, becomes the gas of low-temp low-pressure, get back to compressor through cross valve, then continue circulation.

Function is concluded:

Single dehumidifying: A system works or B system works;

Two dehumidifying: A system and B system are worked simultaneously;

Single refrigeration: A system works or B system works (the same with dehumidifying work);

Two refrigeration: A, B system work (the same with dehumidifying work) simultaneously;

Singly heat: A system works or B system works (cross valve commutation);

Two heating: A, B system work (cross valve commutation) simultaneously.

Concrete several situations are:

When dehumidifier/air-conditioning system A work, interface a, the d of cross valve A is communicated with, when interface b, c are communicated with: refrigerant changes the gas of high temperature, high pressure into by compressor A compression, by the interface a of cross valve A, by cross valve interface, d discharges, enter condenser A, inhale cold, heat release at condenser A, make the heating of condenser A ambient air, hot-air enters air channel A, under motor A, wind wheel A effect, through air-supply joint A and connecting duct discharged to outdoor; Refrigerant becomes the liquid of middle temperature, high pressure after condenser A, after capillary A step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool through evaporimeter A, evaporimeter A ambient air is turned cold, and cold air enters air channel B, under motor B, wind wheel B effect, discharged to indoor, play refrigeration through blow joint B and connecting duct; When evaporimeter A ambient air turns cold, the globule is separated out, and plays exsiccation, is precipitated the air of the globule discharged to indoor, and indoor air humidity is reduced; Refrigerant, after evaporimeter A effect, becomes the gas of low-temp low-pressure, through cross valve interface b, then gets back to compressor A by interface c, then continues circulation, in compressor is ceaselessly worked, repeats above-mentioned circulation, continuously completes refrigeration and the dehumidifying of air conditioner;

When dehumidifier/air-conditioning system B work, interface e, the f of cross valve B is communicated with, when interface g, h are communicated with: refrigerant changes the gas of high temperature, high pressure into by compressor B compression, by the interface e of cross valve B, by cross valve interface, f discharges, enter evaporimeter B, inhale cold, heat release (now evaporimeter B plays the effect of condenser) at evaporimeter B, make the heating of evaporimeter B ambient air, hot-air enters air channel A, under motor A, wind wheel A effect, through air-supply joint A and connecting duct discharged to outdoor; Refrigerant becomes the liquid of middle temperature, high pressure after evaporimeter B, after capillary B step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool (effect that now condenser B plays evaporimeter) through condenser B, condenser B ambient air is turned cold, and cold air enters air channel B, under motor B, wind wheel B effect, discharged to indoor, play refrigeration through blow joint B and connecting duct; When condenser B ambient air turns cold, the globule is separated out, and plays exsiccation, is precipitated the air of the globule discharged to indoor, and indoor air humidity is reduced; Refrigerant, after condenser B effect, becomes the gas of low-temp low-pressure, through cross valve interface g, then gets back to compressor B by interface h, then continues circulation, in compressor is ceaselessly worked, repeats above-mentioned circulation, continuously completes refrigeration and the dehumidifying of air conditioner;

When dehumidifier/air-conditioning system A work, interface a, the b of cross valve A is communicated with, when interface c, d are communicated with: refrigerant changes the gas of high temperature, high pressure into by compressor A compression, by the interface a of cross valve A, by cross valve interface, b discharges, enter evaporimeter A, inhale cold, heat release (now evaporimeter B plays the effect of condenser) at evaporimeter A, make the heating of evaporimeter A ambient air, hot-air enters air channel B, under motor B, wind wheel B effect, discharged to indoor, play heating effect through blow joint B and connecting duct; Refrigerant becomes the liquid of middle temperature, high pressure after evaporimeter A, after capillary A step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool (effect that now condenser B plays evaporimeter) through condenser A, condenser A ambient air is turned cold, cold air enters air channel B, under motor B, wind wheel B effect, through air-supply joint B and connecting duct discharged to outdoor; When evaporimeter A ambient air turns cold, also have the globule to separate out, be precipitated the air of the globule discharged to outdoor, on indoor air humidity without impact; Refrigerant, after condenser A effect, becomes the gas of low-temp low-pressure, through cross valve interface c, then gets back to compressor A by interface d, then continues circulation, in compressor is ceaselessly worked, repeats above-mentioned circulation, continuously completes the heating of air conditioner;

