CN209147322U - A kind of energy-efficient air conditioner group - Google Patents

A kind of energy-efficient air conditioner group Download PDF

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Publication number
CN209147322U
CN209147322U CN201821803574.2U CN201821803574U CN209147322U CN 209147322 U CN209147322 U CN 209147322U CN 201821803574 U CN201821803574 U CN 201821803574U CN 209147322 U CN209147322 U CN 209147322U
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China
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air
heat
box
accumulation
energy
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于瑞玲
梁宏伟
马桂凤
赵岩
王瑞
王新军
彭展
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Dezhou University
Shandong Grad Group Co Ltd
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Dezhou University
Shandong Grad Group Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers

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Abstract

The utility model relates to a kind of energy-efficient air conditioner groups, including air exhaust box, new bellows, air-intaking box, wind pushing box, heat exchange device for air, solar heat-collection and heat-accumulation heating device and accumulation of heat heat-storing device, the air exhaust box is connected to by the heat exchange device for air with the air-intaking box, is connected between three by outer circulation backwind tube;The wind pushing box is connected to by the heat exchange device for air with the new bellows, is connected between three by fresh air air supply tube;Heat pipe and heating air duct are equipped in the heat-storing material layer of the solar heat-collection and heat-accumulation heating device, the heat pipe top is connected to the water storage liner of the accumulation of heat heat-storing device, and the heating air duct is arranged in parallel with the fresh air air supply tube;The utility model meets hot water demand throughout the year using clean energy resource solar-heating, while when air themperature is lower, blows to fresh air and assists heating, saves the energy.

Description

A kind of energy-efficient air conditioner group
Technical field
The utility model relates to air conditioner technical field more particularly to a kind of energy-efficient air conditioner groups.
Background technique
Currently, domestic refrigeration air-conditioning, domestic hot water's equipment, household fresh air, case inner air-cleaning, dehumidification equipment are built in house It is widely used in building, these equipment improve the air quality of living space, the comfort level of inhabitation, but each equipment is only It is more that vertical installation occupies space in case in the case, and controls mutually indepedent.
Solar energy is widely used in the production of family life hot water, in some fresh air systems as the free energy is cleaned Also have application in system, be mainly used for auxiliary heating fresh air, but it is general also only utilize solar energy during the cold season, summer etc. no It needs to heat the season of fresh air, solar energy just leaves unused, it is therefore desirable to it is maximized to solve the problems, such as that solar energy is applied throughout the year.
Summary of the invention
In order to solve deficiency in the prior art, the purpose of this utility model is to provide a kind of energy-efficient air conditioners Group integrates solar energy equipment and air-conditioning equipment, and solar energy is made full use of to carry out auxiliary heating to air-conditioning system.
The technical scheme adopted by the utility model to solve the technical problem is as follows:
A kind of energy-efficient air conditioner group, including air exhaust box, new bellows, air-intaking box, wind pushing box, heat exchange device for air, Solar heat-collection and heat-accumulation heating device and accumulation of heat heat-storing device, it is characterised in that:
The air exhaust box is connected to by the heat exchange device for air with the air-intaking box, is returned between three by outer circulation Air hose connection, is equipped with condenser in the air exhaust box, and air exhaust box side is additionally provided with an air inlet and matched with the air inlet Volume damper;
The wind pushing box is connected to by the heat exchange device for air with the new bellows, is blown between three by fresh air Pipe connection, the wind pushing box is interior to be equipped with the first surface air cooler and the second surface air cooler, and first surface air cooler passes through hot water heating and recycles Pipeline is connected to the water storage liner of accumulation of heat heat-storing device, and second surface air cooler passes through refrigerant circulation line and the condenser Connection;
Heat pipe and heating air duct, the heat pipe top are equipped in the heat-storing material layer of the solar heat-collection and heat-accumulation heating device End is connected to the water storage liner of the accumulation of heat heat-storing device, and the heating air duct is arranged in parallel with the fresh air air supply tube, heating It is equipped with volume damper at the air inlet and air outlet in air duct and is connected to the fresh air air supply tube.
