CN203980480U - Energy-saving and purifying type fresh-air ventilation air conditioner integrated machine - Google Patents

Abstract

The utility model relates to a kind of energy-saving and purifying type fresh-air ventilation air conditioner integrated machine, is made up of cooling and warming module and ventilation module; Described cooling and warming module comprises compressor, finned cooler, finned evaporator, four-way change-over valve, reservoir, device for drying and filtering, heating power expansion valve and gas-liquid separator; Described ventilation module comprises pressure fan, full-thermal type runner heat exchanger, exhaust blower, roughing-efficiency plate filter, board-like inferior high efficiency filter, fresh wind port flange, exhaust outlet flange, return air inlet flange, air outlet flange and 4 air-valves.The beneficial effects of the utility model are: collection freezes, heats, fresh-air ventilation, air cleaning, energy are recovered as one, in to room air cooling and warming, realizes fresh-air ventilation, and energy-conserving and environment-protective, Energy Efficiency Ratio are high, and benefit physical and mental health.

Description

Energy-saving and purifying type fresh-air ventilation air conditioner integrated machine

Technical field

The utility model relates to a kind of air-conditioning equipment, particularly a kind of energy-saving and purifying type fresh-air ventilation air conditioner integrated machine.

Background technology

The economic develop rapidly of current China, has also brought resource to consume excessively and waste simultaneously, and energy-saving and emission-reduction, reduction energy consumption become the top priority of society; The serious pollution of outdoor air environment, the pernicious gas moment of the discharges such as the dirt of room air and furniture finishing is being perplexed the mankind's life, affects our physical and mental health.Old friends pursue the comfortable living environment of a kind of high-quality, and especially there has been new understanding the aspect such as energy-conservation, the purification to air conditioner ventilation air regenerating device, environmental protection.

The common domestic air conditioner in current market is made up of indoor set and off-premises station, can not when cooling and warming

Fresh-air ventilation, indoor foul atmosphere row does not go out, therefore it is more and more to obtain the syndromic people of air-conditioning; Another kind is exactly fresh air ventilator, and major function is ventilation, and filtration grade is low, there is no the function of cooling and warming; In conjunction with above equipment characteristic, through technical pattern transformation, effectively integrate and be formed as one a kind of novel energy-saving and purifying type fresh-air ventilation air conditioner integrated machine.

Utility model content

The purpose of this utility model is to provide a kind of energy-saving and purifying type fresh-air ventilation air conditioner integrated machine, to overcome currently available technology above shortcomings.

The purpose of this utility model is to be achieved through the following technical solutions:

A kind of energy-saving and purifying type fresh-air ventilation air conditioner integrated machine, comprise cooling and warming module and ventilation module, described cooling and warming module comprises compressor, finned cooler, finned evaporator, four-way change-over valve, reservoir, device for drying and filtering, heating power expansion valve and gas-liquid separator, described finned evaporator is connected with described reservoir by check valve, described finned evaporator passes through check valve successively, heating power expansion valve is connected with described reservoir with described device for drying and filtering, described finned evaporator is connected with described finned cooler by check valve, described finned cooler is connected with described reservoir by check valve, described compressor is connected with described gas-liquid separator, four mouths of described four-way change-over valve are connecting respectively described finned evaporator, described finned cooler, described compressor and described gas-liquid separator, described ventilation module comprises pressure fan, full-thermal type runner heat exchanger, exhaust blower, roughing-efficiency plate filter, board-like inferior high efficiency filter, fresh wind port flange, exhaust outlet flange, return air inlet flange, air outlet flange and 4 air-valves, described air outlet flange is arranged on described ventilation module top, described fresh wind port flange and described exhaust outlet flange are arranged on described ventilation module left side, described return air inlet flange is arranged on described ventilation module right side, in in described fresh wind port flange and described return air inlet flange, be provided with roughing-efficiency plate filter, described board-like inferior high efficiency filter is arranged on described roughing-efficiency plate filter rear side, described exhaust blower is arranged on described exhaust outlet flange right side, described blower setting is at described air outlet flange rear side, described full-thermal type runner heat exchanger is arranged in the middle of described ventilation module, described full-thermal type runner heat exchanger is each side provided with air-valve.

