CN110388693B - Room air environment regulation and control system and control method thereof - Google Patents

Room air environment regulation and control system and control method thereof Download PDF

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Publication number
CN110388693B
CN110388693B CN201910623626.0A CN201910623626A CN110388693B CN 110388693 B CN110388693 B CN 110388693B CN 201910623626 A CN201910623626 A CN 201910623626A CN 110388693 B CN110388693 B CN 110388693B
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Prior art keywords
air
indoor
room
fresh air
branch
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CN110388693A (en
Inventor
甘国波
季连翔
姚柳鹏
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Blauberg Environmental Systems Suzhou Co ltd
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Blauberg Environmental Systems Suzhou Co ltd
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0035Indoor units, e.g. fan coil units characterised by introduction of outside air to the room
    • F24F1/0038Indoor units, e.g. fan coil units characterised by introduction of outside air to the room in combination with simultaneous exhaustion of inside air
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0059Indoor units, e.g. fan coil units characterised by heat exchangers
    • F24F1/0063Indoor units, e.g. fan coil units characterised by heat exchangers by the mounting or arrangement of the heat exchangers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0071Indoor units, e.g. fan coil units with means for purifying supplied air
    • F24F1/0073Indoor units, e.g. fan coil units with means for purifying supplied air characterised by the mounting or arrangement of filters
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/30Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
    • F24F11/41Defrosting; Preventing freezing
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/89Arrangement or mounting of control or safety devices
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F12/00Use of energy recovery systems in air conditioning, ventilation or screening
    • F24F12/001Use of energy recovery systems in air conditioning, ventilation or screening with heat-exchange between supplied and exhausted air
    • F24F12/006Use of energy recovery systems in air conditioning, ventilation or screening with heat-exchange between supplied and exhausted air using an air-to-air heat exchanger
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/28Arrangement or mounting of filters
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F7/00Ventilation
    • F24F7/04Ventilation with ducting systems, e.g. by double walls; with natural circulation
    • F24F7/06Ventilation with ducting systems, e.g. by double walls; with natural circulation with forced air circulation, e.g. by fan positioning of a ventilator in or against a conduit
    • F24F7/08Ventilation with ducting systems, e.g. by double walls; with natural circulation with forced air circulation, e.g. by fan positioning of a ventilator in or against a conduit with separate ducts for supplied and exhausted air with provisions for reversal of the input and output systems
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/10Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/10Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering
    • F24F8/108Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying by separation, e.g. by filtering using dry filter elements

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Air Conditioning Control Device (AREA)

Abstract

The invention provides a room air environment regulating system and a control method thereof, wherein the room air environment regulating system comprises: the indoor air conditioner comprises an air conditioner external unit, an integrated internal unit, a main controller, a room branch controller, an indoor air supply pipeline, an indoor exhaust pipeline and an indoor internal circulation return pipeline. The integrated inner machine is installed by adopting a central suspended ceiling, and fresh air of cold and heat sources is delivered to each room through an indoor air delivery pipeline. And centralized and distributed flexible management is adopted, each room realizes independent regulation and room air environment control, and energy-saving measures distributed according to needs are realized. When a user uses only one room for a long time, only the temperature, humidity and CO required by the room are set2And PM2.5 value, the system automatically opens the room branch air valve of the room, closes the room branch air valves of other rooms, operates the air conditioner external unit and the integrated internal unit at low gear, is intermittently opened, and only supplies cold and heat source fresh air for the set room, and the energy consumption of the machine is effectively saved by the scheme distributed according to the demand.

Description

Room air environment regulation and control system and control method thereof
Technical Field
The invention relates to the technical field of air purification and conditioning, in particular to a room air environment regulation and control system and a control method thereof.
Background
The concept of passive rooms, which is built on the basis of the concept of low energy consumption buildings appearing in the last 80 th century of germany, is that passive rooms should be buildings that can maintain a comfortable indoor thermal environment without active heating and air conditioning systems. Compared with the traditional building, the energy consumption of heating and refrigerating in unit square meter required by the building energy-saving system can be up to 90%. The building energy consumption of China already accounts for 33% of the total social energy consumption, the proportion of the building energy consumption of China in the total energy consumption is nearly three-fold, the building energy consumption can be converted into 11 hundred million tons of standard coal, and with the acceleration of the urbanization process, the building energy consumption proportion of China is increased to about 35%, and the building energy consumption proportion of China exceeds the energy consumption of the traffic industry. The energy consumption of the ultra-low energy consumption passive house for improving the building comfort level is only 10 percent of that of the conventional building.
The government pays attention to the passive house by virtue of excellent energy-saving indexes, and real estate developers are promoted to adopt the passive house building by subsidy and mandatory policies. The passive building has excellent sealing and heat insulating measures, and a fresh air system must be used for indoor ventilation. The fresh air device on the market generally only has a fresh air purification function, and an independent heating and refrigerating device is required to be additionally arranged indoors, so that the fresh air device cannot be well adapted to a passive room, and the energy-saving effect is poor.
Disclosure of Invention
In order to overcome the defects of the prior art, the invention aims to provide a room air environment regulating system and a control method thereof.
In order to achieve the purpose, the technical scheme adopted by the invention for solving the technical problems is as follows: a room air environment conditioning system comprising:
an air conditioner external unit and an integrated internal unit; the air conditioner external unit is connected with an internal unit heat exchanger of the integrated internal unit through a refrigerant pipe to form a heat circulation loop;
a main controller;
a room branching controller provided in each room of a building;
the main interface of the indoor air supply pipeline is connected to an indoor air supply port of the integrated indoor unit, the branch pipelines of the indoor air supply pipeline are connected to each room, and a room branch air valve is installed at each room air outlet of the indoor air supply pipeline;
the main interface of the indoor air exhaust pipeline is connected to an indoor air return air inlet of the integrated indoor unit, and branch pipelines of the indoor air exhaust pipeline are connected to each room;
the main interface of the indoor internal circulation return pipeline is connected to an indoor internal circulation air port of the integrated internal machine;
the main controller is in signal connection with the air conditioner external unit, the integrated internal unit and the room branch controller, and the room branch controller is in signal connection with the room branch air valve of the same room respectively.
Compared with the prior art, the integrated indoor unit is installed by adopting the central suspended ceiling, and fresh air of cold and heat sources is delivered to each room through the indoor air delivery pipeline. And centralized and distributed flexible management is adopted, each room realizes independent regulation and room air environment control, and energy-saving measures distributed according to needs are realized. When a user uses only one room for a long time, only the temperature, humidity and CO required by the room are set2And PM2.5 value, the system automatically opens the room branch air valve of the room, closes the room branch air valves of other rooms, operates the air conditioner external unit and the integrated internal unit at low gear, is intermittently opened, and only supplies cold and heat source fresh air for the set room, and the energy consumption of the machine is effectively saved by the scheme distributed according to the demand.