The link position with fresh air air supply tube, and the wind is arranged in the volume damper of the air inlet of the heating air duct Adjustable valve is threeway volume damper.
The fresh wind tube connecting in the air exhaust box with air inlet, fresh wind tube middle part is arranged side by side with exhaust blower, outside fresh wind tube Side opening is located in air exhaust box outer lateral side, and fresh wind tube medial end opening is located at the exhaust blower back side of air exhaust box.
The accumulation of heat heat-storing device is equipped with the heat pipe for connecting with the heat pipe top seal in water storage liner side wall Casing.
The accumulation of heat heat-storing device includes the shell for accommodating the water storage liner, is enclosed with accumulation of heat on the outside of water storage liner Layer has insulating layer between recuperation layer outside and inner walls.
The circulating water intake, circulating water outlet, hot water connecting with water storage liner is additionally provided on the accumulation of heat heat-storing device to supply Water interface and cold water moisturizing interface.
The accumulation of heat heat-storing device is additionally provided with auxiliary electric heater unit inside water storage liner.
The solar heat-collection and heat-accumulation heating device include be mounted on the glass cover-plate layer set gradually in collector frame, Heat absorbing core plate layer, heat-storing material layer and insulating layer, the glass cover-plate side are located at solar heat-collection and heat-accumulation heating device Outside.
At least one intermediate air port between air inlet and air outlet, intermediate wind are additionally provided in the middle part of the heating air duct It is equipped with volume damper at mouthful and is connected to the fresh air air supply tube.
Air cleaning unit is respectively equipped in the new bellows, air-intaking box.
The air-intaking box is also connected to the wind pushing box, and is divided between air-intaking box and the wind pushing box, outer circulation backwind tube It She You not volume damper.
The air-intaking box is connected to by fresh air air supply tube with the wind pushing box, and the air quantity tune between air-intaking box and wind pushing box Section valve is a threeway volume damper being connected to fresh air air supply tube.
The air exhaust box, new bellows, air-intaking box, wind pushing box, heat exchange device for air and accumulation of heat heat-storing device are arranged one Inside unit box body, solar heat-collection and heat-accumulation heating device is arranged in unit box body exterior side wall, on the inside of the unit box body Side wall is equipped with air port corresponding with wind pushing box and air-intaking box, and unit box body outside side wall is equipped with and air exhaust box and new bellows pair The air port answered and the solar heat-collection and heat-accumulation heating device.
It is further respectively had in the unit box body inside side walls one-to-one with hot water water supply interface, cold water moisturizing interface Interface.
In conclusion the beneficial effects of the utility model are:
1. meet hot water demand throughout the year using clean energy resource solar-heating, while when air themperature is lower, It blows to fresh air and assists heating, save the energy.
2. using heat storage technology, solar heat is stored, realizes the continuity of heat supply.
3. it is conducted heat between solar heat-collection and heat-accumulation heating device and accumulation of heat heat-storing device using heat pipe, heat transfer rate Fastly, system is stablized.
4. being respectively equipped with air cleaning unit in new bellows, air-intaking box, make indoor return air and outdoor fresh air cleanliness Reach PM2.5 requirement, keeps the air purity in case.
5. the energy-efficient air conditioner group is an integrated entirety, it can be embedded in and be assemblied in wall, constitute assembled A part of construction wall reduces the occupied space of unit.
6, secondary recuperation of heat is realized by heat exchange device for air, reduces unnecessary energy consumption.
Detailed description of the invention
The present invention will be further described with reference to the accompanying drawings and examples.
Fig. 1 is the structural schematic diagram of unit box body (no side panel).
Fig. 2 is the backside configuration schematic diagram of unit box body.
Fig. 3 is the system structure diagram of the utility model.
Fig. 4 is the schematic diagram of the section structure of accumulation of heat heat-storing device.
Fig. 5 is the schematic diagram of the section structure of solar heat-collection and heat-accumulation heating device.
Fig. 6 is the system principle schematic diagram of solar energy domestic hot-water supply operation.
Fig. 7 is the system principle schematic diagram of fresh air air-supply operation.