Further, described full-thermal type runner heat exchanger left side is provided with first air-valve, described full-thermal type runner heat exchanger right side is provided with the second air-valve, the described full-thermal type runner heat exchanger right side first half is provided with the 3rd air-valve, described full-thermal type runner heat exchanger right side Lower Half is provided with the 4th air-valve, described the first air-valve and described the second air-valve are configured such that its wind direction in vertical direction, the 3rd air-valve and described the 4th air-valve are configured such that its wind direction in horizontal direction, and described the second air-valve is arranged in the middle of described the 3rd air-valve and described the 4th air-valve.

Further, described roughing-efficiency plate filter and described board-like inferior high efficiency filter are all set to drawing and pulling type.

Further, the filtration grade of described board-like inferior high efficiency filter is F8.

The beneficial effects of the utility model are: collection freezes, heats, fresh-air ventilation, air cleaning, energy are recovered as one, in to room air cooling and warming, realizes fresh-air ventilation, and energy-conserving and environment-protective, Energy Efficiency Ratio are high and benefit physical and mental health.

Brief description of the drawings

With reference to the accompanying drawings the utility model is described in further detail below.

Fig. 1 is that cutaway view is looked on the energy-saving and purifying type fresh-air ventilation air conditioner integrated machine right side described in the utility model embodiment;

Fig. 2 is the front view of the energy-saving and purifying type fresh-air ventilation air conditioner integrated machine described in the utility model embodiment;

Fig. 3 is that cutaway view is looked on a left side for the energy-saving and purifying type fresh-air ventilation air conditioner integrated machine described in the utility model embodiment;

Fig. 4 is the fresh-air ventilation air flow work schematic diagram of the energy-saving and purifying type fresh-air ventilation air conditioner integrated machine described in the utility model embodiment;

Fig. 5 is that the indoor energy-saving circulated air of the energy-saving and purifying type fresh-air ventilation air conditioner integrated machine described in the utility model embodiment flows to work schematic diagram;

In figure:

1, equipment shell; 2, pressure fan; 3, exhaust blower; 4, full-thermal type runner heat exchanger; 5, the first air-valve; 6, the second air-valve; 7, the 3rd air-valve; 8, the 4th air-valve; 9, roughing-efficiency plate filter; 10, board-like inferior high efficiency filter; 11, fresh wind port flange; 12, exhaust outlet flange; 13, return air inlet flange; 14, air outlet flange; 15, compressor; 16, finned cooler; 17, finned evaporator; 18, four-way change-over valve; 19, reservoir; 20, device for drying and filtering; 21, heating power expansion valve; 22, check valve; 23, check valve; 24, check valve; 25, check valve; 26, gas-liquid separator; 27, electric cabinet.

Detailed description of the invention

As Figure 1-Figure 5, a kind of energy-saving and purifying type fresh-air ventilation air conditioner integrated machine described in the utility model, comprise cooling and warming module and ventilation module, described cooling and warming module comprises compressor 15, finned cooler 16, finned evaporator 17, four-way change-over valve 18, reservoir 19, device for drying and filtering 20, heating power expansion valve 21 and gas-liquid separator 26, described finned evaporator 17 is connected with described reservoir 19 by check valve 23, described finned evaporator 17 is successively by check valve 22, heating power expansion valve 21 is connected with described reservoir 19 with described device for drying and filtering 20, described finned evaporator 17 is connected with described finned cooler 16 by check valve 25, described finned cooler 16 is connected with described reservoir 19 by check valve 24, described compressor 15 is connected with described gas-liquid separator 26, four mouths of described four-way change-over valve 18 are connecting respectively described finned evaporator 17, described finned cooler 16, described compressor 15 and described gas-liquid separator 26, described ventilation module comprises pressure fan 14, full-thermal type runner heat exchanger 4, exhaust blower 3, roughing-efficiency plate filter 9, board-like inferior high efficiency filter 10, fresh wind port flange 11, exhaust outlet flange 12, return air inlet flange 13, air outlet flange 14, the first air-valve 5, the second air-valve 6, the 3rd air-valve 7, with the 4th air-valve 8, described air outlet flange 14 is arranged on described ventilation module top, described fresh wind port flange 11 and described exhaust outlet flange 12 are arranged on described ventilation module left side, described return air inlet flange 13 is arranged on described ventilation module right side, in described fresh wind port flange 11 and described return air inlet flange interior 13, be provided with roughing-efficiency plate filter 9, described board-like inferior high efficiency filter 10 is arranged on described roughing-efficiency plate filter 9 rear sides, described exhaust blower 3 is arranged on described exhaust outlet flange 12 right sides, described pressure fan 2 is arranged on described air outlet flange 14 rear sides, described full-thermal type runner heat exchanger 4 is arranged in the middle of described ventilation module, described full-thermal type runner heat exchanger 4 left sides are provided with the first air-valve 5, described full-thermal type runner heat exchanger 4 right sides are provided with the second air-valve 6, the described full-thermal type runner heat exchanger 4 right side first halves are provided with the 3rd air-valve 7, described full-thermal type runner heat exchanger 4 right side Lower Halves are provided with the 4th air-valve 8, described the first air-valve 5 and described the second air-valve 6 are configured such that its wind direction in vertical direction, the 3rd air-valve 7 and described the 4th air-valve 8 are configured such that its wind direction in horizontal direction, described the second air-valve 6 is arranged in the middle of described the 3rd air-valve 7 and described the 4th air-valve 8, described roughing-efficiency plate filter 9 and described board-like inferior high efficiency filter 10 are all set to drawing and pulling type, the filtration grade of described board-like inferior high efficiency filter 10 is F8.