Further, the integral type internal unit includes:
the indoor unit main body comprises a frame body, an upper cover and a lower cover, wherein the frame body, the upper cover and the lower cover are combined to form a fresh air duct, a mixed air duct, an exhaust air duct and a heat exchange core mounting cavity; the indoor unit main body is provided with an outdoor fresh air port, an outdoor exhaust air port, an indoor return air port, an indoor internal circulation air port and an indoor air supply port; the fresh air duct comprises a fresh air purification duct positioned at the front section and a fresh air straight branch and a fresh air heat exchange branch which are positioned at the rear section and distributed in parallel, the outdoor fresh air port is an air inlet of the fresh air duct, and air outlets at the tail end of the fresh air straight branch and the tail end of the fresh air heat exchange branch are both communicated with a fresh air inlet of the mixed air duct; the indoor air return port is an air inlet of the air exhaust duct, and the outdoor air exhaust port is an air outlet of the air exhaust duct; the fresh air heat exchange branch and the exhaust air duct both pass through the heat exchange core installation cavity; the mixed air channel comprises a mixed air inlet cavity and a mixed air outlet cavity, a fresh air inlet of the mixed air channel and the indoor internal circulation air port are communicated to the mixed air inlet cavity, and the indoor air supply air port is an air outlet of the mixed air outlet cavity;
the filter element unit is arranged in the fresh air purification air duct;
the reverse flow total heat exchange core is arranged in the heat exchange core installation cavity, a fresh air flow passage of the reverse flow total heat exchange core is in butt joint with the fresh air heat exchange branch in an end-to-end mode, an exhaust air flow passage of the reverse flow total heat exchange core is in butt joint with the exhaust air passage in an end-to-end mode, and the air flow directions of the fresh air flow passage and the exhaust air flow passage of the reverse flow total heat exchange core are opposite;
the bypass valve is arranged at the tail end of the fresh air purification air channel and is used for controlling the communication switching of the fresh air purification air channel and the fresh air straight-through branch or the fresh air heat exchange branch;
the indoor unit heat exchanger is arranged in the mixed air outlet cavity, is connected with the air conditioner outdoor unit through a refrigerant communicating pipe, and is used for refrigerating, heating or dehumidifying air;
the fresh air fan is arranged at the tail end of the fresh air duct, and an air outlet of the fresh air fan is connected with a fresh air inlet of the mixed air duct;
the internal circulation fan is arranged between a mixed air inlet cavity and a mixed air outlet cavity in the mixed air duct, an air suction port of the internal circulation fan faces the mixed air inlet cavity, and an air outlet of the internal circulation fan faces the mixed air outlet cavity;
the air exhaust fan is arranged at the tail end of the air exhaust duct, and an air outlet of the air exhaust fan faces the outdoor air exhaust port;
the fresh air valve is arranged at the outdoor fresh air inlet and is used for controlling the opening and closing of the outdoor fresh air inlet;
and the internal circulation valve is arranged at the indoor internal circulation air port and used for controlling the opening and closing of the indoor internal circulation air port.
By adopting the preferable scheme, the air conditioner external unit and the integrated internal unit are combined, multiple functions of fresh air supply, refrigeration, heating and dehumidification are provided for a passive room, and the traditional air conditioner and heating equipment are replaced. PM2.5 is effectively filtered through the filter element unit; the fresh air and the exhaust air exchange heat through the countercurrent total heat exchange core, and the exhaust air of the indoor dirty air is subjected to heat recovery; in a suitable season with the external temperature of 18-25 ℃, the fresh air heat exchange branch is closed through the bypass valve, the fresh air straight-through branch is opened, the fresh air directly flows into the room without passing through the countercurrent full-heat exchange core, the temperature can reach a comfortable temperature without cold and heat source supplement in the room, the energy-saving effect is achieved, and the emission is greatly reduced.
Further, the main controller comprises a control chip and a touch display screen.
Further, the room branch controller comprises a control chip and a display screen.
Further, temperature, humidity and CO are integrated in the room branch controller2And a PM2.5 detection sensor.
Further, the room branch controller is in two-way communication with the main controller through an RS485 communication protocol.
By adopting the preferable scheme, the adjustment and the setting of a user are facilitated.
Furthermore, the mixed air inlet cavity and the mixed air outlet cavity are horizontally stacked up and down along the thickness direction of the cavity, the fresh air fan is a forward-inclined centrifugal fan, the internal circulation fan adopts a backward-inclined centrifugal fan, the axis of the internal circulation fan is along the thickness direction of the mixed air outlet cavity, and the air outlet quantity of the internal circulation fan is 2.5-3.5 times of the air outlet quantity of the fresh air fan. And a condensed water receiving tray is arranged below the inner machine heat exchanger, and a drain pipe for draining condensed water to the outside is connected to the condensed water receiving tray.
By adopting the preferred scheme, the internal circulation fan adopts a backward inclined centrifuge and a mounting structure thereof in the air duct, so that the windward side of the internal heat exchanger obtains a uniform static pressure field, and the heat exchange capacity of the internal heat exchanger is effectively improved; simultaneously condensed water is receivedThe pan is at the positive pressure end and the condensate is easily drained. The fresh air volume and the indoor circulating air volume are configured in a reasonable proportion to flow into the room, so that the indoor CO is effectively reduced2More electric power is saved on the basis of the content.
Furthermore, a check valve is installed at the outdoor air exhaust air inlet.
By adopting the preferable scheme, when the fresh air valve and the internal circulating valve are closed, the check valve can prevent outdoor air from flowing backwards into the device.
Furthermore, the filter element unit comprises a G4 filter screen and an H11 filter screen, outdoor fresh air is primarily filtered by the G4 filter screen and is efficiently filtered by the H11 filter screen; the inner machine body is provided with a lateral maintenance opening for installing a G4 filter screen and a H11 filter screen, and the heat exchange core installation cavity is also provided with a lateral maintenance opening.
By adopting the preferable scheme, the G4 filter screen and the H11 filter screen can effectively filter PM2.5 in fresh air, and the structural mode of a lateral maintenance opening is adopted, so that the area of the maintenance opening is reduced, and the maintenance convenience is improved; the counter-flow total heat exchange core is adopted, so that the limitation of the installation height and the size of the heat exchange core is solved, and the heat exchange efficiency is effectively improved.