Fig. 8 is the system principle schematic diagram of solar ventiduct auxiliary heating fresh air operation.
Fig. 9 is air-conditioning heating+solar ventiduct auxiliary heating fresh air operation system principle schematic diagram.
Figure 10 is air conditioner refrigerating+fresh air air-supply operation system principle schematic diagram.
Figure 11 is air-conditioning heating+hot water auxiliary heating operation system principle schematic diagram.
Figure 12 is air conditioner refrigerating/dehumidifying operation system principle schematic diagram.
In figure:
1, accumulation of heat heat-storing device, 2, solar heat-collection and heat-accumulation heating device, 3, air exhaust box, 4, new bellows, 5, the friendship of air heat Changing device, 6, air-intaking box, 7, wind pushing box, 9, fresh air air supply tube, 10, refrigerant line, 11, outer circulation backwind tube, 12, hot water confession Thermal cycle pipeline, 13, unit box body, the 14, first air port, 15, interface, the 16, second air port;
101, shell, 102, insulating layer, 103, water storage liner, 104, circulating water intake, 105, cold water moisturizing interface, 106, Heat pipe casing, 107, hot water water supply interface, 108, circulating water outlet, 109, auxiliary electric heater unit, 110, recuperation layer;
201, glass cover-plate layer, 202, heat absorbing core plate layer, 203, heat-storing material layer, 204, insulating layer, 205, heat pipe, 206, Heating air duct, 207, collector frame;
301, condenser, 302, exhaust blower, 303, air inlet, 304, exhaust outlet;
401, air cleaning unit, 402, pressure fan, 403, fresh air air inlet;
601, air cleaning unit, 602, return air inlet;
701, the first surface air cooler, the 702, second surface air cooler, 703, air outlet;
801, the first volume damper, the 802, second volume damper, 803, third volume damper, the 804, the 4th air quantity Regulating valve, the 805, the 5th volume damper, the 806, the 6th volume damper.
Specific embodiment
The embodiments of the present invention is illustrated by particular specific embodiment below, those skilled in the art can be by this Content disclosed by specification understands other advantages and effect of the utility model easily.
According to Fig. 1 to Fig. 5: present embodiment discloses a kind of energy-efficient air conditioner groups, comprising:
Air exhaust box 3, air exhaust box 3 have exhaust outlet 304 and air inlet 303, and exhaust outlet 304 and air inlet 303 are located at same On side, exhaust blower 302, condenser 301 and the fresh wind tube connecting with air inlet 303, fresh wind tube middle part are equipped with inside air exhaust box 3 It is arranged side by side with exhaust blower 302, the air side of exhaust blower 302 is correspondingly arranged with exhaust outlet 304 and is equipped between the two described cold Condenser 301, fresh wind tube medial end opening is located at 302 back side of exhaust blower and fresh wind tube medial end opening is equipped with the 6th air quantity Regulating valve 806, air exhaust box 3 are equipped with the opening being connected to outer circulation backwind tube 11, the opening and air inlet in 302 back side of exhaust blower 303, which are used to the air inlet of air exhaust box 3, uses, and air inlet a part comes from indoor return air from outdoor, a part, can be between air draft Wind cooling temperature lowering is carried out to condenser 301;
New bellows 4, are fresh air air inlet 403 on the outside of new bellows 4, are opened on the inside of new bellows 4 with what fresh air air supply tube 9 was connected to Mouthful, the opening side of new bellows 4 is equipped with pressure fan 402, and is equipped with from fresh air air inlet 403 between opening inside new bellows 4 Air cleaning unit 401, air cleaning unit 401 include that primary filter, high efficiency particulate air filter, charcoal adsorption filter plate and electrostatic remove Dirt device, air cleaning unit 401 are mounted on inside new bellows 4 by bracket insertion, for being filtered purification to fresh air, are protected Hinder New atmosphere quality, while above-mentioned air cleaning unit 401 can also be replaced using other materials with the same function or device;
Air-intaking box 6, on front side of air-intaking box 6 for the indoor return air inlet 602 being connected to, 6 back side of air-intaking box is equipped with and outer circulation is returned The opening that air hose 11 is connected to, and from return air inlet 602 to air cleaning unit 601 is equipped between opening inside air-intaking box 6, air is net It includes primary filter that makeup, which sets 601, and air cleaning unit 601 is mounted on inside air-intaking box 6 by bracket insertion, due to interior Air quality is relatively high, can generally be filtered to indoor return air by primary filter, ensures that air draft quality does not influence Surrounding enviroment simultaneously meet again using requirement, while the air of other functions can also be selectively installed according to indoor air quality Purification device 601;
Further, the air-intaking box 6 is also connected to the wind pushing box 7, and is divided between air-intaking box 6 and the wind pushing box 7 Not She You the 5th volume damper 805, between air-intaking box 6 and outer circulation backwind tube 11 be equipped with the 4th volume damper 804,
Wherein, the air-intaking box 6 is connected to by fresh air air supply tube 9 with the wind pushing box 7, and air-intaking box 6 and wind pushing box 7 it Between the 5th volume damper 805 be a threeway volume damper being connected to fresh air air supply tube 9.