When concrete use, in the time that needs freeze to room air, cold-producing medium is compressed into high pressure, high temperature liquid through described compressor 15, the liquid of compressed mistake flows to described finned cooler 16 through described four-way change-over valve 18, in described finned cooler 16 after condensation heat release, flow to described reservoir 19 through described check valve 24, after described device for drying and filtering 20 and described heating power expansion valve 21 reducing pressure by regulating flows, form refrigerant air-liquid mixture again, the gas-liquid mixture forming flows to described finned evaporator 17 through described check valve 22, the explosive evaporation of absorbing heat in described finned evaporator 17, room air is lowered the temperature, refrigerant vapour after explosive evaporation flows to described gas-liquid separator 26 through described four-way change-over valve 18 again, sucked and enter next kind of refrigeration cycle by described compressor 15 air entries again.

In the time that needs heat room air, cold-producing medium is compressed into high pressure, high temperature liquid through described compressor 15, the liquid of compressed mistake flows to described finned evaporator 17 through described four-way change-over valve 18, in described finned evaporator 17 after condensation heat release, room air is heated up, cold-producing medium flows to described reservoir 19 through described check valve 23 afterwards, after described device for drying and filtering 20 and described heating power expansion valve 21 reducing pressure by regulating flows, form refrigerant air-liquid mixture again, the gas-liquid mixture forming is through described unidirectional, 25 flow to described finned cooler 16, the explosive evaporation of absorbing heat in described finned cooler 16, and flow to gas-liquid separator 26 through described four-way change-over valve 18, enter the next one and heat circulation being sucked by described compressor 15 air entries.

In refrigeration or in heating, need to be to the new wind of indoor introducing time, close described the first air-valve 5 and described the second air-valve 6, open described the 3rd air-valve 7 and described the 4th air-valve 8, start described full-thermal type runner heat exchanger 4, new general mood stream from described fresh wind port flange 11 after described roughing-efficiency plate filter 9 and described board-like inferior high efficiency filter 10 filter layer by layer, pass through again described full-thermal type runner heat exchanger 4, the 3rd air-valve 7 and finned evaporator 17, be warmed, cooling, the fresh air for the treatment of and purification, send into indoor by described pressure fan 2 through described air outlet flange 14 again.The air of indoor dirt is from described return air inlet flange 13, successively through described roughing-efficiency plate filter 9, described the 4th air-valve 8, described full-thermal type runner heat exchanger 4 and described finned cooler 16, by described exhaust blower 3 by outside indoor foul atmosphere discharge chamber.By the circulation between outdoor new wind and indoor return air, indoor return air is when crossing full-thermal type runner heat exchanger 4, the cold and hot amount of part in return air is absorbed by full-thermal type runner heat exchanger 4 Lower Halves, pass through Motor Drive, the cold and hot amount that Lower Half absorbs is transferred to the first half by rotation, outdoor new wind by process absorbs, new air temperature is raise or reduce get back to again indoor, so both effectively save the loss of indoor temperature energy, when having reached again refrigeration or heated, carried out the object of indoor fresh air ventilating.