Furthermore, a first baffle plate isolated from the fresh air heat exchange branch is arranged at the tail end of the fresh air purification air duct, and a first vent is arranged on the first baffle plate; a second baffle plate isolated from the fresh air straight-through branch is further arranged at the tail end of the fresh air purification air channel, and a second air vent is arranged on the second baffle plate; the bypass valve comprises an opening and closing door and a driving mechanism, the opening and closing door is matched with the first ventilation opening and the second ventilation opening, the driving mechanism drives the opening and closing door to rotate around a door pivot, the opening and closing door is matched and sealed with the first ventilation opening or the second ventilation opening, the driving mechanism comprises a front push rod, a rear push rod, a mounting bracket, a swing arm, a travel switch, a motor fixing plate and a speed reduction motor, the motor fixing plate is mounted on the mounting bracket, the speed reduction motor is mounted on the motor fixing plate, the swing arm and the rear push rod are mounted on a rotating shaft of the speed reduction motor, the travel switch is used for detecting the swing position of the swing arm, one end of the rear push rod is hinged to one end of the front push rod, and the other end of the front push rod is connected to the opening and closing door through a hinged element.
By adopting the above preferred scheme, gear motor drives the opening and closing door to rotate around the door pivot through front push rod and rear push rod, the swing arm rotates along with the swing, after touching the travel switch, gear motor stops rotating, the foam cotton around the opening and closing door is compressed tightly at the first vent or the second vent, and the switching of the fresh air straight branch and the fresh air heat exchange branch is realized quickly and stably.
Furthermore, an air-equalizing plate is arranged in the fresh air heat exchange branch corresponding to the position of the fresh air flow channel in the countercurrent total heat exchange core, a plurality of vent holes are formed in the air-equalizing plate, and the density of the vent holes in the air-equalizing plate is gradually increased from one side close to the first vent to one side far away from the first vent.
Further, a preheating chamber is formed between the air-equalizing plate and the first baffle, the first vent and the air-equalizing plate are obliquely arranged, a right-angled triangle opening is formed in one end, far away from the first vent, of the air-equalizing plate, a PTC preheater is installed in the preheating chamber, and the PTC preheater is parallel to the inclined edge of the right-angled triangle opening.
Adopt above-mentioned preferred scheme, it is big more to be close to first vent department negative pressure more, has effectively improved the air current degree of consistency that the new trend got into the total heat exchange core against current through the board that equalizes wind, makes heat exchange core heat exchange efficiency optimization. The fin vent of PTC preheater also forms stable air current, makes the heat that the PTC preheater produced give off with high efficiency, improves the preheating efficiency to the new trend.
Further, a PTC heater is also arranged in the mixed air outlet cavity; the fresh air purification device is characterized in that a fresh air temperature probe is installed in a front section air channel of the fresh air purification air channel, an exhaust air temperature probe is installed in a rear section air channel of the exhaust air channel, an indoor return air temperature probe is installed at an indoor return air inlet, and a heat exchanger coil pipe temperature probe is installed on the indoor unit heat exchanger.
By adopting the preferable scheme, a user can select to start the PTC heater, so that heat is supplemented indoors, and the indoor temperature rise effect is improved. Fresh air temperature, exhaust air temperature, indoor return air temperature and indoor unit heat exchanger coil temperature are detected in real time through the four temperature probes and fed back to the main controller, and therefore all parts are reliably controlled to execute actions.
A method of controlling a room air environment conditioning system, comprising the steps of:
the main controller controls the on-off of the integrated inner unit and the air conditioner outer unit;
the main controller controls the action of each execution component according to the air conditioning mode selected by the user;
the main controller controls the on-off of the room branch controller;
the user sets the temperature, humidity, CO of each room through the main controller or each room branch controller2PM2.5 value;
each room branch controller collects the temperature, humidity and CO of the current room2PM2.5 value, and according to the set parameter value, controlling the opening degree of the room branch air valve of the corresponding room;
the main controller collects the temperature, humidity and CO of each room2And PM2.5 values, and according to the set parameter values, sending command signals for controlling the integrated internal unit and the air conditioner external unit to execute high, medium and low gears after processing.
Further, the control method of the room air environment conditioning system further comprises the following steps:
fresh air mode step: the user selects the new trend mode through operating panel, and main control unit controls: the air conditioner external unit is closed, the internal circulating valve is closed, the internal circulating fan is closed, the fresh air valve is opened, the fresh air fan is opened, and the exhaust fan is opened; outdoor fresh air passes through the filter element unit and the counter-flow total heat exchange core and finally enters the room from an indoor air supply air port of the mixed air duct, so that fresh air filtration and indoor ventilation are realized;
a fresh air refrigeration mode step, wherein a user selects a fresh air refrigeration mode through an operation panel, and a main controller controls: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, opening a fresh air valve, opening a fresh air fan and opening an exhaust fan; outdoor fresh air passes through the filter element unit and the counter-flow total heat exchange core, is mixed with indoor air sucked from the indoor internal circulation air port and flows to the indoor machine heat exchanger, and the air enters the room from the indoor air supply air port of the mixed air duct after being cooled, so that fresh air filtration, indoor ventilation and air cooling are realized;
fresh air heating mode step: the user selects the new trend mode of heating through operating panel, and main control unit controls: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, opening a fresh air valve, opening a fresh air fan and opening an exhaust fan; outdoor fresh air passes through the filter element unit and the counter-flow total heat exchange core, is mixed with indoor air sucked from the indoor internal circulation air port and flows to the indoor machine heat exchanger, and the air enters the room from the indoor air supply air port of the mixed air duct after being heated, so that fresh air filtration, indoor ventilation and air heating are realized; in the mode, a user can selectively start the PTC heater to supplement heat to the room;
an internal circulation refrigeration mode step: the user selects the internal circulation refrigeration mode through the operation panel, and the main controller controls: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, closing a fresh air valve, closing a fresh air fan and closing an exhaust fan; outdoor fresh air can not enter the room; indoor air is sucked through an indoor internal circulation air port and flows to an indoor unit heat exchanger, and the air flows into the indoor from an indoor air supply air port of the mixed air duct after being cooled, so that indoor air cooling is realized; after the mode is started for half an hour, the step of automatically switching to the fresh air refrigeration mode is carried out to reduce indoor CO2Content (c);
an internal circulation heating mode step: the user selects the inner circulation heating mode through the operation panel, and the main controller controls: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, closing a fresh air valve, closing a fresh air fan and closing an exhaust fan; outdoor fresh air can not enter the room; indoor air is sucked through an indoor internal circulation air port and flows to an indoor machine heat exchanger, and the air flows into the indoor from an indoor air supply air port of the mixed air duct after being heated, so that the heating of the indoor air is realized; in the mode, the PTC heater can be selectively turned on by a user to supplement heat to the room(ii) a After the mode is started for half an hour, the step of automatically switching to the fresh air heating mode is carried out to reduce indoor CO2Content (c);
a dehumidification mode step: the user selects the dehumidification mode through the operation panel, and the main controller controls: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, opening a fresh air valve, opening a fresh air fan and opening an exhaust fan; outdoor fresh air passes through the filter element unit and the counter-flow total heat exchange core, is mixed with indoor air sucked from the indoor internal circulation air port and flows to the indoor machine heat exchanger, and the air enters the room from the indoor air supply air port of the mixed air duct after being dehumidified, so that fresh air filtration, indoor ventilation and air dehumidification are realized; in the mode, the air conditioner external unit runs at a low speed, and the internal circulation fan runs at a low speed; in the dehumidification mode, the control logic sets the temperature of the dehumidified air to be 2 ℃ lower than the indoor set temperature, when the indoor temperature is reduced to be 2 ℃ lower than the set temperature in the dehumidification mode, the compressor of the air conditioner external unit stops working, and when the indoor temperature rises again, the compressor starts to work;
an automatic mode step: the user selects an automatic mode through an operation panel, the user sets a temperature range T1-T2, the fresh air heating mode is automatically started when the indoor temperature is lower than T1, and the fresh air cooling mode is automatically started when the indoor temperature is higher than T2; when indoor CO2Sensor detecting indoor CO2When the concentration is higher than a set value, the fresh air fan runs in a high-grade mode; when indoor CO2Sensor detecting indoor CO2When the concentration is lower than the set value, the fresh air fan runs at a low gear.