Wind pushing box 7, on front side of wind pushing box 7 for indoor the second surface air cooler 703 being connected to, 6 back side of air-intaking box is equipped with and fresh air The opening that air supply tube 9 is connected to, and from the second surface air cooler 703 to being equipped with the first surface air cooler 701 and the between opening inside wind pushing box 7 Two surface air coolers 702, wherein first surface air cooler 701 passes through in the water storage of hot water heating circulation line and accumulation of heat heat-storing device 1 Gallbladder 103 is connected to, and hot water heating circulation line, which is equipped with components, first surface air coolers 701 such as valve and delivery pump, can pass through water storage Hot water circuit in liner 103 realizes the heating to air, second surface air cooler 702 by refrigerant circulation line with it is described Condenser 301 is connected to, and refrigerant circulation line is equipped with the air-conditioning systems groups such as compressor, expansion valve, liquid storage device, gs-oil separator Part, the state change that the second surface air cooler 702 then fits through refrigerant with condenser 301 realize the heating to air;
Heat exchange device for air 5, the fresh air and outer circulation that heat exchange device for air 5 is mainly used in fresh air air supply tube 9 are returned Return air in air hose 11 carries out heat exchange use, continues to use for the partial heat in return air to be transferred in fresh air, improves Efficiency of heating- utilization, the air exhaust box 3 are connected to by the heat exchange device for air 5 with the air-intaking box 6, by outer between three It is recycled back to the connection of air hose 11, the wind pushing box 7 is connected to by the heat exchange device for air 5 with the new bellows 4, between three It is connected to by fresh air air supply tube 9, the air in fresh air air supply tube 9 and outer circulation backwind tube 11 passes through heat exchange device for air 5 Heat exchanging core realizes heat exchange;
Solar heat-collection and heat-accumulation heating device 2, solar heat-collection and heat-accumulation heating device 2 include being mounted on collector frame Glass cover-plate layer 201, heat absorbing core plate layer 202, heat-storing material layer 203 and the insulating layer 204 set gradually in 207, the glass Side where cover board is located at 2 outside of solar heat-collection and heat-accumulation heating device, and glass cover-plate uses dual-layer vacuum glass cover board, institute It states and is additionally provided with heat pipe 205 and heating air duct 206 in heat-storing material layer 203, the heat pipe 205 and the accumulation of heat heat-storing device 1 Water storage liner 103 is connected to, and 103 side wall of water storage liner is equipped with the heat pipe casing for connecting with 205 top seal of heat pipe 106,205 tip portion of heat pipe is located inside water storage liner 103, and heat pipe 205 is used to convey the heat in heat-storing material layer 203 To water storage liner 103;The heating air duct 206 is arranged in parallel with the fresh air air supply tube 9, and 206 one end of heating air duct is logical It crosses fresh air air supply tube 9 to be connected to heat exchange device for air 5,206 other end of heating air duct passes through fresh air air supply tube 9 and wind pushing box 7 Connection, the air inlet of heating air duct 206 are equipped with the first volume damper 801, and the setting of the first volume damper 801 is sent with fresh air The link position of air hose 9, and the first volume damper 801 is threeway volume damper, is equipped at the air outlet of heating air duct 206 Second volume damper 802;
An intermediate air port between air inlet and air outlet, intermediate wind are additionally provided in the middle part of the heating air duct 206 It is equipped with third volume damper 803 at mouthful and is connected to the fresh air air supply tube 9, the air inlet in intermediate air port and heating air duct 206 Length between mouthful is relatively short;