Do not need cooling and warming, but while needing fresh-air ventilation, close described full-thermal type runner heat exchanger 4, described the first air-valve 5 and described the second air-valve 6, open the 3rd air-valve 7 and the 4th air-valve 8.New general mood stream passes through successively described full-thermal type runner heat exchanger 4, described the 3rd air-valve 7 and described finned evaporator 17 from described fresh wind port flange 9 after described roughing-efficiency plate filter 9 and board-like inferior high efficiency filter 10 filter layer by layer, passes through described air outlet flange 14 send into indoor by described pressure fan 2.The air of indoor dirt is successively through described return air inlet flange 13, described roughing-efficiency plate filter 9, described the 4th air-valve 8, described full-thermal type runner heat exchanger 4 and described finned cooler 16, by described exhaust blower 3 by outside indoor foul atmosphere discharge chamber.Mutual circulation between outdoor new wind and indoor return air, has reached the exhale the old and inhale the new object of fresh-air ventilation of room air.

The utility model equipment is applicable to outdoor placement, is applicable to house villa, and small-sized club, meeting room, office building apartment etc. are widely applicable, easy to maintenance, take up room little, flexible for installation, energy-conserving and environment-protective, and connecting airduct can use.

The utility model is not limited to above-mentioned preferred forms; anyone can draw other various forms of products under enlightenment of the present utility model; no matter but do any variation in its shape or structure; every have identical with a application or akin technical scheme, within all dropping on protection domain of the present utility model.

Claims (4)

1. an energy-saving and purifying type fresh-air ventilation air conditioner integrated machine, comprise cooling and warming module and ventilation module, it is characterized in that: described cooling and warming module comprises compressor (15), finned cooler (16), finned evaporator (17), four-way change-over valve (18), reservoir (19), device for drying and filtering (20), heating power expansion valve (21) and gas-liquid separator (26), described finned evaporator (17) is connected with described reservoir (19) by check valve (23), described finned evaporator (17) is successively by check valve (22), heating power expansion valve (21) is connected with described reservoir (19) with described device for drying and filtering (20), described finned evaporator (17) is connected with described finned cooler (16) by check valve (25), described finned cooler (16) is connected with described reservoir (19) by check valve (24), described compressor (15) is connected with described gas-liquid separator (26), four mouths of described four-way change-over valve (18) are connecting respectively described finned evaporator (17), described finned cooler (16), described compressor (15) and described gas-liquid separator (26), described ventilation module comprises pressure fan (14), full-thermal type runner heat exchanger (4), exhaust blower (3), roughing-efficiency plate filter (9), board-like inferior high efficiency filter (10), fresh wind port flange (11), exhaust outlet flange (12), return air inlet flange (13), air outlet flange (14) and 4 air-valves, described air outlet flange (14) is arranged on described ventilation module top, described fresh wind port flange (11) and described exhaust outlet flange (12) are arranged on described ventilation module left side, described return air inlet flange (13) is arranged on described ventilation module right side, in described fresh wind port flange (11) and described return air inlet flange, in (13), be provided with roughing-efficiency plate filter (9), described board-like inferior high efficiency filter (10) is arranged on described roughing-efficiency plate filter (9) rear side, described exhaust blower (3) is arranged on described exhaust outlet flange (12) right side, described pressure fan (2) is arranged on described air outlet flange (14) rear side, described full-thermal type runner heat exchanger (4) is arranged in the middle of described ventilation module, described full-thermal type runner heat exchanger (4) is each side provided with air-valve.

2. energy-saving and purifying type fresh-air ventilation air conditioner integrated machine according to claim 1, it is characterized in that: described full-thermal type runner heat exchanger (4) left side is provided with the first air-valve (5), described full-thermal type runner heat exchanger (4) right side is provided with the second air-valve (6), described full-thermal type runner heat exchanger (4) the right side first half is provided with the 3rd air-valve (7), described full-thermal type runner heat exchanger (4) right side Lower Half is provided with the 4th air-valve (8), described the first air-valve (5) and described the second air-valve (6) are configured such that its wind direction in vertical direction, the 3rd air-valve (7) and described the 4th air-valve (8) are configured such that its wind direction in horizontal direction, described the second air-valve (6) is arranged in the middle of described the 3rd air-valve (7) and described the 4th air-valve (8).

3. energy-saving and purifying type fresh-air ventilation air conditioner integrated machine according to claim 2, is characterized in that: described roughing-efficiency plate filter (9) and described board-like inferior high efficiency filter (10) are all set to drawing and pulling type.

4. energy-saving and purifying type fresh-air ventilation air conditioner integrated machine according to claim 3, is characterized in that: the filtration grade of described board-like inferior high efficiency filter (10) is F8.