When dehumidifier/air-conditioning system B work, interface e, the h of cross valve B is communicated with, when interface f, g are communicated with: refrigerant changes the gas of high temperature, high pressure into by compressor B compression, by the interface e of cross valve B, by cross valve interface, h discharges, enter condenser B, inhale cold, heat release at condenser B, make the heating of condenser B ambient air, hot-air enters air channel B, under motor B, wind wheel B effect, discharged to indoor, play heating effect through blow joint B and connecting duct; Refrigerant becomes the liquid of middle temperature, high pressure after condenser B, after capillary B step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool through evaporimeter B, evaporimeter B ambient air is turned cold, cold air enters air channel A, under motor A, wind wheel A effect, through air-supply joint A and connecting duct discharged to outdoor; When evaporimeter B ambient air turns cold, also have the globule to separate out, be precipitated the air of the globule discharged to outdoor, on indoor air humidity without impact; Refrigerant, after evaporimeter B effect, becomes the gas of low-temp low-pressure, through cross valve interface f, then gets back to compressor B by interface g, then continues circulation, in compressor is ceaselessly worked, repeats above-mentioned circulation, continuously completes the heating of air conditioner.

Described evaporimeter A or B size are 210*230*1 to 280*294*3mm, and condenser B or A size are 210*200*2 to 280*294*4mm.

Described wind wheel A thickness is 75 to 80mm, and wind wheel B thickness is 90 to 95mm.

The power of described compressor A is 400 to 2600W, compressor B power be 700 to 3100W.

The rotating speed of described motor A is 900 to 1000 revs/min, and motor B rotating speed is 1050 to 1200 revs/min.

The rotating speed of power, motor A or the B of described evaporimeter A or B size, condenser B or A size, wind wheel A or B thickness, compressor A or B is 6 kinds of combinations as described in Table 1:

Table 1:

Described power line winding system is arranged between the compressor A and water tank A of chassis one side, and built-in power supply line winding system, pulls out when use, uses while end and puts back to and just can.

Described 2 universal wheels are arranged on front, bottom, chassis, and described 2 horn rings are arranged on rear, bottom, chassis, convenient and light and handy when mobile.

Compared with prior art, the beneficial effects of the utility model are:

(1) thus adopt the compressor, heat exchanger of two big or small refrigerating capacitys of difference, with special air channel be combined into can billing machine or two-shipper open the dehumidifying needs that reach applicable different room-size areas simultaneously, be equivalent to the dehumidification function of three dehumidifiers, the heat exchanger area of super large and the ducting system of super large, make good effect of heat exchange, refrigeration is fast and efficiency is high, thereby reach energy-conservation effect;

(2) thus the identical air channel of two sizes, adopt the identical and thickness difference of two rotor diameters, two the different motor of rotating speed and then reach the different ducting system of air quantity, be provided with two rightabout supply and exhaust joints with the requirement of adaptive heat-exchange system desiccant cooling, at air outlet place and reach needed supply and exhaust position separately;

(3) because the machine possesses the heat-exchange systems of the different sizes of two covers and be separately positioned on two sides in air channel, therefore just can a side becoming evaporimeter opposite side in when refrigeration is condenser, thereby convert air conditioner refrigeration to and heat, reach multi-functional machine, rapid moisture removal and fast-refrigerating when the most suitable family of this machine has the room humidity of multiple different sizes extremely serious, economize local and economize storage, a family family just can meet dehumidifying for a machine, the instructions for use of air conditioner;

(4) this machine chassis can water receiving, also have two water tanks can water storage, total moisture storage capacity can reach 15L, also can directly fetch water with lifting pump, be directly discharged to oneself selected drainage position with flexible pipe one short circuit dehumidifier.

Brief description of the drawings

Fig. 1 is: the utility model exploded view;

Fig. 2 is: the utility model assembling stereogram (without top cover);

Fig. 3 is: the utility model general assembly outline drawing;

Fig. 4 is: system works schematic diagram when refrigeration;

Fig. 5 is: system works schematic diagram while heating.