Accumulation of heat heat-storing device 1, the shell 101 including water storage liner 103 and for accommodating the water storage liner 103, water storage Be enclosed with recuperation layer 110 on the outside of liner 103, recuperation layer 110 uses phase change heat storage material, 110 outside of recuperation layer in shell 101 There is insulating layer 102 between wall, the circulating water intake connecting with water storage liner 103 is additionally provided on accumulation of heat heat-storing device 1 104, circulating water outlet 108, hot water water supply interface 107 and cold water moisturizing interface 105, cold water moisturizing interface 105 is in water storage 103 inside moisturizing of gallbladder uses, and hot water water supply interface 107 is exported for domestic hot-water and used, and circulating water intake 104, recirculated water go out Mouthfuls 108 with hot water heating circulation line both ends for connecting, can will be inside delivery to the first surface air cooler 701;Storage It is additionally provided with auxiliary electric heater unit 109 inside water liner 103, is used for electric heating hot water preparing.
Further, the air exhaust box 3, new bellows 4, air-intaking box 6, wind pushing box 7, heat exchange device for air 5 and accumulation of heat storage Thermal 1 is arranged inside a unit box body 13, and solar heat-collection and heat-accumulation heating device 2 is arranged in 13 exterior side wall of unit box body On, 13 inside side walls of unit box body are equipped with first air port 14 corresponding with wind pushing box 7 and air-intaking box 6 and and hot water Water supply interface 107, the one-to-one interface 15 of cold water moisturizing interface 105,13 outside side wall of unit box body are equipped with and air exhaust box 3 With corresponding second air port 16 of new bellows 4 and the solar heat-collection and heat-accumulation heating device 2, inside the unit box body 13 Inside is additionally provided with electric cabinet, is equipped with the control panel installing port being correspondingly arranged with the electric cabinet on the inside of unit box body 13, is used for people Machine is used interchangeably, with this configuration by air exhaust box 3, new bellows 4, air-intaking box 6, wind pushing box 7, heat exchange device for air 5, solar energy Heat-collection and heat-accumulation heating device 2 and accumulation of heat heat-storing device 1 are integrated into an entirety, conveniently install and use, and reduce unit occupancy Space.
Utility model works principle is as follows:
One, domestic hot-water's production work process
According to Fig. 3 and Fig. 6, solar-heating process, preferentially by heat exchanger core in solar heat-collection and heat-accumulation heating device 2 Plate layer 202 absorbs the heat of solar energy, passes to the bringing-up section of heat pipe 205, heat is rapidly transmitted to from the bringing-up section of heat pipe 205 Condensation segment, by the close contact with heat pipe 205, heat pipe casing 106 discharges the water in heat water storage liner 103;Simultaneously Heat-storing material layer 203 can absorb the heat storage of a part of solar energy in solar heat-collection and heat-accumulation heating device 2, can be in evening Between continue heat supply;In order to reduce the volume of heat accumulation regenerative apparatus, in the accumulation of heat of the external setting certain volume of water storage liner 103 Layer 110 starts accumulation of heat when the temperature of water storage liner 103 reaches phase change heat storage material regenerator temperature.
Heat-storing material heat supplying process, in water storage liner 103 after water temperature drop, in solar heat-collection and heat-accumulation heating device 2 Recuperation layer 110 starts heat release in heat-storing material layer 203 and heat accumulation regenerative apparatus, when water temperature is equal to the temperature of heat-storing material or discharges Until heat.