The room air environment regulation and control system provides seven functional modes to meet the indoor comfortable environment of the passive room of the building with near zero energy consumption. Filtered fresh air is provided for a passive room of a building with near zero energy consumption, so that indoor CO is generated2The content is controllable, and the PM2.5 content is controllable; meanwhile, the dehumidification function in summer, winter, and high-humidity seasons in the passive room is achieved. The multifunctional indoor air conditioner realizes multiple purposes and a comprehensive solution for fresh air, refrigeration, heating and dehumidification in a passive room. Achieves the purposes of energy conservation and consumption reduction of the house, greatly reduces the purchase and maintenance costs of refrigeration, heating and dehumidification equipment of users,comprehensively saves and utilizes the indoor space.
Further, the control method of the room air environment conditioning system further comprises the following steps:
in a transition season, when the outdoor environment temperature detected by the fresh air temperature probe is in the range of 18-25 ℃, the bypass valve acts to close the first vent and open the second vent, the outdoor fresh air does not pass through the countercurrent total heat exchange core, and the outdoor fresh air directly flows into the room from the indoor air supply vent of the mixed air duct through the fresh air straight branch after being purified by the filter element unit.
By adopting the preferable scheme, in a suitable season with the external temperature of 18-25 ℃, the fresh air heat exchange branch is closed through the bypass valve, the fresh air straight-through branch is opened, the fresh air directly flows into the room without passing through the countercurrent total heat exchange core, the comfortable temperature can be achieved without cold and heat source supplement in the room, the energy-saving effect is achieved, and the emission is greatly reduced.
Further, the control method of the room air environment conditioning system further comprises the following steps:
in cold seasons, when the environment temperature detected by the exhaust air temperature probe is lower than a set value T3, the sucked cold fresh air can cause the counter-flow full-heat exchange core to generate frost freezing, and the main controller controls the PTC preheater to be started to heat the cold fresh air; after the PTC preheater is started, when the ambient temperature detected by the exhaust temperature probe is still lower than a set value T3, the bypass valve acts to close the first vent and open the second vent, outdoor fresh air does not pass through the countercurrent total heat exchange core, and the outdoor fresh air flows into the mixing air duct through the fresh air straight branch after being purified by the filter element unit and then flows into the room from the indoor air supply vent.
By adopting the preferable scheme, the backflow total heat exchange core is effectively prevented from frost freezing.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a schematic structural view of an air conditioner external unit and an integrated internal unit;
fig. 2 is a back structural schematic view of the integrated inner unit in fig. 1;
FIG. 3 is a schematic view of the airflow direction in each air duct of the integrated indoor unit;
FIG. 4 is a schematic structural diagram of the distribution of air ducts of the integrated indoor unit;
FIG. 5 is a cross-sectional view taken along line A-A of FIG. 4;
FIG. 6 is a cross-sectional view taken along line B-B of FIG. 4;
fig. 7 is a side view schematically illustrating the structure of the integrated indoor unit;
FIG. 8 is a schematic structural view of another embodiment of the integrated indoor unit;
FIG. 9 is a cross-sectional view taken along line C-C of FIG. 8;
FIG. 10 is a schematic view of the bypass valve configuration;
FIG. 11 is an exploded schematic view of FIG. 10;
fig. 12 is a schematic structural view of another embodiment of an outdoor unit of an air conditioner;
FIG. 13 is a schematic diagram of a room air environment conditioning system;
fig. 14 is a control schematic diagram of a room air environment conditioning system.
Names of corresponding parts represented by numerals and letters in the drawings:
1-an air conditioner outdoor unit; 11-an air conditioner host; 12-coil water tank; 13-a water pump; 14-a water inlet pipeline; 15-water outlet pipeline; 16-a water pump; 17-a water inlet branch pipeline; 18-a water outlet branch pipeline; 2-an integrated inner machine; 21-a frame body; 22-upper cover; 23-lower cover; 24-fresh air duct; 241-a fresh air purification air duct; 242-fresh air straight-through branch; 243-fresh air heat exchange branch; 25-a mixed air duct; 251-a mixed air inlet cavity; 252-mixed air outlet cavity; 26-an air exhaust duct; 27-outdoor fresh air port; 28-outdoor air exhaust port; 29-indoor return air inlet; 30-indoor internal circulation air port; 31-indoor air supply port; 41-a cartridge unit; 411-G4 filter screen; 412-H11 filter screen; 42-counterflow full heat exchange core; 43-a bypass valve; 430-a reduction motor; 431-a first baffle; 4311-first vent; 432-a second baffle; 4321-second vent; 433-opening and closing a door; 434-front push rod; 435-rear push rod; 436-mounting brackets; 437-swing arm; 438-a travel switch; 439-motor fixing plate; 44-internal machine heat exchanger; 45-a fresh air fan; 46-an internal circulation fan; 47-air exhaust fan; 48-fresh air valve; 49-internal recycle valve; 50-air equalizing plate; 501-a vent hole; 502-right triangle opening; 51-PTC preheater; 52-PTC heaters; 53-condensed water pan; 54-fresh air temperature probe; 55-exhaust air temperature probe; 56-indoor return air temperature probe; 57-heat exchanger coil temperature probe; 90-a main controller; 91-room branch controller; 92-indoor air supply pipeline; 93-room branch blast gate; 94-indoor exhaust pipeline; 95-indoor internal circulation return pipe.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in fig. 1, 13 and 14, a room air environment conditioning system includes:
the air conditioner outdoor unit 1 and the integrated indoor unit 2 are connected through a refrigerant pipe, and the air conditioner outdoor unit 1 and an indoor unit heat exchanger 44 of the integrated indoor unit form a heat circulation loop;
a main controller 90;
a room branching controller 91 provided in each room of the building;
an indoor air supply pipeline 92, the main interface of which is connected to the indoor air supply air inlet of the integrated indoor unit 2, and the branch pipelines of which are connected to each room, wherein each room air outlet of the indoor air supply pipeline 92 is provided with a room branch air valve 93;
an indoor exhaust pipeline 94, the main interface of which is connected to the indoor return air inlet of the integrated indoor unit 2, and the branch pipelines of which are connected to each room;
an indoor internal circulation return pipe 95 whose main joint is connected to an indoor internal circulation air port of the integrated indoor unit 2;
the main controller 90 is in signal connection with the air conditioner external unit 1, the integrated internal unit 2 and the room branch controller 91, and the room branch controller 91 is in signal connection with the room branch air valve 93 of the same room.