Description of reference numerals: chassis 1, front coaming plate 2, squab panel 3, top cover 4, universal wheel 5, horn ring 6, air-duct clapboard 7, pendulum leaf bar linkage structure 8, fixed frame 9, compressor A10, cross valve A1001, interface a1001a, interface b1001b, interface c1001c, interface d1001d, air channel A11, motor A12, wind wheel A13, air-supply joint A14, water tank A15, evaporimeter A16, condenser A17, compressor B18, cross valve B1801, interface e1801e, interface f1801f, interface g1801g, interface h1801h, air channel B19, motor B20, wind wheel B21, air-supply joint B22, water tank B23, evaporimeter B24, condenser B25, capillary A26, capillary B27, wind pushing hole 28, power line winding system 29.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, but not as to restriction of the present utility model.

Embodiment 1:

As shown in Figures 1 to 5, polynary dehumidifying air-conditioner, comprise dehumidifier/air-conditioning system, power line winding system 29, housing and support system, described housing is rectangular build, comprise chassis 1, front coaming plate 2, squab panel 3 and top cover 4, described support system comprises 5 and 2 horn rings 6 of 2 universal wheels, and dehumidifier/air-conditioning system is fixedly installed on chassis 1, support system is fixedly installed on chassis 1 time, and chassis 1 can ponding;

Described dehumidifier/air-conditioning system comprises dehumidifier/air-conditioning system A, dehumidifier/air-conditioning system B, air-duct clapboard 7, pendulum leaf bar linkage structure 8, fixed frame 9;

Described dehumidifier/air-conditioning system A comprises compressor A10, heat exchanger A, capillary A26, air channel A11, motor A12, wind wheel A13, air-supply joint A14 and water tank A15, and described heat exchanger A comprises evaporimeter A16 and condenser A17; Described dehumidifier/air-conditioning system B comprises compressor B18, heat exchanger B, capillary B27, air channel B19, motor B20, wind wheel B21, air-supply joint B22 and water tank B23; Described heat exchanger B comprises evaporimeter B24 and condenser B25;

Described air-duct clapboard 7 is fixedly installed on medium position in housing with front and rear direction; From air-duct clapboard 7 left sides to left outside air channel A11, condenser A17, the evaporimeter B24 of being disposed with, from air-duct clapboard 7 right sides to right outside air channel B19, condenser B25, the evaporimeter A16 of being disposed with; Described air channel A11, condenser A17, evaporimeter B24 are symmetrical arranged centered by air-duct clapboard 7 with air channel B19, condenser B25, evaporimeter A16 respectively; Condenser A17 is connected by capillary A26 with evaporimeter A16, and condenser B25 is connected by capillary B27 with evaporimeter B24; Condenser A17, evaporimeter B24 communicate with air channel A11 respectively, and condenser B25, evaporimeter A16 communicate with air channel B19 respectively; Described motor A12, wind wheel A13 are arranged in the A11 of air channel, and described motor B20, wind wheel B21 are arranged in the B19 of air channel; Described cross valve A1001 is connected with compressor A10, and compressor A10 and cross valve A1001 are arranged on right front position in housing, and described cross valve B1801 is connected with compressor B18, and compressor B18 and cross valve B1801 are arranged on left back position in housing; Described cross valve A1001 is provided with interface a1001a, interface b1001b, interface c1001c, interface d1001d, and described cross valve B1801 is provided with interface e1801e, interface f1801f, interface g1801g, interface h1801h;

Described top cover 4 middle parts, air channel A11 and air channel B19 top are provided with wind pushing hole 28, described pendulum leaf bar linkage structure 8 is fixed in wind pushing hole 28 by fixed frame 9, described air-supply joint A14, air-supply joint B22 are separately positioned on wind pushing hole 28 tops, and air-supply joint A14, air-supply joint B22 communicate with air channel A11, air channel B19 respectively by wind pushing hole 28; Air-supply joint A14 communicates with outdoor by connecting duct (not shown), and air-supply joint B22 communicates with indoor by connecting duct (not shown);