Auxiliary electrical heater heat supplying process, when water temperature is lower than the set temperature of auxiliary electric heater unit 109 in water storage liner 103 When, starting auxiliary electric heater unit 109 is automatically controlled, when water temperature reaches the closing temperature of auxiliary electrical heater setting, auxiliary electricity Heating device 109 is closed.
Two, fresh air air-supply workflow
According to Fig. 3 and Fig. 7, fresh air working condition principle: according to control condition, when reaching fresh air entry condition, newly Exhaust blower 302 is started to work in pressure fan 402 and air exhaust box 3 in bellows 4, and the first volume damper 801 leads to solar energy heating While the air hose of accumulation of heat heating device 2 is closed, the air hose that the first volume damper 801 leads to wind pushing box 7 is opened, net through air The fresh air that 401 filtration, purifications are set in makeup is sent into user room via heat exchange device for air 5, fresh air air supply tube 9, wind pushing box 7;Together When, for the air of foul indoor by return air inlet 602, a part is sent into user room via the 5th volume damper 805, wind pushing box 7 Interior, another part is discharged to through the 4th volume damper 804, outer circulation backwind tube 11, heat exchange device for air 5, exhaust outlet 304 The aperture of outdoor, stroke valve sum requires to automatically adjust according to the control of fresh air volume.
According to Fig. 3 and Fig. 8, fresh air working condition principle: according to control condition, reaches fresh air starting and solar energy adds When hot fresh air condition, exhaust blower 302 is started to work in pressure fan 402 and air exhaust box 3 in fresh air air inlet filtering device, the first air quantity While regulating valve 801 leads to 2 air hose of solar heat-collection and heat-accumulation heating device opening, the first volume damper 801 leads to air-supply The air hose of case 7 is closed, and the second volume damper 802, third volume damper 803 are opened according to control condition, through air cleaning The fresh air of 401 filtration, purification of device is via heat exchange device for air 5,2 reheating of solar heat-collection and heat-accumulation heating device, air-supply Case 7 is sent into user room, meanwhile, the air of foul indoor is outdoor by approach identical with fresh air working condition discharge.
According to Fig. 3 and Fig. 9, fresh air working condition principle: according to control condition, reach fresh air starting and air-conditioning heating When condition, exhaust blower 302 is started to work in pressure fan 402 and air exhaust box 3 in fresh air air inlet filtering device, while air exhaust box 3 is opened Begin to heat, while the first volume damper 801 leads to 2 air hose of solar heat-collection and heat-accumulation heating device opening, the first air quantity tune The air hose that section valve 801 leads to wind pushing box 7 is closed, and the second volume damper 802, third volume damper 803 are according to control condition It opens, wind pushing box 7 starts, and the fresh air through 401 filtration, purification of air cleaning unit is via heat exchange device for air 5, solar energy collection 2 reheating of thermal regenerator heating device, wind pushing box 7 are sent into user room, meanwhile, the air of foul indoor passes through to work with fresh air State and the identical approach discharge of state are outdoor.However, the 6th volume damper 806 is opened in heating operations, air exhaust box 3 In exhaust blower 302 entered the wind from the return air exhaust outlet of air inlet 303 and heat exchange device for air 5, sky is discharged from exhaust outlet 304 Gas.In the process, it is more cleverly fresh air return air after heat exchange device for air 5 carries out a heat recovery, is passing through Secondary heat recovery is carried out again during air exhaust box 3, thermal loss is effectively reduced, improves the energy-saving effect of equipment.
According to Fig. 3 and Figure 10, fresh air working condition principle: according to control condition, reach fresh air starting and air-conditioning system When cool condition, exhaust blower 302 is started to work in pressure fan 402 and air exhaust box 3 in fresh air air inlet filtering device, while air exhaust box 3 Start to freeze, while the air hose that the first volume damper 801 leads to solar heat-collection and heat-accumulation heating device 2 is closed, the first wind The air hose that adjustable valve 801 leads to wind pushing box 7 is opened, and the second volume damper 802, third volume damper 803 are closed, through sky The fresh air of 401 filtration, purification of air purifying apparatus is sent into user room via heat exchange device for air 5, fresh air air supply tube 9, wind pushing box 7 It is interior, meanwhile, the air of foul indoor, which passes through, is discharged outdoor with approach identical in fresh air working condition, state and state.With it is new Similarly, fresh air return air is passing through 3 process of air exhaust box after heat exchange device for air 5 carries out a cold recovery to wind working condition In again carry out secondary cold recovery, effectively reduce the loss of cooling capacity, improve the energy-saving effect of equipment.