The beneficial effect of adopting above-mentioned technical scheme is: the integrated inner machine is installed by adopting a central suspended ceiling, and fresh air of cold and heat sources is delivered to each room through an indoor air delivery pipeline. And centralized and distributed flexible management is adopted, each room realizes independent regulation and room air environment control, and energy-saving measures distributed according to needs are realized. When a user uses only one room for a long time, only the temperature, humidity and CO required by the room are set2And PM2.5 value, the system automatically opens the room branch air valve of the room, closes the room branch air valves of other rooms, operates the air conditioner external unit and the integrated internal unit at low gear, is intermittently opened, and only supplies cold and heat source fresh air for the set room, and the energy consumption of the machine is effectively saved by the scheme distributed according to the demand.
In other embodiments of the present invention, as shown in fig. 1-7, the integrated indoor unit 2 includes:
the indoor unit main body comprises a frame body 21, an upper cover 22 and a lower cover 23, wherein the frame body 21, the upper cover 22 and the lower cover 23 are combined to form a fresh air duct 24, a mixed air duct 25, an exhaust air duct 26 and a heat exchange core mounting cavity; the indoor unit main body is provided with an outdoor fresh air port 27, an outdoor exhaust air port 28, an indoor return air port 29, an indoor internal circulation air port 30 and an indoor air supply port 31; the fresh air duct 24 comprises a fresh air purification duct 241 at the front section and a fresh air straight branch 242 and a fresh air heat exchange branch 243 which are arranged at the rear section in parallel, the outdoor fresh air port 27 is an air inlet of the fresh air duct 24, and air outlets at the tail end of the fresh air straight branch 242 and the tail end of the fresh air heat exchange branch 243 are both communicated with a fresh air inlet of the mixed air duct 25; the indoor return air inlet 29 is an air inlet of the air exhaust duct 26, and the outdoor air outlet 28 is an air outlet of the air exhaust duct 26; the fresh air heat exchange branch 243 and the exhaust air duct 26 are installed through the heat exchange core installation cavity, and the fresh air duct 24 is separated from the exhaust air duct by a partition (the air flow arrows in fig. 3 and 4 indicate that the intersection in the same cavity is caused by a single view defect, and the partitions are separated among the air ducts in fig. 5 and 6); the mixed air duct 25 comprises a mixed air inlet cavity 251 and a mixed air outlet cavity 252, a fresh air inlet of the mixed air duct 25 and the indoor internal circulation air port 30 are communicated with the mixed air inlet cavity 251, and the indoor air supply air port 31 is an air outlet of the mixed air outlet cavity 252;
a filter element unit 41 disposed in the fresh air purification duct 241;
the counterflow total heat exchange core 42 is arranged in the heat exchange core installation cavity, a fresh air flow channel of the counterflow total heat exchange core 42 is in butt joint with the fresh air heat exchange branch 243 from head to tail, an exhaust air flow channel of the counterflow total heat exchange core 42 is in butt joint with the exhaust air duct 26 from head to tail, and the air flow directions of the fresh air flow channel and the exhaust air flow channel of the counterflow total heat exchange core 42 are opposite;
the bypass valve 43 is arranged at the tail end of the fresh air purification air channel 241 and is used for controlling the communication switching between the fresh air purification air channel 241 and the fresh air direct branch 242 or the fresh air heat exchange branch 243;
the indoor unit heat exchanger 44 is arranged in the mixed air outlet cavity 252, is connected with the air conditioner outdoor unit 1 through a refrigerant communicating pipe, and is used for refrigerating, heating or dehumidifying air;
the fresh air fan 45 is arranged at the tail end of the fresh air duct 24, and an air outlet of the fresh air fan 45 is connected with a fresh air inlet of the mixed air duct 25;
the internal circulation fan 46 is arranged between the mixed air inlet cavity 251 and the mixed air outlet cavity 252, the air suction port of the internal circulation fan 46 faces the mixed air inlet cavity 251, and the air outlet of the internal circulation fan 46 faces the mixed air outlet cavity 252;
an exhaust fan 47 disposed at the end of the exhaust air duct 26, an air outlet of the exhaust fan 47 facing the outdoor exhaust air port 28;
the fresh air valve 48 is arranged at the outdoor fresh air inlet 27 and is used for controlling the opening and closing of the outdoor fresh air inlet 27;
and an internal circulation valve 49 installed at the indoor internal circulation tuyere 30 for controlling opening and closing of the indoor internal circulation tuyere 30.
The beneficial effect of adopting above-mentioned technical scheme is: the air conditioner external unit and the integrated internal unit are combined, multiple functions of fresh air supply, refrigeration, heating and dehumidification are provided for a passive room, and the traditional air conditioner and heating equipment are replaced. PM2.5 is effectively filtered through the filter element unit; the fresh air and the exhaust air exchange heat through the countercurrent total heat exchange core, and the exhaust air of the indoor dirty air is subjected to heat recovery; in a suitable season with the external temperature of 18-25 ℃, the fresh air heat exchange branch is closed through the bypass valve, the fresh air straight-through branch is opened, the fresh air directly flows into the room without passing through the countercurrent full-heat exchange core, the temperature can reach a comfortable temperature without cold and heat source supplement in the room, the energy-saving effect is achieved, and the emission is greatly reduced.
With reference to fig. 4 and 5, a layout of an embodiment of each air duct will be described, and the following terms of orientation refer to a view of fig. 4, where a left lower position of the main body of the internal machine is a fresh air purification air duct 241, a left upper position is a rear section of the exhaust air duct 26, a middle upper position is a fresh air straight-through branch 242, a middle lower position is a fresh air heat exchange branch 243 and a front section of the exhaust air duct 26, a middle of the middle lower position is a heat exchange core installation cavity, and a right position is a mixed air duct 25.
In fig. 3, 4, the flow direction of each duct is shown by different arrows, wherein: the open type arrow represents the fresh air flow direction; the head end closed arrow represents the fresh air flow direction of the fresh air heat exchange branch; the head part is closed and a blackened arrow represents the fresh air flow direction of the fresh air straight-through branch; the totally-enclosed flow arrow represents the direction of the exhaust air; two horizontal line type arrows represent the flow direction of the internal circulation wind; the three horizontal line type arrows represent the mixed wind flow direction.