Described water tank A15, water tank B23 are separately positioned on left front, right back position in housing;

In the time that dehumidifier/air-conditioning system A or B work independently, can play separate refrigeration and the effect of dehumidifying separately; In the time that dehumidifier/air-conditioning system A and B work simultaneously, can play the effects of two refrigeration and two dehumidifying;

In the time adjusting cross valve A1001 or cross valve B1801 interface, dehumidifier/air-conditioning system A or B and work independently, can play independent heating effect; In the time that dehumidifier/air-conditioning system A and B work simultaneously, can play the effect of two heatings;

As shown in the lower part of Figure 4, when dehumidifier/air-conditioning system A work, interface a1001a, the interface d1001d of cross valve A1001 is communicated with, when interface b1001b, interface c1001c are communicated with: refrigerant changes the gas of high temperature, high pressure into by compressor A10 compression, by the interface a1001a of cross valve A1001, by interface, d1001d discharges, enter condenser A17, inhale cold, heat release at condenser A17, make the heating of condenser A17 ambient air, hot-air enters air channel A11, under motor A12, wind wheel A13 effect, through air-supply joint A14 and connecting duct discharged to outdoor; Refrigerant becomes the liquid of middle temperature, high pressure after condenser A17, after capillary A26 step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool through evaporimeter A16, evaporimeter A16 ambient air is turned cold, and cold air enters air channel B19, under motor B20, wind wheel B21 effect, discharged to indoor, play refrigeration through blow joint B22 and connecting duct; When evaporimeter A16 ambient air turns cold, the globule is separated out, and plays exsiccation, is precipitated the air of the globule discharged to indoor, and indoor air humidity is reduced; Refrigerant, after evaporimeter A16 effect, becomes the gas of low-temp low-pressure, through interface b1001b, get back to compressor A10 by interface e1001c again, then continue circulation, in compressor A10 ceaselessly works, repeat above-mentioned circulation, continuously complete refrigeration and the dehumidifying of air conditioner;

As shown in Fig. 4 top, when dehumidifier/air-conditioning system B work, the interface e1801e of cross valve B1801, interface f1801f is communicated with, interface g1801g, when interface h1801h is communicated with: refrigerant changes high temperature into by compressor B18 compression, the gas of high pressure, by the interface e1801e of cross valve B1801, by interface, f1801f discharges, enter evaporimeter B24, inhale cold at evaporimeter B24, heat release (now evaporimeter B24 plays the effect of condenser), make the heating of evaporimeter B24 ambient air, hot-air enters air channel A11, at motor A12, under wind wheel A13 effect, through air-supply joint A14 and connecting duct discharged to outdoor, refrigerant becomes the liquid of middle temperature, high pressure after evaporimeter B24, after capillary B27 step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool (effect that now condenser B25 plays evaporimeter) through condenser B25, condenser B25 ambient air is turned cold, and cold air enters air channel B19, under motor B20, wind wheel B21 effect, discharged to indoor, play refrigeration through blow joint B22 and connecting duct, when condenser B25 ambient air turns cold, the globule is separated out, and plays exsiccation, is precipitated the air of the globule discharged to indoor, and indoor air humidity is reduced, refrigerant, after condenser B25 effect, becomes the gas of low-temp low-pressure, through interface g1801g, get back to compressor B18 by interface h1801h again, then continue circulation, in compressor B18 ceaselessly works, repeat above-mentioned circulation, continuously complete refrigeration and the dehumidifying of air conditioner,