Three, workflow is heated
According to Fig. 3 and Figure 11, work status principle is heated: air-conditioning heating, air-conditioning heating are started according to control condition Principle is obvious technology, is not described herein, and the 4th volume damper 804 is closed, and switches the 5th volume damper 805, the channel of fresh air air supply tube 9 and wind pushing box 7 is closed, the channel of air-intaking box 6 and wind pushing box 7 is opened, starting room air follows Ring.Meanwhile accumulation of heat heat-storing device 1 is connected to the second surface air cooler 702 in wind pushing box 7 by hot water heating circulating line 12, in sky When modulation heat is not able to satisfy temperature requirement, according to control condition, start the circulating pump on hot water heating circulating line 12, by accumulation of heat Delivery in heat-storing device 1 gives the second surface air cooler 702, to supplement the deficiency of air-conditioning heating amount.
Four, dehumidification work process
According to Fig. 1 and Figure 12, air exhaust box 3, the 4th air quantity tune dehumidified state working principle: are started according to control condition It saves valve 804 to close, switches the 5th volume damper 805, close the channel of fresh air air supply tube 9 and wind pushing box 7, open air-intaking box 6 With the channel of wind pushing box 7, start indoor air circulation.Dehumidification process is that obvious technology is not described herein.
The foregoing is merely the preferred embodiments of the utility model, as long as realizing the utility model with essentially identical means Purpose technical solution, belong within the protection scope of the utility model.

Claims (14)

1. a kind of energy-efficient air conditioner group, including air exhaust box, new bellows, air-intaking box, wind pushing box, heat exchange device for air, too Positive energy heat-collection and heat-accumulation heating device and accumulation of heat heat-storing device, it is characterised in that:
The air exhaust box is connected to by the heat exchange device for air with the air-intaking box, passes through outer circulation backwind tube between three Connection, is equipped with condenser in the air exhaust box, and air exhaust box side be additionally provided with an air inlet and with the matched air quantity of the air inlet Regulating valve;
The wind pushing box is connected to by the heat exchange device for air with the new bellows, is connected between three by fresh air air supply tube It is logical, the first surface air cooler and the second surface air cooler are equipped in the wind pushing box, first surface air cooler passes through hot water heating circulation line It is connected to the water storage liner of accumulation of heat heat-storing device, second surface air cooler is connected by refrigerant circulation line and the condenser It is logical;
Be equipped with heat pipe and heating air duct in the heat-storing material layer of the solar heat-collection and heat-accumulation heating device, the heat pipe top with The water storage liner of the accumulation of heat heat-storing device is connected to, and the heating air duct is arranged in parallel with the fresh air air supply tube, heating air duct Air inlet and air outlet at be equipped with volume damper and be connected to the fresh air air supply tube.
2. a kind of energy-efficient air conditioner group according to claim 1, it is characterised in that: the air inlet of the heating air duct The link position with fresh air air supply tube is arranged in the volume damper at place, and the volume damper is threeway volume damper.
3. a kind of energy-efficient air conditioner group according to claim 1, it is characterised in that: in the air exhaust box and air inlet The fresh wind tube of connection, fresh wind tube middle part are arranged side by side with exhaust blower, and fresh wind tube outer openings are located in air exhaust box outer lateral side, newly Air hose medial end opening is located at the exhaust blower back side of air exhaust box.
4. a kind of energy-efficient air conditioner group according to claim 1, it is characterised in that: the accumulation of heat heat-storing device is in storage Water side wall of inner is equipped with the heat pipe casing for connecting with the heat pipe top seal.
5. a kind of energy-efficient air conditioner group according to claim 1 or 4, it is characterised in that: the accumulation of heat heat-storing device Including the shell for accommodating the water storage liner, recuperation layer, recuperation layer outside and inner walls are enclosed on the outside of water storage liner Between have insulating layer.