As shown in fig. 1, the indoor unit heat exchanger 44 of the integrated indoor unit and the air conditioner outdoor unit 1 are connected to form a complete air conditioning system through a refrigerant inlet pipe and a refrigerant outlet pipe, so as to realize the functions of refrigeration, heating and dehumidification. The air conditioner outdoor unit can be used in an environment of-30-43 ℃ by adopting an enhanced vapor injection variable frequency compressor heat pump technology, the air conditioner outdoor unit comprises a compressor, a finned heat exchanger, a fan, an electromagnetic expansion valve, a four-way valve and other components, and the indoor unit heat exchanger and the components form a complete heating or refrigerating loop.
As shown in fig. 12, in another embodiment of the present invention, an air-conditioning outdoor unit employs an air-source heat pump system, the air-conditioning outdoor unit includes an air-conditioning main unit 11, a coil water tank 12 and a water pump 13, and the coil heat exchanger inside the air-conditioning main unit 11 and the coil water tank 12 is connected through a refrigerant inlet pipe and a refrigerant outlet pipe; the inner machine heat exchanger 44 is connected with the water pump 13 and the coil water tank 12 through the water inlet pipeline 14 and the water outlet pipeline 15 to form a heat pump system; the coil water tank 12 is also connected with radiators, floor heating or water heaters in rooms through a water inlet branch pipeline 17 and a water outlet branch pipeline 18 through a water pump 16, so that a multi-split outdoor unit saving scheme is formed.
As shown in fig. 1 and 2, in other embodiments of the present invention, the mixed air inlet chamber 251 and the mixed air outlet chamber 252 are stacked up and down horizontally along the thickness direction of the chamber, the fresh air blower 45 is a forward-inclined centrifugal blower, the internal circulation blower 46 is a backward-inclined centrifugal blower, the axis of the internal circulation blower 46 is along the thickness direction of the mixed air outlet chamber, and the air output of the internal circulation blower 46 is 2.5-3.5 times of the air output of the fresh air blower 45. A condensed water pan 53 is arranged below the internal heat exchanger 44, and a drain pipe for draining condensed water to the outside is connected to the condensed water pan 53. The beneficial effect of adopting above-mentioned technical scheme is: the internal circulation fan adopts a backward inclined centrifuge and a mounting structure thereof in the air duct, so that the windward side of the internal heat exchanger obtains a uniform static pressure field, and the heat exchange capacity of the internal heat exchanger is effectively improved; and meanwhile, the condensed water receiving tray is positioned at the positive pressure end, so that the condensed water is easy to discharge. The fresh air volume and the indoor circulating air volume are configured in a reasonable proportion to flow into the room, so that the indoor CO is effectively reduced2More electric power is saved on the basis of the content.
In other embodiments of the present invention, a check valve is installed at the outdoor discharge air opening 28. The beneficial effect of adopting above-mentioned technical scheme is: when the fresh air valve and the internal circulating valve are closed, the check valve can prevent outdoor air from flowing backwards into the device.
As shown in fig. 3, in other embodiments of the present invention, filter element unit 41 includes filter screen 411 of G4 and filter screen 412 of H11, and outdoor fresh air is primarily filtered by filter screen 411 of G4 and is efficiently filtered by filter screen 412 of H11; the inner machine body is provided with a lateral maintenance opening for installing the G4 filter screen and the H11 filter screen, and the heat exchange core installation cavity is also provided with a lateral maintenance opening. The beneficial effect of adopting above-mentioned technical scheme is: the G4 filter screen and the H11 filter screen can effectively filter PM2.5 in fresh air, and a structural mode of a lateral maintenance opening is adopted, so that the area of the maintenance opening is reduced, and the maintenance convenience is improved; the counter-flow total heat exchange core is adopted, so that the limitation of the installation height and the size of the heat exchange core is solved, and the heat exchange efficiency is effectively improved.
As shown in fig. 2, 8, 10 and 11, in other embodiments of the present invention, a first baffle 431 isolated from the fresh air heat exchange branch is disposed at the end of the fresh air purification duct, and a first vent 4311 is disposed on the first baffle 431; a second baffle 432 isolated from the fresh air straight branch is further arranged at the tail end of the fresh air purification air duct, and a second ventilation opening 4321 is arranged on the second baffle 432; the bypass valve 43 comprises an opening and closing door 433 and a driving mechanism, the opening and closing door 433 is matched with the first ventilation opening 4311 and the second ventilation opening 4321, the driving mechanism drives the opening and closing door 433 to rotate around a door pivot, so that the opening and closing door 433 is matched and sealed with the first ventilation opening 4311 or the second ventilation opening 4321, the driving mechanism comprises a front push rod 434, a rear push rod 435, a mounting bracket 436, a swing arm 437, a travel switch 438, a motor fixing plate 439 and a speed reducing motor 430, the motor fixing plate 439 is mounted on the mounting bracket 436, the speed reducing motor 430 is mounted on the motor fixing plate 439, the swing arm 437 and the rear push rod 435 are mounted on a rotating shaft of the speed reducing motor 430, the travel switch 438 is used for detecting the swinging position of the swing arm, one end of the rear push rod 435 is hinged with one end of the front push rod 434, and the other end of the front push rod 437 is connected with the opening and closing door 433 through a hinge. The beneficial effect of adopting above-mentioned technical scheme is: the gear motor drives the opening and closing door to rotate around the door pivot through the front push rod and the rear push rod, the swing arm rotates along with the door pivot, after the swing arm touches the travel switch, the gear motor stops rotating, foamed cotton around the opening and closing door is tightly pressed at the first vent or the second vent, and switching of the fresh air direct branch and the fresh air heat exchange branch is rapidly and stably achieved.
As shown in fig. 8 and 9, in other embodiments of the present invention, an air-equalizing plate 50 is disposed in the fresh air heat exchanging branch corresponding to the fresh air flow channel entering the counter-flow total heat exchanging core, a plurality of vent holes 501 are disposed on the air-equalizing plate 50, and the density of the vent holes 501 on the air-equalizing plate 50 gradually increases from the side close to the first vent to the side far from the first vent. A preheating chamber is formed between the air-equalizing plate 50 and the first baffle 431, the first ventilation opening 4311 and the air-equalizing plate 50 are obliquely arranged, a right-angled triangular opening 502 is arranged at one end, far away from the first ventilation opening, of the air-equalizing plate 50, a PTC preheater 51 is installed in the preheating chamber, and the PTC preheater 51 is arranged in parallel with the oblique side of the right-angled triangular opening 502. The beneficial effect of adopting above-mentioned technical scheme is: the negative pressure at the position closer to the first vent is larger, the airflow uniformity of the reverse flow total heat exchange core entering by fresh air is effectively improved through the air-equalizing plate, and the heat exchange efficiency of the heat exchange core is optimized. The fin vent of PTC preheater also forms stable air current, makes the heat that the PTC preheater produced give off with high efficiency, improves the preheating efficiency to the new trend.