As shown in the lower part of Figure 5, when dehumidifier/air-conditioning system A work, the interface a1001a of cross valve A1001, interface b1001b is communicated with, interface c1001c, when interface d1001d is communicated with: refrigerant changes high temperature into by compressor A10 compression, the gas of high pressure, by the interface a1001a of cross valve A1001, by interface, b100b discharges, enter evaporimeter A16, inhale cold at evaporimeter A16, heat release (now evaporimeter B24 plays the effect of condenser), make the heating of evaporimeter A16 ambient air, hot-air enters air channel B19, at motor B20, under wind wheel B21 effect, through air-supply joint B22 and connecting duct discharged to indoor, play heating effect, refrigerant becomes the liquid of middle temperature, high pressure after evaporimeter A16, after capillary A26 step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool (effect that now condenser B24 plays evaporimeter) through condenser A17, condenser A17 ambient air is turned cold, cold air enters air channel B19, under motor B20, wind wheel B21 effect, through air-supply joint B22 and connecting duct discharged to outdoor, when evaporimeter A16 ambient air turns cold, also have the globule to separate out, be precipitated the air of the globule discharged to outdoor, on indoor air humidity without impact, refrigerant, after condenser A17 effect, becomes the gas of low-temp low-pressure, through interface c1001c, get back to compressor A10 by interface d100d again, then continue circulation, in compressor A10 ceaselessly works, repeat above-mentioned circulation, continuously complete the heating of air conditioner,

As shown in Fig. 5 top, when dehumidifier/air-conditioning system B work, the interface e1801e of cross valve B1801, interface h1801h is communicated with, interface f1801f, when interface g1801g is communicated with: refrigerant changes high temperature into by compressor B18 compression, the gas of high pressure, by the interface e1801e of cross valve B1801, by interface, h1801h discharges, enter condenser B25, inhale cold at condenser B25, heat release, make the heating of condenser B25 ambient air, hot-air enters air channel B19, at motor B20, under wind wheel B21 effect, through air-supply joint B25 and connecting duct discharged to indoor, play heating effect, refrigerant becomes the liquid of middle temperature, high pressure after condenser B25, after capillary B27 step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool through evaporimeter B24, evaporimeter B24 ambient air is turned cold, cold air enters air channel A11, under motor A12, wind wheel A13 effect, through air-supply joint A14 and connecting duct discharged to outdoor, when evaporimeter B24 ambient air turns cold, also have the globule to separate out, be precipitated the air of the globule discharged to outdoor, on indoor air humidity without impact, refrigerant, after evaporimeter B24 effect, becomes the gas of low-temp low-pressure, through interface f1801f, get back to compressor B18 by interface g1801g again, then continue circulation, in compressor B18 ceaselessly works, repeat above-mentioned circulation, continuously complete the heating of air conditioner.

Described evaporimeter A16 or evaporimeter B24 size are 210*230*1mm, and condenser B25 or condenser A17 size are 210*200*2mm.

Described wind wheel A13 thickness is 75mm, and wind wheel B21 thickness is 90mm.

The power of described compressor A10 is 400W, compressor B18 power be 700W.

The rotating speed of described motor A12 is 900 revs/min, and motor B20 rotating speed is 1050 revs/min.

Described power line winding system 29 is arranged between the compressor A10 and water tank A15 of chassis one side, and built-in power supply line winding system, pulls out when use, uses while end and puts back to and just can.

Described 2 universal wheels 5 are arranged on 1 front, bottom, chassis, and described 2 horn rings 6 are arranged on 1 rear, bottom, chassis, convenient and light and handy when mobile.

Embodiment 2-6:

The rotating speed of power, motor A12 or the motor B20 of described evaporimeter A16 or evaporimeter B24 size, condenser B or A size, wind wheel A13 or wind wheel B21 thickness, compressor A10 or compressor B18 is shown in combination as described in Table 2:

Table 2:

All the other are with embodiment 1.

Above-described embodiment, just more preferably 6 kinds of detailed description of the invention of the utility model, the common variation that those skilled in the art carries out within the scope of technical solutions of the utility model and replacing all should be included in protection domain of the present utility model.