6. a kind of energy-efficient air conditioner group according to claim 5, it is characterised in that: on the accumulation of heat heat-storing device also Equipped with circulating water intake, circulating water outlet, hot water water supply interface and the cold water moisturizing interface being connect with water storage liner.
7. a kind of energy-efficient air conditioner group according to claim 5, it is characterised in that: the accumulation of heat heat-storing device is in storage Auxiliary electric heater unit is additionally provided with inside water liner.
8. a kind of energy-efficient air conditioner group according to claim 1, it is characterised in that: the solar heat-collection and heat-accumulation adds Thermal includes being mounted on the glass cover-plate layer set gradually in collector frame, heat absorbing core plate layer, heat-storing material layer and heat preservation Layer, the glass cover-plate side are located on the outside of solar heat-collection and heat-accumulation heating device.
9. a kind of energy-efficient air conditioner group according to claim 1, it is characterised in that: also set in the middle part of the heating air duct Have at least one intermediate air port between air inlet and air outlet, be equipped at intermediate air port volume damper and with it is described new The connection of wind air supply tube.
10. a kind of energy-efficient air conditioner group according to claim 1, it is characterised in that: in the new bellows, air-intaking box It is respectively equipped with air cleaning unit.
11. a kind of energy-efficient air conditioner group according to claim 1, it is characterised in that: the air-intaking box also with it is described Wind pushing box connection, and volume damper is respectively equipped between air-intaking box and the wind pushing box, outer circulation backwind tube.
12. a kind of energy-efficient air conditioner group according to claim 11, it is characterised in that: the air-intaking box passes through fresh air Air supply tube is connected to the wind pushing box, and the volume damper between air-intaking box and wind pushing box is one to be connected to fresh air air supply tube Threeway volume damper.
13. a kind of energy-efficient air conditioner group according to claim 1, it is characterised in that: the air exhaust box, new bellows, Air-intaking box, wind pushing box, heat exchange device for air and accumulation of heat heat-storing device are arranged inside a unit box body, solar heat-collection and heat-accumulation Heating device is arranged in unit box body exterior side wall, and the unit box body inside side walls are equipped with and wind pushing box and air-intaking box pair The air port answered, unit box body outside side wall are equipped with air port corresponding with air exhaust box and new bellows and the solar energy heating Accumulation of heat heating device.
14. a kind of energy-efficient air conditioner group according to claim 13, it is characterised in that: side on the inside of the unit box body It is further respectively had on wall and hot water water supply interface, the one-to-one interface of cold water moisturizing interface.
CN201821803574.2U 2018-11-03 2018-11-03 A kind of energy-efficient air conditioner group Active CN209147322U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109297124A (en) * 2018-11-03 2019-02-01 德州学院 A kind of energy-efficient air conditioner group
CN111735213A (en) * 2020-04-22 2020-10-02 山西华尔绿源科技有限公司 Solar photo-thermal hot water and hot air integrated system
CN112815416A (en) * 2019-11-18 2021-05-18 胡星昭 Method for improving gas heat exchange efficiency and multifunctional liquid medium ventilator
CN114413326A (en) * 2022-03-29 2022-04-29 煤炭工业太原设计研究院集团有限公司 Solar heat pipe air conditioning system and control method thereof

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109297124A (en) * 2018-11-03 2019-02-01 德州学院 A kind of energy-efficient air conditioner group
CN109297124B (en) * 2018-11-03 2024-02-23 德州学院 High-efficiency energy-saving air conditioning unit
CN112815416A (en) * 2019-11-18 2021-05-18 胡星昭 Method for improving gas heat exchange efficiency and multifunctional liquid medium ventilator
CN111735213A (en) * 2020-04-22 2020-10-02 山西华尔绿源科技有限公司 Solar photo-thermal hot water and hot air integrated system
CN114413326A (en) * 2022-03-29 2022-04-29 煤炭工业太原设计研究院集团有限公司 Solar heat pipe air conditioning system and control method thereof

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