As shown in fig. 3, in other embodiments of the present invention, a PTC heater 52 is further installed in the mixed air outlet chamber; a fresh air temperature probe 54 is arranged in the front section air channel of the fresh air purification air channel, an exhaust air temperature probe 55 is arranged in the rear section air channel of the exhaust air channel, an indoor return air temperature probe 56 is arranged at the position of an indoor return air inlet, and a heat exchanger coil temperature probe 57 is arranged on the internal heat exchanger. The beneficial effect of adopting above-mentioned technical scheme is: the user can choose to open the PTC heater, and the heat is supplemented to the indoor, improves indoor temperature rise effect. Fresh air temperature, exhaust air temperature, indoor return air temperature and indoor unit heat exchanger coil temperature are detected in real time through the four temperature probes and fed back to the main controller, and therefore all parts are reliably controlled to execute actions.
Adopt a model that this application technical scheme developed, realize the fresh air volume: 200M3H; the refrigerating capacity of the unit is as follows: 3500W; the unit heating capacity: 5000W; the requirement of national standard GB/T51350-2019 is followed, and the building area 120M can be completely met2The inside passive room needs fresh air, refrigeration and heating.
Adopt another kind of model that this application technical scheme developed, realize the fresh air volume: 300M3H; the refrigerating capacity of the unit is as follows: 5100W; the unit heating capacity: 7000W; the requirement of national standard GB/T51350-2019 is followed, and the building area of 160M can be completely met2WithinThe passive room needs fresh air, refrigeration and heating.
The above embodiments are merely illustrative of the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the scope of the present invention.

Claims (10)

1. A room air environment conditioning system, comprising:
an air conditioner external unit and an integrated internal unit; the air conditioner external unit and an internal unit heat exchanger of the integrated internal unit form a heat circulation loop;
a main controller;
a room branching controller provided in each room of a building;
the main interface of the indoor air supply pipeline is connected to an indoor air supply port of the integrated indoor unit, the branch pipelines of the indoor air supply pipeline are connected to each room, and a room branch air valve is installed at each room air outlet of the indoor air supply pipeline;
the main interface of the indoor air exhaust pipeline is connected to an indoor air return air inlet of the integrated indoor unit, and branch pipelines of the indoor air exhaust pipeline are connected to each room;
the main interface of the indoor internal circulation return pipeline is connected to an indoor internal circulation air port of the integrated internal machine;
the main controller is in signal connection with the air conditioner external unit, the integrated internal unit and the room branch controller, and the room branch controller is in signal connection with the room branch air valve of the same room respectively;
the integral type internal unit includes:
the indoor unit main body comprises a frame body, an upper cover and a lower cover, wherein the frame body, the upper cover and the lower cover are combined to form a fresh air duct, a mixed air duct, an exhaust air duct and a heat exchange core mounting cavity; the indoor unit main body is provided with an outdoor fresh air port, an outdoor exhaust air port, an indoor return air port, an indoor internal circulation air port and an indoor air supply port; the fresh air duct comprises a fresh air purification duct positioned at the front section and a fresh air straight branch and a fresh air heat exchange branch which are positioned at the rear section and distributed in parallel, the outdoor fresh air port is an air inlet of the fresh air duct, and air outlets at the tail end of the fresh air straight branch and the tail end of the fresh air heat exchange branch are both communicated with a fresh air inlet of the mixed air duct; the indoor air return port is an air inlet of the air exhaust duct, and the outdoor air exhaust port is an air outlet of the air exhaust duct; the fresh air heat exchange branch and the exhaust air duct both pass through the heat exchange core installation cavity; the mixed air channel comprises a mixed air inlet cavity and a mixed air outlet cavity, a fresh air inlet of the mixed air channel and the indoor internal circulation air port are communicated to the mixed air inlet cavity, and the indoor air supply air port is an air outlet of the mixed air outlet cavity;
the filter element unit is arranged in the fresh air purification air duct;
the reverse flow total heat exchange core is arranged in the heat exchange core installation cavity, a fresh air flow passage of the reverse flow total heat exchange core is in butt joint with the fresh air heat exchange branch in an end-to-end mode, an exhaust air flow passage of the reverse flow total heat exchange core is in butt joint with the exhaust air passage in an end-to-end mode, and the air flow directions of the fresh air flow passage and the exhaust air flow passage of the reverse flow total heat exchange core are opposite;
the bypass valve is arranged at the tail end of the fresh air purification air channel and is used for controlling the communication switching of the fresh air purification air channel and the fresh air straight-through branch or the fresh air heat exchange branch;
the indoor unit heat exchanger is arranged in the mixed air outlet cavity, is connected with the air conditioner outdoor unit through a refrigerant communicating pipe, and is used for refrigerating, heating or dehumidifying air;
the fresh air fan is arranged at the tail end of the fresh air duct, and an air outlet of the fresh air fan is connected with a fresh air inlet of the mixed air duct;
the internal circulation fan is arranged between a mixed air inlet cavity and a mixed air outlet cavity in the mixed air duct, an air suction port of the internal circulation fan faces the mixed air inlet cavity, and an air outlet of the internal circulation fan faces the mixed air outlet cavity;
the air exhaust fan is arranged at the tail end of the air exhaust duct, and an air outlet of the air exhaust fan faces the outdoor air exhaust port;
the fresh air valve is arranged at the outdoor fresh air inlet and is used for controlling the opening and closing of the outdoor fresh air inlet;
the internal circulation valve is arranged at the indoor internal circulation air port and used for controlling the opening and closing of the indoor internal circulation air port;
the mixed air inlet cavity and the mixed air outlet cavity are horizontally stacked up and down along the thickness direction of the cavity, the fresh air fan is a forward-inclined centrifugal fan, the internal circulation fan adopts a backward-inclined centrifugal fan, the axis of the internal circulation fan is along the thickness direction of the mixed air outlet cavity, and the air outlet quantity of the internal circulation fan is 2.5-3.5 times of the air outlet quantity of the fresh air fan.
2. A room air environment conditioning system according to claim 1, wherein said master controller comprises a control chip and a touch display screen.
3. A room air environment conditioning system as claimed in claim 1, wherein the room branch controller comprises a control chip and a display screen.
4. A room air environment conditioning system according to claim 3, wherein temperature, humidity, CO are further integrated within the room branch controller2And a PM2.5 detection sensor.
5. A room air environment conditioning system as claimed in claim 1, wherein said room branch controller communicates bi-directionally with the master controller via an RS485 communication protocol.
6. The system as claimed in claim 1, wherein the outdoor unit of the air conditioner comprises a compressor, a finned heat exchanger, a fan, an electromagnetic expansion valve, and a four-way valve, and is connected in series with the indoor unit heat exchanger to form a low-temperature heat pump type heat circulation loop.