Claims (8)

1. many yuan of dehumidifying air-conditioners, comprise dehumidifier/air-conditioning system, power line winding system, housing and support system, described housing is rectangular build, comprise chassis, front coaming plate, squab panel and top cover, described support system comprises 2 universal wheels and 2 horn rings, and dehumidifier/air-conditioning system is fixedly installed on chassis, and support system is fixedly installed under chassis, chassis can ponding, it is characterized in that:

Described dehumidifier/air-conditioning system comprises dehumidifier/air-conditioning system A, dehumidifier/air-conditioning system B, air-duct clapboard, pendulum leaf bar linkage structure, fixed frame; Described dehumidifier/air-conditioning system A comprises compressor A, cross valve A, heat exchanger A, capillary A, air channel A, motor A, wind wheel A, air-supply joint A and water tank A, and described heat exchanger A comprises evaporimeter A and condenser A; Described dehumidifier/air-conditioning system B comprises compressor B, cross valve B, heat exchanger B, capillary B, air channel B, motor B, wind wheel B, air-supply joint B and water tank B; Described heat exchanger B comprises evaporimeter B and condenser B;

Described air-duct clapboard is fixedly installed on medium position in housing with front and rear direction; From air-duct clapboard left side to left outside air channel A, condenser A, the evaporimeter B of being disposed with, from air-duct clapboard right side to right outside air channel B, condenser B, the evaporimeter A of being disposed with; Described air channel A, condenser A, evaporimeter B are symmetrical arranged centered by air-duct clapboard with air channel B, condenser B, evaporimeter A respectively; Condenser A is connected by capillary A with evaporimeter A, and condenser B is connected by capillary B with evaporimeter B; Condenser A, evaporimeter B communicate with air channel A respectively, and condenser B, evaporimeter A communicate with air channel B respectively; Described motor A, wind wheel A are arranged in the A of air channel, and described motor B, wind wheel B are arranged in the B of air channel; Described cross valve A is connected with compressor A, and compressor A and cross valve A are arranged on right front position in housing, and described cross valve B is connected with compressor B, and compressor B and cross valve B are arranged on left back position in housing; Described cross valve A is provided with interface a, b, c, d, and described cross valve B is provided with interface e, f, g, h;

Described top cover middle part, air channel A and air channel B top are provided with wind pushing hole, described pendulum leaf bar linkage structure is fixed in wind pushing hole by fixed frame, described air-supply joint A, air-supply joint B are separately positioned on wind pushing hole top, and air-supply joint A, air-supply joint B communicate with air channel A, air channel B respectively by wind pushing hole; Air-supply joint A communicates with outdoor by connecting duct, and air-supply joint B communicates with indoor by connecting duct;

Described water tank A, water tank B are separately positioned on left front, right back position in housing;

In the time that dehumidifier/air-conditioning system A or B work independently, can play separate refrigeration and the effect of dehumidifying separately; In the time that dehumidifier/air-conditioning system A and B work simultaneously, can play the effects of two refrigeration and two dehumidifying;

In the time adjusting cross valve A or B interface, dehumidifier/air-conditioning system A or B and work independently, can play independent heating effect; In the time that dehumidifier/air-conditioning system A and B work simultaneously, can play the effect of two heatings;

When dehumidifier/air-conditioning system A work, interface a, the d of cross valve A is communicated with, when interface b, c are communicated with: refrigerant changes the gas of high temperature, high pressure into by compressor A compression, by the interface a of cross valve A, by cross valve interface, d discharges, enter condenser A, inhale cold, heat release at condenser A, make the heating of condenser A ambient air, hot-air enters air channel A, under motor A, wind wheel A effect, through air-supply joint A and connecting duct discharged to outdoor; Refrigerant becomes the liquid of middle temperature, high pressure after condenser A, after capillary A step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool through evaporimeter A, evaporimeter A ambient air is turned cold, cold air enters air channel B, under motor B, wind wheel B effect, through air-supply joint B and connecting duct discharged to indoor; When evaporimeter A ambient air turns cold, the globule is separated out; Refrigerant, after evaporimeter A effect, becomes the gas of low-temp low-pressure, through cross valve interface b, then gets back to compressor A by interface c, then continues circulation;

When dehumidifier/air-conditioning system B work, interface e, the f of cross valve B is communicated with, when interface g, h are communicated with: refrigerant changes the gas of high temperature, high pressure into by compressor B compression, by the interface e of cross valve B, by cross valve interface, f discharges, enter evaporimeter B, inhale cold, heat release at evaporimeter B, make the heating of evaporimeter B ambient air, hot-air enters air channel A, under motor A, wind wheel A effect, through air-supply joint A and connecting duct discharged to outdoor; Refrigerant becomes the liquid of middle temperature, high pressure after evaporimeter B, after capillary B step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool through condenser B, condenser B ambient air is turned cold, cold air enters air channel B, under motor B, wind wheel B effect, through air-supply joint B and connecting duct discharged to indoor; When condenser B ambient air turns cold, the globule is separated out; Refrigerant, after condenser B effect, becomes the gas of low-temp low-pressure, through cross valve interface g, then gets back to compressor B by interface h, then continues circulation;

When dehumidifier/air-conditioning system A work, interface a, the b of cross valve A is communicated with, when interface c, d are communicated with: refrigerant changes the gas of high temperature, high pressure into by compressor A compression, by the interface a of cross valve A, by cross valve interface, b discharges, enter evaporimeter A, inhale cold, heat release at evaporimeter A, make the heating of evaporimeter A ambient air, hot-air enters air channel B, under motor B, wind wheel B effect, through air-supply joint B and connecting duct discharged to indoor; Refrigerant becomes the liquid of middle temperature, high pressure after evaporimeter A, after capillary A step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool through condenser A, condenser A ambient air is turned cold, cold air enters air channel B, under motor B, wind wheel B effect, through air-supply joint B and connecting duct discharged to outdoor; When evaporimeter A ambient air turns cold, also there is the globule to separate out, be precipitated the air of the globule discharged to outdoor; Refrigerant, after condenser A effect, becomes the gas of low-temp low-pressure, through cross valve interface c, then gets back to compressor A by interface d, then continues circulation;

When dehumidifier/air-conditioning system B work, interface e, the h of cross valve B is communicated with, when interface f, g are communicated with: refrigerant changes the gas of high temperature, high pressure into by compressor B compression, by the interface e of cross valve B, by cross valve interface, h discharges, enter condenser B, inhale cold, heat release at condenser B, make the heating of condenser B ambient air, hot-air enters air channel B, under motor B, wind wheel B effect, through air-supply joint B and connecting duct discharged to indoor; Refrigerant becomes the liquid of middle temperature, high pressure after condenser B, after capillary B step-down throttling, expanding, become the liquid of low temperature, low pressure, absorb heat, let cool through evaporimeter B, evaporimeter B ambient air is turned cold, cold air enters air channel A, under motor A, wind wheel A effect, through air-supply joint A and connecting duct discharged to outdoor; When evaporimeter B ambient air turns cold, also there is the globule to separate out, be precipitated the air of the globule discharged to outdoor; Refrigerant, after evaporimeter B effect, becomes the gas of low-temp low-pressure, through cross valve interface f, then gets back to compressor B by interface g, then continues circulation.

2. polynary dehumidifying air-conditioner according to claim 1, is characterized in that: described evaporimeter A or B size are 210*230*1 to 280*294*3mm, and condenser B or A size are 210*200*2 to 280*294*4mm.

3. polynary dehumidifying air-conditioner according to claim 1, is characterized in that: described wind wheel A thickness is 75 to 80mm, and wind wheel B thickness is 90 to 95mm.

4. polynary dehumidifying air-conditioner according to claim 1, is characterized in that: the power of described compressor A is 400 to 2600W, compressor B power be 700 to 3100W.

5. polynary dehumidifying air-conditioner according to claim 1, is characterized in that: the rotating speed of described motor A is 900 to 1000 revs/min, motor B rotating speed is 1050 to 1200 revs/min.

6. according to polynary dehumidifying air-conditioner described in claim 2,3,4 or 5, it is characterized in that: the rotating speed of power, motor A or the B of described evaporimeter A or B size, condenser B or A size, wind wheel A or B thickness, compressor A or B is 6 kinds of combinations as described in Table 1:

Table 1:

7. polynary dehumidifying air-conditioner according to claim 1, is characterized in that: described power line winding system is arranged between the compressor A and water tank A of chassis one side.

8. polynary dehumidifying air-conditioner according to claim 1, is characterized in that: described 2 universal wheels are arranged on front, bottom, chassis, described 2 horn rings are arranged on rear, bottom, chassis.