7. The system for regulating and controlling the air environment of a room according to claim 1, wherein the air-conditioning outdoor unit adopts an air source heat pump system, the air-conditioning outdoor unit comprises an air-conditioning main unit, a coil water tank and a water pump, and the air-conditioning main unit is connected with the coil heat exchanger inside the coil water tank through a refrigerant inlet pipe and a refrigerant outlet pipe; the inner machine heat exchanger is connected with the water pump and the coil water tank through a water inlet pipeline and a water outlet pipeline to form a heat pump system; the coil water tank is also connected with a radiator, a floor heater or a water heater in a room through a water inlet branch pipeline and a water outlet branch pipeline by a water pump.
8. A control method of a room air environment conditioning system, which is implemented based on the room air environment conditioning system of any one of claims 1 to 7, comprising the steps of:
the main controller controls the on-off of the integrated inner unit and the air conditioner outer unit;
the main controller controls the action of each execution component according to the air conditioning mode selected by the user;
the main controller controls the on-off of the room branch controller;
the user sets the temperature, humidity, CO of each room through the main controller or each room branch controller2PM2.5 value;
each room branch controller collects the temperature, humidity and CO of the current room2PM2.5 value, and according to the set parameter value, controlling the opening degree of the room branch air valve of the corresponding room;
the main controller collects the temperature, humidity and CO of each room2And PM2.5 values, and according to the set parameter values, sending command signals for controlling the integrated internal unit and the air conditioner external unit to execute high, medium and low gears after processing.
9. A method for controlling a room air environment conditioning system as recited in claim 8, further comprising the steps of:
fresh air mode step: the user selects the new trend mode through operating panel, and main control unit controls: the air conditioner external unit is closed, the internal circulating valve is closed, the internal circulating fan is closed, the fresh air valve is opened, the fresh air fan is opened, and the exhaust fan is opened; outdoor fresh air passes through the filter element unit and the counter-flow total heat exchange core and finally enters the room from an indoor air supply air port of the mixed air duct, so that fresh air filtration and indoor ventilation are realized;
a fresh air refrigeration mode step, wherein a user selects a fresh air refrigeration mode through an operation panel, and a main controller controls: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, opening a fresh air valve, opening a fresh air fan and opening an exhaust fan; outdoor fresh air passes through the filter element unit and the counter-flow total heat exchange core, is mixed with indoor air sucked from the indoor internal circulation air port and flows to the indoor machine heat exchanger, and the air enters the room from the indoor air supply air port of the mixed air duct after being cooled, so that fresh air filtration, indoor ventilation and air cooling are realized;
fresh air heating mode step: the user selects the new trend mode of heating through operating panel, and main control unit controls: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, opening a fresh air valve, opening a fresh air fan and opening an exhaust fan; outdoor fresh air passes through the filter element unit and the counter-flow total heat exchange core, is mixed with indoor air sucked from the indoor internal circulation air port and flows to the indoor machine heat exchanger, and the air enters the room from the indoor air supply air port of the mixed air duct after being heated, so that fresh air filtration, indoor ventilation and air heating are realized; in the mode, a user can selectively start the PTC heater to supplement heat to the room;
an internal circulation refrigeration mode step: the user selects the internal circulation refrigeration mode through the operation panel, and the main controller controls: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, closing a fresh air valve, closing a fresh air fan and closing an exhaust fan; outdoor fresh air can not enter the room; indoor air is sucked through an indoor internal circulation air port and flows to an indoor unit heat exchanger, and the air flows into the indoor from an indoor air supply air port of the mixed air duct after being cooled, so that indoor air cooling is realized; after the mode is started for half an hour, the step of automatically switching to the fresh air refrigeration mode is carried out to reduce indoor CO2Content (c);
an internal circulation heating mode step: user' sThe main controller controls the following steps that an operation panel selects an inner circulation heating mode: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, closing a fresh air valve, closing a fresh air fan and closing an exhaust fan; outdoor fresh air can not enter the room; indoor air is sucked through an indoor internal circulation air port and flows to an indoor machine heat exchanger, and the air flows into the indoor from an indoor air supply air port of the mixed air duct after being heated, so that the heating of the indoor air is realized; in the mode, a user can selectively start the PTC heater to supplement heat to the room; after the mode is started for half an hour, the step of automatically switching to the fresh air heating mode is carried out to reduce indoor CO2Content (c);
a dehumidification mode step: the user selects the dehumidification mode through the operation panel, and the main controller controls: opening an outer air conditioner, opening an inner circulation valve, opening an inner circulation fan, opening a fresh air valve, opening a fresh air fan and opening an exhaust fan; outdoor fresh air passes through the filter element unit and the counter-flow total heat exchange core, is mixed with indoor air sucked from the indoor internal circulation air port and flows to the indoor machine heat exchanger, and the air enters the room from the indoor air supply air port of the mixed air duct after being dehumidified, so that fresh air filtration, indoor ventilation and air dehumidification are realized; in the mode, the air conditioner external unit runs at a low speed, and the internal circulation fan runs at a low speed; in the dehumidification mode, the control logic sets the temperature of the dehumidified air to be 2 ℃ lower than the indoor set temperature, when the indoor temperature is reduced to be 2 ℃ lower than the set temperature in the dehumidification mode, the compressor of the air conditioner external unit stops working, and when the indoor temperature rises again, the compressor starts to work;
an automatic mode step: the user selects an automatic mode through an operation panel, the user sets a temperature range T1-T2, the fresh air heating mode is automatically started when the indoor temperature is lower than T1, and the fresh air cooling mode is automatically started when the indoor temperature is higher than T2; when indoor CO2Sensor detecting indoor CO2When the concentration is higher than a set value, the fresh air fan runs in a high-grade mode; when indoor CO2Sensor detecting indoor CO2When the concentration is lower than the set value, the fresh air fan runs at a low gear.
10. A method for controlling a room air environment conditioning system as recited in claim 9, further comprising the steps of:
in a transition season, when the outdoor environment temperature detected by the fresh air temperature probe is in the range of 18-25 ℃, the bypass valve acts, the fresh air heat exchange branch is closed, the fresh air through branch is opened, the outdoor fresh air does not pass through the countercurrent total heat exchange core, and the outdoor fresh air directly flows into the room from the indoor air supply port of the mixing air duct through the fresh air through branch after being purified by the filter core unit;
in cold seasons, when the ambient temperature that the temperature probe that airs exhaust detected is less than setting value T3, the cold new trend of suction will make the full heat transfer core that flows against the current take place frost, and the action of main control unit control bypass valve closes new trend heat transfer branch road, opens the straight-through branch road of new trend, and outdoor new trend does not pass through the full heat transfer core that flows against the current, and outdoor new trend is through filter core unit purification back, flows into the mixed wind channel through the straight-through branch road of new trend and then flows into indoorly from indoor air supply wind gap.
CN201910623626.0A 2019-07-11 2019-07-11 Room air environment regulation and control system and control method thereof Active CN110388693B (en)

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